Syllabus V23:B.Tech.Marine Engineering

Transcription

School of Architecture, Science and Technology
Yashwantrao Chavan Maharashtra Open University
Syllabus
V23:B.Tech.Marine
Engineering (MEEP)
2010
AST, YCMOU, NASHIK – 422 222, MS, INDIA
CONTENTS
Basic Information ................................................................................................................... 9
Programme Calendar.............................................................................................................. 9
Eligibility and Fees ................................................................................................................ 10
Semesters and Courses ......................................................................................................... 10
Evaluation Pattern................................................................................................................ 12
Semester 01 .............................................................................................................................. 14
T01011: Communicative English / Remedial Grammar .......................................................... 14
Programme Information ......................................................................................................... 14
Course Information ................................................................................................................ 14
Presumed Knowledge and Learning Objectives ...................................................................... 14
Units ....................................................................................................................................... 14
Details Syllabus ....................................................................................................................... 15
Learning Resource Details ...................................................................................................... 15
T01012: Mathematics - I ....................................................................................................... 16
Units ....................................................................................................................................... 16
T01013: Geometrical and Engineering Drawing ..................................................................... 19
Units ....................................................................................................................................... 19
T01014: Applied Electricity & Electrical Measurements ......................................................... 23
Units ....................................................................................................................................... 23
T01015: Workshop Technology ............................................................................................. 26
Units ....................................................................................................................................... 26
T01016: Workshop ............................................................................................................... 29
Units ....................................................................................................................................... 29
T01017: Electrical Lab ........................................................................................................... 31
Syllabus For V23: B.Tech. (Marine Engineering)
Page 1
Units ....................................................................................................................................... 31
Semester 02 .............................................................................................................................. 33
T01021: Economics and Management Science ...................................................................... 33
Units ....................................................................................................................................... 33
T01022: Mathematics II ........................................................................................................ 37
Units ....................................................................................................................................... 37
T01023: Applied Thermodynamics-I ...................................................................................... 40
Units ....................................................................................................................................... 40
T01024: Material Science...................................................................................................... 44
Units ....................................................................................................................................... 44
T01025: Engineering Mechanics ............................................................................................ 47
Units ....................................................................................................................................... 47
T01026: Workshop ............................................................................................................... 50
T01027: Applied Mechanics Lab ............................................................................................ 52
Page 2
Semester 03 .............................................................................................................................. 54
T01031: Applied Thermodynamics-II ..................................................................................... 54
Units ....................................................................................................................................... 54
T01032: Mathematics III ....................................................................................................... 58
Units ....................................................................................................................................... 58
T01033: Machine and Marine Drawing ................................................................................. 61
Units ....................................................................................................................................... 61
T01034: Seamanship, Sociology, Psychology and Political Science ......................................... 63
Units ....................................................................................................................................... 63
T01035: Mechanics of Materials - I ....................................................................................... 66
Units ....................................................................................................................................... 66
T01036: Workshop ............................................................................................................... 68
T01037: Material Science Lab ............................................................................................... 70
Semester 04 .............................................................................................................................. 72
Page 3
T01041: Electronics .............................................................................................................. 72
Units ....................................................................................................................................... 72
T01042: Mechanics of Fluids ................................................................................................. 76
Units ....................................................................................................................................... 76
T01043: Mechanics of Machines - I ....................................................................................... 80
Units ....................................................................................................................................... 80
T01044: Electrical Machines - I .............................................................................................. 83
Units ....................................................................................................................................... 83
T01045: Mechanics of Materials - II ...................................................................................... 86
Units ....................................................................................................................................... 86
T01046: Workshop ............................................................................................................... 88
T01047: Electronics Lab ........................................................................................................ 90
Semester 05 .............................................................................................................................. 92
T0105: Fluid Machines .......................................................................................................... 92
Page 4
Units ....................................................................................................................................... 92
T01052: Mechanics of Machines - II ...................................................................................... 95
Programme Information......................................................................................................... 95
Units ....................................................................................................................................... 95
T01053: Computer Science ................................................................................................... 98
Units ....................................................................................................................................... 98
Learning Resource Details .................................................................................................... 100
T01054: Electrical Machines - II ........................................................................................... 102
Programme Information ....................................................................................................... 102
Course Information .............................................................................................................. 102
Presumed Knowledge and Learning Objectives .................................................................... 102
Units ..................................................................................................................................... 102
Details Syllabus ..................................................................................................................... 102
T01055: Elementary Design ................................................................................................ 105
Units ..................................................................................................................................... 105
T01056: Computer Science Lab ........................................................................................... 107
T01057: Electrical Machines Lab ......................................................................................... 109
Semester 06 .............................................................................................................................111
T01061: Marine IC Engineering – I ...................................................................................... 111
Units ..................................................................................................................................... 111
Page 5
T01062: Marine Boiler & Steam Engineering ....................................................................... 114
Programme Information....................................................................................................... 114
Units ..................................................................................................................................... 114
T01063: Marine Auxiliary Machine -I .................................................................................. 117
Units ..................................................................................................................................... 117
T01064: Ship Construction .................................................................................................. 120
Units ..................................................................................................................................... 120
T01065: Marine Electrical Technology ................................................................................. 123
Units ..................................................................................................................................... 123
T01066: Applied Heat Lab ................................................................................................... 126
T01067: Mechanical Lab ..................................................................................................... 128
Semester 07 .............................................................................................................................131
T01071: Naval Architecture ................................................................................................ 131
Units ..................................................................................................................................... 131
T01072: Marine Internal Combustion Engineering– II .......................................................... 134
Page 6
Units ..................................................................................................................................... 134
T01073: Marine Heat Engines & Air Conditioning ................................................................ 137
Units ..................................................................................................................................... 137
T01074: Marine Machines & System Design ...................................................................... 140
Units ..................................................................................................................................... 140
T01075: Marine Auxiliary Machine- II ................................................................................. 143
Units ..................................................................................................................................... 143
T01076: Power Plant Operation .......................................................................................... 146
T01077: Boiler Chemical Lab ............................................................................................... 148
Semester 08 .............................................................................................................................150
T01081: STCW & Ship Fire Prevention ................................................................................. 150
Units ..................................................................................................................................... 150
T01082: Marine Control Engineering and Automation ......................................................... 153
Units ..................................................................................................................................... 153
Page 7
T01083: Commercial Geography, Ship Operation and Management .................................... 156
Units ..................................................................................................................................... 156
T01084: Tanker Operations................................................................................................. 159
Units ..................................................................................................................................... 159
T01085: Technical Paper and Project .................................................................................. 162
Activities ............................................................................................................................... 162
T01086: Fire Control Lab ..................................................................................................... 167
T01087: Control and Simulator Lab ..................................................................................... 169
Page 8
SYLLABUS FOR
V23: B.TECH. (MARINE ENGINEERING)
BASIC INFORMATION
1.
2.
3.
4.
5.
6.
Mode of Education: Full time residential face-to-face mode of education enhanced with
ELearning support.
Minimum Programme Duration: 4 years after HSC (12th) or Equivalent
Required Study Efforts: 720 Hours in each semester
Medium of Instruction: English
Attendance: Minimum 80% attendance for all courses.
Equivalence Status:
a.
UGC recognized and approved
b. DEC recognized and approved
c.
Recognized by Government of Maharashtra for MPSC jobs
d. Study centers approved by Directorate General of Shipping
PROGRAMME CALENDAR
SN Activity Description
Admission
01 Further Admission
02 Fresh Admission
Teaching - Learning
03 Teaching - Learning
04 Teaching–Learning Backlog Clearing
End Exam (EE) Form Submission
05 EE Form Submission by students at SC
06 EE Form Submission by SCs at University
Continuous Assessment (CA) Submission
07 CA Availability on website
08 CA Submission by Students at SC
09 Provisional CA Report by SCs
10 Final CA Report Submission by SCs at
University
End Examination (EE)
11 EE for Theory Courses
12 EE for Practical, T, P or PW Courses
Semester End Vacation
13 Semester End Vacation
Odd semesters like
01, 03, 05 and 07
From 01-Aug Till 31 Jan
Even semesters like
02, 04, 06 and 08
From 01-Feb Till 31-Jul
From 05-Jun Till 05-Jul
From 05-Jun Till 05-Aug
From 05-Dec Till 05-Jan
Not Offered
From 01-Aug Till 13 Nov From 01-Feb Till 16-May
From 14-Nov to 04-Dec From 17-May to 04-Jun
On or Before 30-Sep
On or Before 05-Oct
On or Before 31-Mar
On or Before 05-Apr
From 01-Aug Till 30 Nov From 01-Feb Till 30-May
01-30 Nov
01-30 May
On or before 31-Dec
On or before 30-Jun
On or before 31-Jan
On or before 31-Jul
From 05-Dec Till 14-Dec From 05-Jun Till 14-Jun
Immediately after the
Immediately after the
last day of end exam for last day of end exam for
theory courses, but
theory courses, but
positively before 05-Jan positively before 05-Jul
From 08-Jan Till 31-Jan
From 08-Jul Till 31-Jul
Page 9
ELIGIBILITY AND FEES
Admission Eligibility
HSC (10+2) or equivalent pass
with minimum 60% in PCM
group and Min. 50% marks in
English at 10th or 12th and nonzero valid score in any
examination like CET, AIEEE, JEE
or YET and Medical Test
For
Successful
Admission to
completion
of all courses
at following
semester is
essential
Sem 5 and 6
Sem 01
Sem 7 and 8
Sem 01 to 03
Certification Eligibility
Min 50% or better marks
in total 56 courses (subjects)
of total 192 credit points
at Semesters 01-08.
Aggregate performance and
Class in the programme shall be
reported on the basis of only
semesters 07-08.
Fees and Deposit / Semester
Desc
INR
USD
UF
6,500
650
SCF
24,000
2,400
ASF
65,000
6500
EF
150/T
15/T
400/P
40/P
400/PW 40/PW
Total ≈
97,000
9,700
LD
2,000
200
SEMESTERS AND COURSES
SN Code Name
Semester 01: 24 CPs
01 T01011 Communicative English / Remedial Grammar
02 T01012 Mathematics I
03 T01013 Geometrical and Engineering Drawing
04 T01014 Applied Electricity and Electrical Measurements
05 T01015 Workshop Technology
06 T01016 Workshop
07 T01017 Electrical Lab
Semester 02: 24 CPs
08 T01021 Economics and Management Science
09 T01022 Mathematics II
10 T01023 Applied Thermodynamics-I
11 T01024 Material Science
12 T01025 Engineering Mechanics
13 T01026 Workshop
14 T01027 Applied Mechanics Lab
Semester 03: 24 CPs
15 T01031 Applied Thermodynamics - II
16 T01032 Mathematics III
17 T01033 Machine and Marine Drawing
18 T01034 Seamanship, Sociology, Psychology, Political Science
19 T01035 Mechanics of Materials - I
20 T01036 Workshop
21 T01037 Material Science Lab
Semester 04: 24 CPs
22 T01041 Electronics
23 T01042 Mechanics of Fluids
24 T01043 Mechanics of Machines - I
CA
EE
TM
Type
CPs
20
20
20
20
20
10
10
80
80
80
80
80
40
40
100
100
100
100
100
50
50
T
T
T
T
T
P
P
4
4
4
4
4
2
2
20
20
20
20
20
10
10
80
80
80
80
80
40
40
100
100
100
100
100
50
50
T
T
T
T
T
P
P
4
4
4
4
4
2
2
20
20
20
20
20
10
10
80
80
80
80
80
40
40
100
100
100
100
100
50
50
T
T
T
T
T
P
P
4
4
4
4
4
2
2
20
20
20
80
80
80
100
100
100
T
T
T
4
4
4
Page 10
SN Code Name
25 T01044 Electrical Machines - I
26 T01045 Mechanics of Materials - II
27 T01046 Workshop
28 T01047 Electronics Lab
Semester 05: 24 CPs
29 T01051 Fluid Machines
30 T01052 Mechanics of Machines - II
31 T01053 Computer Science
32 T01054 Electrical Machines - II
33 T01055 Elementary Design
34 T01056 Computer Science Lab
35 T01057 Electrical Machines Lab
Semester 06: 24 CPs
36 T01061 Marine IC Engineering - I
37 T01062 Marine Boiler and Steam Engineering
38 T01063 Marine Auxiliary Machine - I
39 T01064 Ship Construction
40 T01065 Marine Electrical Technology
41 T01066 Applied Heat Lab
42 T01067 Mechanical Lab
CA
20
20
10
10
EE
80
80
40
40
TM
100
100
50
50
Type
T
T
P
P
CPs
4
4
2
2
20
20
20
20
20
10
10
80
80
80
80
80
40
40
100
100
100
100
100
50
50
T
T
T
T
T
P
P
4
4
4
4
4
2
2
20
20
20
20
20
10
10
80
80
80
80
80
40
40
100
100
100
100
100
50
50
T
T
T
T
T
P
P
4
4
4
4
4
2
2
43 T01071 Naval Architecture
44 T01072 Marine IC Engineering – II
45 T01073 Marine Heat Engines and Air Conditioning
46 T01074 Marine Machines and System Design
47 T01075 Marine Auxiliary Machine - II
48 T01076 Power Plant Operation
49 T01077 Boiler Chemical Lab
Semester 08: 24 CPs
50 T01081 STCW and Ship Fire prevention
51 T01082 Marine Control Engineering & Automation
52 T01083 Commercial Geography, Ship Operation and
Management
53 T01084 Tanker Operation
54 T01085 Technical Paper and Project
55 T01086 Fire Control Lab
56 T01087 Control and Simulator Lab
20
20
20
20
20
10
10
80
80
80
80
80
40
40
100
100
100
100
100
50
50
T
T
T
T
T
T
T
4
4
4
4
4
2
2
20
20
20
80
80
80
100
100
100
T
T
T
4
4
4
20
20
10
10
80
80
40
40
100
100
50
50
T
PW
P
P
4
4
2
2
Page 11
EVALUATION PATTERN
SN Type of Course
1
Theory (T)
1.
Continuous Assessment
Student is required to answer
1 of 1 SAQ, each of 5 marks,
on each CP
Single attempt only
Marks: 5 Marks for each CP
Duration: Specified 1 Month
End Examination
Student is required to answer 1 of
1 SAQ, each of 5 marks, on each CP
2. Student is required to answer 1 of
2.
2 LAQs, each of 15 marks, on each
3.
CP
4.
3. Maximum 5 Attempts only
4. Marks: 20 Marks for each CP
5. Duration: 45 minutes for each CP
2
Practical (P)
1. Student is required to submit 1. External and internal examiners shall
“Activity Report” for each CP
assess each student based on:
in the prescribed format.
a.
Conduct of One Randomly
2. Single Attempt only
Selected Practical Activity – 5
Marks
4. Duration: Specified 1 Month
b. Viva-Voice - 5 Marks
5. CAT: Continuous Assessment
c.
Journal (Workbook) - 5 Marks
Time is 1 hr for each C.P.
and
d. Report of Practical Activity - 5
Marks
4. Duration: 240 minutes
3 Project Work 6. Student is required to submit 5. External and internal examiners shall
(PW)
“Activity Report” for each CP
assess each student based on:
in the prescribed format.
a.
Project Proposal and Review of
7. Single Attempt only
Literature - 5 Marks
b. Project Results and Report - 5
9. Duration: Specified 1 Month
Marks
10. CAT: Continuous Assessment
c.
Presentation - 5 Marks and
Time is 1 hr for each C.P.
d. Viva-Voce - 5 Marks
8. Duration: 240 minutes
Actual CA and EE marks shall be used in computation of “Total Marks (TM)”. “Grace Factor” and
“Total Marks (TM)” shall be used in computation of Percentile marks. Only percentile marks shall
be reported for each course in the mark-statement. For successful completion, minimum 50%
marks shall be essential for each course. Only best of the past performance shall be reported.

Evaluation Pattern Of Practical Type Courses of 2 CP
SN Description
Total
Internal Examiner
External Examiner
Marks
Duration of End Exam: 240 minutes (4 hrs)
Batch size: ≈15 students
a
Actual Conduct of 1 randomly
4 Marks
6 Marks
10
selected practical activity
b
Viva-Voice
3 Marks
7 Marks
10
c
Workbook
4 Marks
6 Marks
10
d
Report of Practical Activity with
10
Diagram,
synoptic
Answers, 4 Marks
6 Marks
Graph/Observation and Conclusion
Total 15 Marks
25 marks
40 Marks
1.
Page 12
SN
a
b
c
d

Evaluation Pattern of Project Type Courses of 4 CP
Description
Internal Examiner
Duration of End Exam: 240 minutes (4 hrs)
Project Proposal and Review of
8 Marks
Literature
Project Result and Report
7 Marks
Presentation
8 Marks
Viva-Voice
7 Marks
Total 30 Marks
External
Examiner
Batch size: ≈10 students
13 Marks
12 Marks
13 Marks
12 Marks
50 marks
Total Marks
21
19
21
19
80 Marks
Page 13
SEMESTER 01
T01011: COMMUNICATIVE ENGLISH / REMEDIAL GRAMMAR
PROGRAMME INFORMATION
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Nashik - 422 222, Maharashtra, India
Website: http://www.ycmou.com/
Technology
UG
V23: B.Tech. (Marine Engineering)
COURSE INFORMATION
Sem Code Course Name
Communicative
01 T01011
Grammar
English
/
Remedial
CP CST CAT ST CA
1
20
4 80
120
EE
80
TM Type
100
T
PRESUMED KNOWLEDGE AND LEARNING OBJECTIVES
Presumed Knowledge
Learning Objectives
After successful completion of this course,
For successful completion of this course, student student should be able to
should have successfully completed:
 Enhance linguistic abilities in English

10+2 or HSC or ISC with English as
compulsory
subject
either
at
secondary or higher secondary level
language about
1. listening,
2. reading & writing
3. speaking
UNITS
UN Name of the Unit
1-1 Communication
1-2 Oral Communication
2-1 Written Communication
2-2 Reading, Listening Comprehension
3-1 Remedial Grammar
CSs
CP Block 01
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
4-1 Grammar – I
4-2 Grammar – II
CSs
61-80
Questions
Students have to answer '1 of
1' SAQ in CA and
'1 of 1' SAQ & '1 of 2' LAQs in
end exam on these units.
1' SAQ in CA and
1' SAQ in CA and
1' SAQ in CA and
Page 14
DETAILS SYLLABUS
CP
Block
CP
Block
01
UN Detail Syllabus of the Unit
1-1 Communication: Communication and its importance.
1-2 Oral communication: use of English in situation with elementary phonetic drill.
2-1 Written communication: Comprehension, letter writing, precise, and reporting.
CP
Reading, Listening Comprehension: Selected tests to develop skill in comprehension
2-2
Block
and speech.
02
Remedial Grammar: The Article, Parts of speech, Linking words, Negative sentences,
Questions, Verbs Transitive/Intransitive, Regular/Irregular, Tense & their uses, Helping
CP
3-1 verbs, Verbs and adverbs Question Tags, Transformation Nouns Singular & Plural. The
Block
Possessive Adjective or the Definite/Articles with Nouns denoting parts of the body,
03
confusion of Adjective & Adverbs, Adverbial use of No., Not & None.
Grammar I: Difficulties in the comparative & superlative. Confusion of Participles: Active
4-1 and Passive Voice. The use of Prop word ‘one’ Prepositions, Negative verbs, The use of CP
correlatives.
Block
Grammar II: Use of who and whom, much and many still & yet, so that, so as, may be 04
4-2
and do.
Topics Included in Syllabus:
T01011-T1- Book-1- Chapters 4 to 7, 9, 10, 14,15,20, 22, 25,26, 29, 32, 34,35,36, 38, 39
T01011-T1- Book-2 - Part 4-Chapters 36 to 38
T01011-T2- Part 5 – Chapters 26
Topics not Included in Syllabus:
T01011-T1- Book-1- Chapters 1 to 3, 8, 11 to 13, 16 to 19, 21, 23-24, 27, 28, 30-31,33,
37, 40 to 43.
T01011-T1- Book-2 - Part 1, 2, 3, Part 4-Chapters 33-35, 39-44.
T01011-T2- Parts 1-4; Part 5 –Chapters 22 to 25; Parts 6&7.
LEARNING RESOURCE DETAILS
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
High School English Grammar & Composition
2003
Wren & Martin
Principles & practices of Management
T01011-TB2
6th
L.M.Prasad
Reference-Books
English Plus
2002
T01011-RB1
Xavier Pinto
T01011-TB1
T01011-RB2
Oxford Dictionary of Difficult words
81-219-009-3
S. Chand & Company
S. Chand & Sons
Selina Publication
0-19-5614673-5
Oxford Publication
CD / DVD
T01011-CD1
T01011-CD2
Web Links
T01011-WL1
Page 15
T01012: MATHEMATICS - I
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01012 Mathematics - I
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
For successful completion of this course, student
student should be able to
 10+2 or HSC or ISC with Maths as
 Apply Mathematical principles to
compulsory subject
either at
Engineering
UNITS
UN Name of the Unit
1-1
1-2
1-3
1-4
Review of Fundamentals of Differentiation
Mean Value Theorems and its Applications
Application of Derivatives
Successive Differentiation
CSs
Questions
CP Block 01
Students have to answer '1 of 1'
SAQ in CA and
'1 of 1' SAQ & '1 of 2' LAQs in end
exam on these units.
CSs
01-20
2-1 Differential Calculus of Functions of Several CP Block 02 Students have to answer '1 of 1'
Variables
SAQ in CA and
2-2 Calculus of Variations
CSs
2-3 Definite Integrals – I
21-40
CP Block 03 Students have to answer '1 of 1'
3-1 Definite Integrals - II
SAQ in CA and
3-2 Vector Algebra
CSs
3-3 Vector Calculus – I
41-60
Vector Calculus - II
CP Block 02 Students have to answer '1 of 1'
4-1
Determinant and Matrices
SAQ in CA and
4-2
Complex Numbers and Functions of Complex
CSs
4-3
Variables
61-80
DETAILS SYLLABUS
CP
Block
Review of fundamentals of Differentiation: Review of prerequisites such as –Functions, CP
1-1
limits, continuity, Uniform continuity and differentiability.
Block
Page 16
Mean Value Theorems and its Applications: Rolle’s theorem, Mean value theorems and 01
Taylor’s theorem. Applications of Mean value theorems.
1-3 Applications of Derivatives: Rate measure, Error, Extreme, Curvature, Asymptotes.
Successive Differentiation: Higher order derivatives, nth order derivatives, standard
1-4 results, nth order derivatives, of rational functions and partial fractions, nth order
derivative of the product of powers of sines and cosines.
1-2
Differential Calculus of Functions of Several Variables: Limit, continuity, Partial
derivatives and their geometrical significance, Higher order partial derivatives,
2-1
homogeneous functions, Euler’s theorem, exact differentials Maxima, Minima and
Saddle points, constrained maxima or minima, Lagrange multipliers.
Calculus of Variations: The Brachistochrome problem, Euler-Lagrange development, CP
2-2 applications of Euler’s equation, several dependent variables, applications to discrete Block
mechanics, the Isoperimetric problem.
02
Definite Integrals – I: Properties of definite integrals, Fundamentals theorem of integral
2-3 calculus, Integration as limit of a sum, Applications of integrals to lengths of plane
curves, volume and surface of revolution.
Definite Integrals – II: Applications of integrals to find Center of gravity, Moment of
inertia.
3-1
Special functions: Beta function and gamma function, multiple integrals. Method of
differentiation under integral sign.
CP
Vector Algebra: Vector algebra, Scalar and vector products, orthonormal triad, scalar
Block
3-2 triple products, Linear dependence of vectors, other repeated products, Identity of
03
Lagrange, Reciprocal systems.
Vector Calculus I: Vector calculus, vector functions of one variable and their derivatives,
3-3
curves, arc length, tangent, curvature and torsion.
Vector Calculus II: Gradient of a scalar field, Divergence of a vector field, Curl of a vector
field, Directional derivatives.
Determinant and Matrices: Matrix algebra, submatrices, Rank of a matrix, Systems of n
linear equations in n unknown, Inverse of a matrix, Hermitian and Skew-Hermitian
4-2 matrices, Unitary, orthogonal and normal matrices, Eigen values and Eigen vectors,
Eigen values of Hermitian, Skew-Hermitian and Unitary matrices, Bilinear, Quadric, CP
Hermitian and Skew-Hermitian forms, Real life applications.
Block
Complex Numbers and Functions of Complex Variables: Review of pre requisites of 04
complex numbers, De-Moivre’s theorem.
Functions of complex variables: Limit, derivative, Analytic functions, Cauchy Riemann
4-3
equations, Cauchy’s integral theorem, Cauchy’s integral formula, Derivatives of an
analytic functions, Taylor series and Laurent series integral formula, Derivatives of an
analytic functions, Taylor series and Laurent series.
T01012-T1- Unit 6: Chapters 17 (17.1 to 17.6), Unit 11 to 13: Chapters 5 (5.1 to 5.16,
5.19 to 5.24, 5.31 to 5.39)
T01012-T2- Unit 1 to 4: Chapter 6, Chapter 7 (7.1 to 7.5), Chapter 8 (8.6, 8.7)
T01012-T3- Unit 5: Ch.5 (5.1 to 5.7 and 5.12 to 5.13), Unit 7 to 9: Ch.5 (5.14), Ch.6
(excluding 6.9 to 6.10), Ch.7 (7.10; 7.12; 7.13 to 7.16), Unit 15: Ch.19 (19.1; 19.5; 19.10
to 19.12; 19.15; 19.16), Ch.20 (20.1 to 20.5, 20.12 to 20.14, 20.16)
T01012-T1- Chapters 1 to 4, Chapters 5 (5.17; 5.18; 5.25 to 5.30; 5.40 to 5.57), Chapters
4-1
Page 17
6 to 16, Chapters 18 to 21.
T01012-T2- Chapters 1 to 5, Chapter 7 (7.5 onwards), Chapter 8(8.1 to 8.5), Chapters 9
to 12.
T01012-T3- Chapters 1 to 4, Chapter 5 (5.8 to 5.11), Chapter 6(6.9 to 6.10), Chapter
7(7.1 to 7.9; 7.11; 7.17; 7.18), Chapters 8 to 18, Chapter 19(19.2 to 19.4; 19.6 to 19.9;
19.13; 19.14; 19.17), Chapter 20(20.6 to 20.11; 20.15; 20.17 to 20.20), Chapters 21 to
33.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Advanced Engineering Mathematics
H.K. Das
11th
2003
81-219-0345-9
S. Chand & Company, New
Delhi
Nirali Prakashan
Text-Books
T01012-TB1
Engineering Mathematics –I
Gokhale, Singh, Majumdar
Higher Engineering Mathematics
T01012-TB3 Dr. B.S. Grewal
1st
2003
36th
2002
Reference-Books
Engineering Mathematics Vol I & II
T01012-RB1 S.S. Sastry
3rd
2003
T01012-TB2
T01012-RB2 Advanced Engineering Mathematics
H. K. Das
T01012-RB3 A text book of Applied Mathematics
Vol. I, II, III
P N Wartikar and J N Wartikar
Dennis G. Zill & Michael R. Cullen
81-7409-115-7
Khanna Publishers,
Delhi
New
81-203-2579-6
81-203-2620-2
Prentic of India, New Delhi
81-219-03459
S. Chand & Company
7th
2001
81-85825-10-6
81-85825-07-6
81-85825-01-7
Pune
Vidyarthi
Griha
Prakashan, Pune
2nd
& 81-239-0700-1 or
2003
0-7637-1357-0CBS
Publishers and Distributors,
New Delhi
CD / DVD
T01012-CD1
T01012-CD2
Web Links
T01012-WL1
T01012-WL2
Page 18
T01013: GEOMETRICAL AND ENGINEERING DRAWING
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01013 Geometrical and Engineering Drawing
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 10+2 or HSC or ISC with English as
 Ability to read, interpret and draw
compulsory
subject
either
at
engineering drawing.
UNITS
UN
1-1
1-2
1-3
1-4
Name of the Unit
Introduction to Technical Drawing
Curves Used in Engineering Practice
Loci of Points
Screw-Threads
Screwed Fastenings
2-1
Orthographic Projection
2-2
Isometric Projections
2-3
Development of Surfaces
3-1
Projection of Points / Lines
3-2
Projection of Solids
3-3
4-1
4-2
4-3
4-4
Section of Solids
Intersection of Surfaces
Introduction to Oblique Projections
Introduction To Ports
CSs
CP Block 01
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
CSs
61-80
Questions
Students have to answer '1
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Block
Introduction to Technical Drawing: Instruments and their uses: Drawing board, T- CP
1-1
square, Set-square, Drawing instrumentation box, Scales, Protractor, French curves, Block
Page 19
1-2
1-3
1-4
2-1
2-2
2-3
Drawing papers, Drawing pencils, Eraser, Drawing pins, sand-paper block, duster,
Drafting Machine, General suggestions for drawing a sheet. Sheet Layout and Sketching:
Lines: Introduction, Lines, Types of lines. Lettering: Single stroke letters, Gothic letters.
Dimensioning: Types of dimensions, Dimensioning terms and notations, placing of
dimensions, unit of dimensioning, General rules for dimensioning, Practical hints on
dimensioning. Scales: Introduction, Engineers scale, Graphical scale, Representative
fraction, Scales on Drawing, Types of scales-plain, Diagonal, Comparative, Vernier, Scale
of chords. Geometric Construction: Bisecting a lines, To draw perpendiculars, To draw
parallel lines, To divide lines, To bisect an angle, To trisect an angle, To find center of an
arc, To construct equilateral triangles, To construct squares, To construct regular
polygons, Special methods to draw regular polygons, Regular polygons inscribed in
circles, To draw regular figures using T-square and Set square or Mini drafter, Lengths of
arcs, Circles and Lines in contact, Inscribed circles.
Curves Used in Engineering Practice: Classification of curves (Conic Sections, Cycloidal
curves, Involute, Evolutes, Spirals, Helix), Definitions and Terminology associated with
each.
Methods to construct Conics: Methods to construct Ellipse (Directrix - focus, Arcs of
Circles, Concentric circles, Oblong), Methods to construct Parabola (Directrix – focus,
Rectangle, Tangent), Hyperbola (Directrix – focus, Rectangle), Normal and Tangents to
conics.
Spirals: Archimedean Spiral, Logarithmic or Equiangular spiral, Normal and Tangent to
both.
Helix: Helix on a cylinder, Helix on a cone, Involutes: Winding and Unwinding method
Cycloidal Curves: Cycloid (Inferior, Trochoid), Epicycloid (Inferior, Superior), Hypocycloid
(Inferior, Superior)
Loci of Points: Introduction, Loci of points, Simple mechanisms-The slider crank
mechanism, A four bar mechanism, crank-connecting rod-trunnion mechanism,
combinations of above mechanism
Screw-Threads: Introduction, Definitions, Forms of threads (Triangular or V threads:
Unified, Metric, Whitworth, British Standard, British Association, Square thread: Acme,
Knuckle, Buttress)
Conventional representation of threads: Method I (External threads, Internal threads),
Method II (External V threads, Internal V threads, External Square threads, Internal
Square threads), Multiple-start threads, Right-hand and left-hand threads.
Screwed Fastenings: D FASTENINGS: Introduction, Types of nuts: Hexagonal, Square,
special purpose-Flanged, Cap, Dome, Cylindrical or Capstan, Ring, Wing, Washers-Plane
washer, Chamfered washer, Spring washer. Types of bolts, Forms of bolts-Hexagonal
headed, Square headed, Cylindrical or cheese headed, Cup-headed or round-headed, Theaded, Countersunk-headed, Hook bolt, headless tapered, eye-bolt, Yap-bolt or capscrew, stud-bolt or stud,
Set- screws, Locking arrangements for nuts-Lock-nut or check-nut, Split pin, Slotted nut,
Castle nut, Swan nut or Wiles nut, Simmond’s lock nut, Penn, ring or grooved nut, Stopplat or locking-plate, Foundation bolts-Eye foundation bolt, Rag bolt, Lewis bolt, Cotter
bolt.
Orthographic Projection: Introduction, Principle of projection, Methods of projection,
Principal planes of projection, four quadrants, First angle projection, Third angle
projection, Reference line, Symbol for method of projection, Relative position of views
in first angle projection method.
Isometric Projections: Introduction, Isometric projection, axes, lines and planes,
Isometric scale, Isometric Drawing or Isometric view, Non isometric lines, Angles, curves
and circles in isometric projections, Isometric drawing of planes or plane figures, Prisms
01
CP
Block
02
Page 20
and Pyramids, Cylinders, Cones, Spheres
Development of Surfaces: Introduction, Methods of development-Parallel-line, Radial –
line, Triangulation, Approximate, Developments of lateral surfaces of right solids- Cube,
3-1
prisms, Cylinders, Pyramids, Cone, Development of transition pieces, Spheres-Zone
method, Lune method.
Projection of Points / Lines: Projection of Points: A point is situated in the first / second
/ third /fourth quadrant. Projection of Straight lines: line combined to one or both the
planes, line contained by one or both the planes, Line inclined to one plane and parallel
3-2 to the other, line inclined to both the planes, Line contained by a plane perpendicular to
both the reference planes, True length of a straight line and its inclinations with the
CP
reference planes, Traces of a line, Methods of determining traces of a line, Traces of a
Block
line, the projections of which are perpendicular to x-y. Positions of traces of a line.
03
Projection of Solids : Introduction, Types of solids- Polyhedra, Solids of revolution,
Projection of solids in simple positions,-Axis perpendicular to the H.P., Axis perpendicular
to the V.P., Axis parallel to both the H.P. and the V.P., Projection of solids with axes
inclined to one of the reference planes and parallel to the other- axis inclined to the V.P.
3-3
and parallel to the H.P., Axis inclined to the H.P. and parallel to the V.P., Projection of
solids with axes inclined to both H.P. and V.P: Simple position, Axis inclined to one plane
and parallel to the other, Final position, Projection of Spheres-Spheres in contact with
each other, Unequal spheres
4-1
4-2
4-3
4-4
Section of Solids: Introduction: Section planes, Sections, True shape of a section,
Section of Prisms: Section plane parallel to the V.P., Section of Prisms- Section plane
parallel to the H.P., Section plane perpendicular to the H.P. and inclined to the V.P.
Section plane perpendicular to the V.P. and inclined to the H.P.
Sections of pyramids: Section plane parallel to the base of the pyramid, Section plane
parallel to the V.P., Section plane perpendicular to the H.P. and inclined to the V.P.,
Section plane perpendicular to the V.P. and inclined to the H.P.
Sections of cylinders: Section plane parallel to the base, Section plane parallel to the
axis, Section plane inclined to the plane.
Section of cones: Section plane parallel to the base of the cone, Section plane passing
through the apex of the cone, Section plane inclined to the base of the cone at an angle
smaller than the angle of inclination of the generator of the cone, Section plane parallel CP
to the generator of the cone, Section plane inclined to the base of the cone at an angle Block
greater than the angle of inclination of the generator with the base.
04
Sections of spheres: Section plane parallel to the H.P., Section plane parallel to the V.P.,
Section plane perpendicular to the V.P. and inclined to the H.P., Section plane
perpendicular to the H.P. and inclined to the V.P.
Intersection of Surfaces: Introduction, Line of intersection, Methods of determining the
line of intersection between surfaces of two interpenetrating solids: Line method,
Cutting –plane method, Intersection of two prisms, Intersection of cylinder and cylinder:
Line method, Cutting –plane method, Intersection of cylinder and prism, Intersection of
cone and cylinder: Cutting-plane method, Line method, Intersection of cone and prism,
Intersection of cone and cone, Intersection of sphere and cylinder or prism.
Introduction to Oblique Projections ……..…(Theoretical treatment only)
Introduction to Projection of Ports …………(Theoretical treatment only)
T01013-T1- Chapters: 1to 6 (6.0 to 6.6 –1 & 6.6 - 4), 7 to 10, 13 to 15, 16, 17, 23, & 24.
T01013-R1 – (Graphics – I) 1, 2, 3, 5. (Graphics -II) 1, 3, 4, 5, 6.
T01013-R2 - Chapters 1, 3, 4, 5, 6.
Page 21
T01013-T1- Chapters 11, 12, 18, 19, 20, 21, 22, 25, 26.
T01013-R1 – (Graphics – I) 4. (Graphics – II) 2, 7.
T01013-R2 – Chapters 2, 7
Edition
Year
ISBN
Publisher
Engineering Drawing
T01013-TB1 N. D. Bhat & V. M. Panchal
4th
2002
81-85594-01-05
Charotar publishing House,
Anand-388 001.
Reference-Books
Engineering Graphics
T01013-RB1 H.G. Phatkatkar
3rd
2001
Engineering Graphics
Prof. M. L. Dabhade
6th
2002
Eurasia Publishing House (P)
Ltd. Ram Nagar, New Delhi110055
81-87575-34-4
Vision Publications Pune
LR Code
Title
Author
Text-Books
T01013-RB2
CD / DVD
T01013-CD1
T01013-CD2
Web Links
T01013-WL1
T01013-WL2
Page 22
T01014: APPLIED ELECTRICITY & ELECTRICAL MEASUREMENTS
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
Applied
Electricity
01 T01014
Measurements
&
CP CST CAT ST CA
1
20
4 80
120
Electrical
EE
80
TM Type
100
T
Presumed Knowledge
Learning Objectives
For successful completion of this course, student After successful completion of this course,

10+2 or HSC or ISC with English as
compulsory
subject
either
at

Understand basic concepts
electrical engineering
of
UNITS
UN
1-1
1-2
1-3
1-4
2-1
2-2
2-3
2-4
3-1
3-2
3-3
3-4
4-1
4-2
4-3
4-4
Name of the Unit
Basic Concepts
Electrostatics
Electromagnetism
Electromagnetic Inductance
Single Phase A.C. Circuits
Three Phase circuits
Cells
Illumination
Analog Instruments
Measurement of Power and Watt meters
Measurement of Energy
Measurement of Phase and Frequency
Measurement of Resistance
A.C. Bridges
Measurement of Non-electrical Quantities
(using transducers)
Simple Electronic Measuring Devices
CSs
CP Block 01
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Block
Page 23
Basic Concept: Resistance, Ohm’s law, Division of current, Kirchhoff’s law, Superposition
1-1 theorem, Theveni’s theorem, Maximum power transfer theorem; simple numerical
problems
Electrostatics: Electric charge, Coulomb’s law, Electric fields, Electric potential,
1-2
Capacitor- charging, discharging, energy stored, series and parallel capacitor
CP
Electromagnetism: Magnetic field, Laws of magnetic circuit, Biot – Savart law, different
Block
1-3 magnetic circuits, calculation of Ampere-Turns, hysteresis, magnetic leakage and
01
fringing, comparison between magnetic and electric field; simple numerical problems.
Electromagnetic Induction: Relation between magnetism and electricity, production of
1-4 induced EMF and current, Lenz’s law, statically and dynamically induced EMF, energy
stored in a magnetic field.
Single phase A.C. Circuits: Production of AC voltage and current, different terms, AC
2-1 through R, L and C, power triangle, resonance in series and parallel circuit.
Three - Phase Circuits: Advantages of three phase system over single phase system,
2-2 Generation of three phase voltage and current, phase sequence, connection of three CP
phase winding, line and phase quantities in star delta circuit
Block
Cells: Faraday’s law of electrolysis, classification of batteries, lead acid batteries – active 02
2-3
material, chemical changes, battery rating, charging of batteries.
Illumination: Laws of illumination, incandescent lamp, fluorescent lamps, essentials of
2-4
good lighting, street lighting, flood lighting.
3-1
3-2
3-3
3-4
Analog Instruments: Classification of analog instrument, principles of operation,
essentials of indicating instruments, deflecting torque, controlling torque, damping
torque, moving iron ammeters and voltmeters, attraction type M.I. instrument,
repulsion type M.I. instrument, advantages and disadvantages, extension of range by
shunts and multipliers, moving coil instrument, permanent magnet type, advantages
and disadvantages, extension of range, electrodynamics’ or dynamometer type
instruments, thermocouple ammeter.
CP
Measurement of Power and Watt Meters: Power in d.c. circuit, power in a.c. circui,
Block
measurement of power in three phase circuit, three phase watt meters, reactive power
03
measurement in three phase circuit using one wattmeter.
Measurement of Energy: Single phase induction type energymeter, errors in
energymeter.
Measurement of Phase and Frequency: Frequency meters-mechanical resonance type,
electrical resonance type, Weston type, ratiometer type frequency meter.
Synchroscopes-electrodyanamometer type synchroscope, phase sequence indicator.
Measurement of Resistance: Classification of resistances, Measurement of medium
resistance-ammeter-voltmeter method, Wheatstone bridge method. Measurement of
low resistance-Kelvin’s double bridge method. Measurement of high resistance using
megger.
A.C. Bridges: General equation of bridge balance, general form of a.c. bridges, CP
4-2 Measurement of self-inductance-Maxwell’s inductance bridge, Maxwell’s inductance- Block
capacitance bridge, measurement of capacitance using Schering bridge.
04
Measurement of Non-Electrical Quantities (using transducers): Measurement of
pressure using electrical transducers as secondary transducers-resistive transducer,
4-3
inductive transducer, capacitive transducer, L.V.D.T. Measurement of angular velocityElectrical tachometers, photoelectrical tachometer. Measurement of temperature4-1
Page 24
Resistance thermometer, thermistors, thermocouple. Measurement of flowelectromagnetic flow meter, turbine meters.
Simple Electronics Measuring Devices: CRO-Basic principle of signal display, block
4-4 diagram of oscilloscope, cathode ray tube. Timing circuits-basic circuits, block schematic
of timer, block diagram of IC-555, Function generator.
T01014-T1- Chapters 1.12 to 1.15, 1.17, 1.18; 3.3.3, 6, 7.6;, 8.1 to 8.3, 8.5,
T01014-T2- Chapters 1-7; 8.4, 8.5, 8.7 - 8.10, Numerical not included, 9.1, 9.3–9.7, 9.9,
9.11 – 9.13, 9.15 – 9.18; 10.2.1-10.2.5, 10.5-10.9; 11-13, Appendix-A.
T01014-R1 – 1.1 to 1.4, 1.11 to 1.13, 1.17 to 1.19, 1.28 to 1.29; 2.5 to 2.10, 2.12 to 2.16,
2.21 to 2.29; 4.9, 4.10, 4.13, to 4.20; 5.3, 5.4, 5.6 to 5.10, 5.13, 5.14, 5.16, 5. 17, 5.21 to
5.23; 6.11 to 6.13, 6.15, 6.17 to 6.20, 6.29 to 6.31; 8.2, 8.5, 8.7 to 8.9, 8.12 to 8.14; 9.2,
9.3, 9.5 to 9.7, 9.10 to 9.17, 9.22 to 9.26, 9.31 to 9.50; 11.4, 11.5, 11.20 to 11.27; 13.5,
13.6, 13.8, 13.13 to 13.19; 14.5 to 14.8, 14.13; 19.3 to 19.5, 19.11 to 19.36, Chapters – 3,
10, 12, 15 to 18, 20 to 24
T01014-R2 - 7.5 to 7.8, examples 7.1-7.5,7.11-7.17; 11.3-11.9; 12.1-12.6,12.8-12.14;
13.1,13.2.4,13.2.5,13.3.2; 14.2.2,14.2.4- 14.2.8; examples 14.5-14.14, 14.3.3, examples
14.15 -14.16, 14.4-14.6, examples 14.17-14.21; 16.5.3 -16.5.6, 16.6.1, 16.6.3-16.11,
numerical not included; 22.1-22.10, 22.12-22.14; 25.1-25.3, 25.5-25.39; 29.1-29.16,
29.17.5-29.17.7, 29.18-29.21, 29.22.1(3), 29.22.2, 29.23 - 29.26, 29.27.2, 29.27.3, 29.3129.39, 29.40.3 - 29.40.6, 29.41 – 29.54
Chapters 1- 6; 8; 10; 15; 17 – 20; 23; 24; 26 - 28; 30; 31.
T01014-R3 – 50.3, 50.4, 50.7, 50.8, 50.10, 50.11, Chapter – 1 to 49, 51 to 52
Edition
Year
ISBN
Publisher
Elements of Electrical Engineering
T01014-TB1 V.V. Sovani
1st
1997
Elements of Electronics Engineering
A.P.Godse & U.A.Bakshi
Reference-Books
Electrical Technology Vol. I
T01014-RB1
B.L. Theraja & A. K. Theraja
Elect.& Electro Measurement,
T01014-RB2
A.K. Sawhney
Principle of Electrical Engineering
T01014-RB3
B. R. Gupta
CD / DVD
T01014-CD1
T01014-CD2
Web Links
T01014-WL1
T01014-WL2
2003
81-85825-97-1
Pune
Vidyarthi
Prakashan
Technical publication
2003
S. Chand & Company
2003
81-7700-016
Dhanpat Rai Pub.
S. Chand & Company
LR Code
Title
Author
Text-Books
T01014-TB2
2001
Ghrih
Page 25
T01015: WORKSHOP TECHNOLOGY
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01015 Workshop Technology
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Use various hand tools and machine
tools.
compulsory
subject
either
at

Understand different manufacturing
processes.
UNITS
UN Name of the Unit
1-1 Common Workshop Tools
1-2 Measuring Instruments & Inspection
2-1 Machining Process
2-2 Welding and its Process
3-1
Machine Tools
CSs
CP Block 01
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
4-1 Fitting and Overhauling
4-2 Safety Measures
CSs
61-80
Questions
1' SAQ in CA and
1' SAQ in CA and
1' SAQ in CA and
1' SAQ in CA and
DETAILS SYLLABUS
CP
Block
1-1 Common Workshop Tools: Description and uses of different types of Callipers, Straight CP
Page 26
edges, Try squares, Vices, Hammers, Chisels, Scrapers, Files, Drills, Reamers, Tapes, V- Block
Blocks, Face plate, Marking blocks, Carpentary tools, pattern maker’s tools, Smithy tools 01
and Moulding tools.
1-2 Measuring Instruments & Inspection: Description and use of steel rule, Vernier’s scale,
Micro-meter, Dial gauge, Depth gauge, thread gauge, Feeler gauge, Wire gauge, pattern
maker’s scale Taper gauge, snap gauge, Plug gauge; Optical methods of measurements,
Principles of interchangeability, limit system, Use of limit gauge.
Machining Process: The geometry of cutting processes Machines of cutting, Chip
formation, Cutting forces, Stresses and power; Friction of chip on tool. Generation and
dissipation of heat in cutting. Standard nomenclature for cutting tools. Cutting speeds
and feeds estimation of machining time. The fundamental Cutting process, Application
CP
in hand tools as chisel, file and saw; geometrical control of the cutting edge. Kinematic
Block
analysis.
02
Welding and its Process: Welding Equipment & Applications, Electric welding (A.C. &
2-2 D.C.) Spot welding. Gas welding, Soldering & Brazing. Different welding & Electrodes,
solders & Brazing Fluxes.
2-1
3-1 Machine Tools: The specification, operation and inspection of the more important
types of metal cutting machine tool including Centre laths, Capstan and turret lathes,
Automatic lathes, drilling and boring machines. Shaping slotting and planning machines, CP
Milling and broaching machines. Turning, Screw cutting and taper turning processes on Block
Centre lathe, Abrasive process; Grinding, honing and lapping by hand and machines. 03
Shears and punches. Wood working machines, Principles of jigs and fixtures
Standardization.
4-1 Fitting and Overhauling: Types of packing and jointing materials and their uses, Design
considerations and constructions and construction of various types of valves and cocks,
CP
Reducing valves for steam and air. Bedding of bearings, marking of engine parts for
Block
fitting, machining operations fitting of keys, cotters, etc.
04
4-2 Safety Measures: Sources of danger and methods of protection. Types of guards and
safety devices, Factory Act regulations.
T01015-T1- Vol I: Page No.1, 2, 125 to 143, 177 to 179, 211 to 250, 256 to 258, 262 to
264, 274 to 293, 332 to 337, 459 to 568
T01015-T2- Vol II: Page No. 35 to 82, 83 to 88, 110 to 182, 183 to 203, 227 to 262, 279 to
373, 397 to 413, 434 to 437, 441, 513 to 532, 533 to 544
T01015-R2- Only topic on Safety Measures included
Edition
Year
ISBN
Publisher
Workshop Technology Vol. I
T01015-TB1 Hajra Chowdary
2002
Workshop Technology Vol.II
2001
81-85099-15-4
Media
Promoters
Publishers
81-85099-14-6
Media
Promoters
Publishers
LR Code
Title
Author
Text-Books
&
&
Reference-Books
Page 27
Workshop Technology Vol. I , II & III
Chapman
T01015-RB2 Krar Check Technology of Machine Tools
CD / DVD
T01015-CD1
T01015-CD2
Web Links
T01015-WL1
T01015-WL2
T01015-RB1
2001
81-85617-80-5
Viva Books
HMT Hand Books
Page 28
T01016: WORKSHOP
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01016 Workshop
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives
 Use Hand & power tools in basic
compulsory
subject
either
at
workshop and in fitting.
UNITS
UN Name of the Unit
CSs
Questions
Fitting Shop: (Bench Work)
1-1 To make a square block from a round bar-I
1-2 To make a square block from a round bar-II
CP
1-3 To make a hexagon block form a round bar-I
Block Students have to submit
1-4 To make a hexagon block form a round bar-II
01
‘Report of Activities’ in
1-5 To make a Male-Female square fitting from a 10 mm. thick
CA and face Viva for end
Plate-I
CSs
1-6 To make a Male-Female square fitting from a 10 mm. thick
01-53
Plate-II
1-7 To make a V-fitting from a 10 mm. thick plate-I
1-8 To make a V-fitting from a 10 mm. thick plate-II
Machine Shop (Lathe Work)
2-1
2-2
2-3
2-4
2-5
2-6
2-7
2-8
Straight Turning.
CP
To make a round Tensile Test Specimen.
To make a Step Pulley.
02
Straight Turning undercut with taper.
To make a pin with undercut and threads.
CSs
Stepping-down with knurling operation.
54-106
Taper turning and inside boring.
Marking of Hexagonal end with undercut taper turning and
thread cutting.
Page 29
Edition
Year
ISBN
Publisher
Workshop Technology Vol. I
2002
Workshop Technology Vol. II
2001
81-85099-15-4
Media
Promoters
Publishers
81-85099-14-6
Media
Promoters
Publishers
LR Code
Title
Author
Text-Books
&
&
Reference-Books
T01016-RB1
T01016-RB2
CD / DVD
T01016-CD1
T01016-CD2
Web Links
T01016-WL1
T01016-WL2
Page 30
T01017: ELECTRICAL LAB
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
V23: B. Tech. (Marine Engineering)
COURSE INFORMATION
01 T01017 Electrical Lab
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives
 Handle and use electrical measuring
compulsory
subject
either
at
and testing equipment
UNITS
UN Name of the Unit
CSs
Questions
1-1 Determination of equivalent resistance under (a) series, (b)
parallel and (c) series-parallel connections.
1-2 Measurement of resistance by voltmeter and ammeter CP
method.
1-3 Continuity test by megger and multi-meter.
01
1-4 Measurement of high resistance by megger.
1-5 Volt-ampere characteristics of lamps.
CSs
1-6 Measurement of low resistance by Kelvin bridge.
01-53
1-7 Verification of Superposition theorem
1-8 Verification of Thevenin’s theorem
Page 31
2-1 Wattmeter connections and measurement of power in
delta connected inductive load.
2-2 Wattmeter connections and measurement of power in star
connected resistive load.
2-3 Characteristic of an A.C. series circuit and to set resonance.
2-4 Characteristics of an A.C. parallel circuit and to set CP
resonance.
2-5 Study the connection of a fluorescent tube with 02
electromagnetic ballast (To measure input power, voltage
and current and to compute power loss in the ballast CSs
resistor).
54-106
2-6 Study the connection of a florescent tube operated from a
220 V D.C. Mains. (To measure input power, voltage and
current and to compute power loss in the ballast resistor).
2-7 Calibration of energy meter
2-8 Study of self-induced EMF and mutually induced EMF
Edition
Year
ISBN
Publisher
Elements of Electrical Engineering
T01017-TB1 V.V. Sovani
1st
1997
A.P.Godse & U.A.Bakshi
Reference-Books
T01017-RB1
T01017-RB2
CD / DVD
T01017-CD1
T01017-CD2
Web Links
T01017-WL1
T01017-WL2
2003
81-85825-97-1
Pune
Vidyarthi
Prakashan
Technical publication
LR Code
Title
Author
Text-Books
T01017-TB2
Ghrih
Page 32
SEMESTER 02
T01021: ECONOMICS AND MANAGEMENT SCIENCE
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01021 Economics and Management Science
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge

Learning Objectives
10+2 or HSC or ISC

Understand
and
apply
the
fundamentals of economics and
management science as related to the
shipping industry.
UNITS
UN
1-1
1-2
1-3
1-4
2-1
2-2
2-3
2-4
3-1
3-2
3-3
3-4
Name of the Unit
Introduction to Management studies
Introduction to Economics
Objectives of Management
Organizational Structure & Communication
HRD
Payment & Safety
Leadership & Motivation
Trade Unions & Workers participation
Production Management
Operations Research
TQM
Production and Costing
4-1 Financial Management
4-2 Money
4-3 Taxation
CSs
CP Block 01
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
Page 33
DETAILS SYLLABUS
1-1
1-2
1-3
1-4
CP
Block
Introduction to Management studies: Definition and objectives of sound management.
Need for Sound Management Principles and Practice & Growth of Modern management
thought, Management function, Process Planning. Corporation / Long term & tactical
strategy, Policy distribution, SWOT Analysis, Organizing - definition / illustration.
Introduction to Economics: Importance of economics in Marine Engineering study, Basic
economic concepts and terms, Demand analysis, Supply analysis, Elasticity of demand,
Elasticity of supply.
CP
Objectives of Management: Staffing – manpower, planning, Directing – illustration,
Block
Controlling, parameters, application & Co-ordination. Communication – efficient process
01
model, communication barriers, inter-personnel communication skill.
Organizational Structure & Communication: Principles of Locating a Plant & Developing
Organization Structure. Various types of organizational structures – Line / staff / matrix,
centralization vs. decentralization of decision making, distinction between authority /
responsibility / accountability, Basic principles of delegation / empowerment of
employees ; Authority & Responsibility. Boundaries of Authority.
HRD: The personnel Function, Requirement & Selection, Role of Psychological Tests in
Recruitments, Training of employees, Performance Appraisal & counseling.
Payment & Safety: Reward System, Legal Requirements and Regulation of Working
2-2
Condition, Employer’s Liabilities for Health and Safety,
CP
Leadership & Motivation: MBO, Leadership / Group Dynamics and Discipline,
Block
2-3 Motivation theories and Incentives, Maslow’s hierarchy of needs / theory X and theory
02
Y, Hygienic and motivational factors, Elton Mayo’s contribution.
Trade Unions & Workers participation: Problems of Accident – Provender, Fatigue, etc.,
2-4
Relation with Trade, Union & Workers Participation in Management.
2-1
3-1
3-2
3-3
3-4
Production Management: Distinction between products & services, Types of production
system viz. Jobbing / Lot / Mass. Functions of Production Planning and Control, Product
Development Principles, Standardization, Simplification & Specialization, Plant Layout,
Product / Process, Logistics & supply chain / management. Integrated material
management – Functions of material planning , inventory control, safety stock / cycle
stock, purchase / stores performance, measurement parameters, standardization /
codification, waste control.
Factors of production, Forms of business organization, Economic system with reference
to India.
Operations Research: Introduction to Operation Research. Linear Programming, CP
Distribution Methods, Network Technique in Management – Critical Path Method Block
(CPM), Programme Evaluation & Review Technique (PERT). Resources Allocation & 03
Loading smoothing, Operational Sales Forecasting: Determination Introduction to
Decision Theories in Management, Decision under Certainty, Right and uncertainty,
Works Study, Job Evaluation & Merit Rating,
TQM: Total Quality Management – Quality Control, ISO 9000 series, Preventive /
condition based Maintenance & Spare management.
Production and Costing: Production function, Law of return, Economics of scale, ISOproduct and ISO-cost, Cost –concepts, Cost-output relationship and cost curves in short
period, Long period, Revenue – concept, Determination of price under free market and
price control by Govt. Types of market, Factors governing extent of market, Pricing
Page 34
under perfect competition, Monopoly, Monopolistic competition and oligopoly.
Financial Management: Methods of Capital formation & Control of Working Capital,
How to read balance sheet / Profit /Loss, Budgetary Control & standard costing –
4-1 Favorable / Adverse variances. Continuous & Discounted Cash Flow & Project Appraisal,
Break even Analysis, cost Benefit Analysis, Methods of Depreciation Factory Costing,
CP
Estimating, Balance Sheet, Financial & Physical Ratios; Project & Budgetary Control.
Block
Money: Types, Functions, Standard. Inflation:- Types, Causes. Commercial Banks –
04
4-2 Functions, Functions of Central Banks. Features of Money and Capital market. National
Income concepts.
Taxation: Direct and Indirect, Govt. Budgets. Economics development, Growth, features
4-3
of underdevelopment with reference to India. Globalization of Indian economics.
Special Note: Real life examples for Profit & Loss Account and Balance Sheet and ISO
9000. Notes published by IGNOU for their MBA program can also be used
T01021-T3 : Page No. 43 to 52
T01021-T4: Page No. 1 to 9, 31 to 33, 36 to 38, 42 to 43, 46 to 47, 54 to 71, 75 to 83, 178
to 182, 194 to 202, 232 to 239, 278 to 284, 410 to 417, 421 to 425, 428 to 437, 440 to
441, 456 to 462
T01021-T5: Page No. 13 to 17, 30 to 39, 235 to 265
T01021-T1: Part 1; Part 3, 4,5;Part 7 -Chapters -34, Part 8-Chapters-36to 41;Part 9 & 10.
T01021-T2: Chapter – 3 (From four to end);
Chapters 4,5,8,10,15,16,17,24,25,27,28,29;Part-VII
T01021-T3: All except above included topics
T01021-T4: All, except above included topics
T01021-T5: All, except above included topics
LR Code
Title
Author
Edition
Year
ISBN
Publisher
1st
2001
6th
2004
9th
S. Chand & Sons
Text-Books
Industrial & Business Management
Martand T Telsang
Principles & Practices of Management
T01021-TB2
L.M.Prasad
T01021-TB3 Quantitative Techniques
L. C. Jhamb
T01021-TB4 Inventory Management
L. C. Jhamb
T01021-TB5 Production Planning & Contol
L. C. Jhamb
Reference-Books
Economics
T01021-RB1
Samuel & Nordhans
T01021-RB2
CD / DVD
T01021-CD1
T01021-CD2
Web Links
T01021-TB1
1997
6th
2002
S. Chand & sons
ISBN 81-86314-62-8
Everest Publication
ISBN 81-86314-54-7
Everest Publication
ISBN 81-86314-72-5
Everest Publication
0-07-231-48645-X
Tata Mc Grew Hill
Page 35
T01021-WL1
T01021-WL2
Page 36
T01022: MATHEMATICS II
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01022 Mathematics II
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 10+2 or HSC or ISC
Engineering
UNITS
UN Name of the Unit
1-1
1-2
1-3
1-4
2-1
2-2
2-3
2-4
3-1
3-2
3-3
3-4
4-1
4-2
4-3
4-4
CSs
Questions
CP Students have to answer
Formation of differential equations
Block '1 of 1' SAQ in CA and
First order and first degree differential equations
01 '1 of 1' SAQ & '1 of 2'
Applications of first order first degree differential equations
LAQs in end exam on
Linear Differential Equations-I
CSs these units.
01-20
Linear Differential Equations-II
Applications of Linear Differential Equations
02 '1 of 1' SAQ & '1 of 2'
Fourier Series
LAQs in end exam on
Half range series expansions
CSs these units.
21-40
Applications of Fourier series
Laplace Transform
03 '1 of 1' SAQ & '1 of 2'
Inverse Laplace transform
LAQs in end exam on
Application of Laplace Transform to differential equations
CSs these units.
41-60
Combinatorial Analysis
Probability and Statistics
02 '1 of 1' SAQ & '1 of 2'
Discrete probability distributions
LAQs in end exam on
Continuous probability distributions
CSs these units.
61-80
Page 37
DETAILS SYLLABUS
CP
Block
1-1 Formation of differential equations: Formation of differential equation
First order and first degree differential equations: Separable Equation; Equations
1-2 reducible to Separable From; Homogeneous and non-homogeneous equations; Exact
Differential Equations; Integrating Factors, Linear first order Differential Equations.
CP
Applications of first order first degree differential equations: Picard’s iteration Block
1-3 method: Families of Curves; Orthogonal Trajectories; Applications to Electrical Circuits. 01
Picard’s iteration method.
1-4 Linear Differential Equations-I: Ordinary Differential Equation of nth order.
Linear Differential Equations-II : Method of variation of parameters and undetermined
coefficients.
Applications of Linear Differential Equations: System of Ordinary Differential Equations,
2-2 Phase Plane, Critical Points and Stability.
CP
Block
Fourier Series: Periodic Functions, Fourier Series and Euler’s Formulae, Fourier Series 02
2-3
for even & odd functions and functions having arbitrary period.
2-4 Half range series expansions: Half-range Expansions
2-1
Applications of Fourier series: Rectangular Pulse; Half-wave Rectifier. Fourier Integral,
Orthogonal Functions, Gibbs Phenomenon.
Laplace Transform: Linearity, Laplace Transforms of derivatives & Integrals, shifting on CP
3-2
the ‘s’ and ‘t’ axes; Convolutions, Partial fractions.
Block
3-3 Inverse Laplace transform: Inverse Laplace transforms.
03
Application of Laplace Transform to differential equations: Transformation of ordinary
3-4
differential equation applications.
3-1
Combinatorial Analysis: Combinatorial Analysis: Problems and applications, Probability
using Combinatorial Analysis.
Probability and Statistics: Probability and Statistics: Concept of Probability; Baye’s
Theorem. Random variables, Concepts of Discrete, Continuous, Joint and Conditional
probability distributions, Mathematical Expectations; Variance; Standardized Random
4-2
CP
Variable; Moment generating functions; Characteristic functions, Variance for Joint
Block
Distributions; Co-variance; Correlation Co-efficient; Conditional Expectation;
04
Chebyshev’s Inequality; Law of large numbers; Percentiles.
Discrete probability distributions: Discrete Probability distributions: Binomial, Poisson,
4-3
Uniform, Geometric, Hyper-geometric. Problems and applications.
Continuous Probability Distributions: Continuous Probability distributions: Normal,
4-4
Beta, Gamma, and Square. Problems and applications.
T01022-T1 : Unit 1 to 6: Ch.11(11.1 to 11.12), Ch.12(12.3; 12.5), Ch.13(13.1 to
13.8;13.11), Unit 7 to 9: Ch.10(10.1 to 10.8), Unit 10 to 12: Ch.21(21.1 to 21.15), Unit 13
to 16: Ch.23(23.14 to 23.30 excluding 23.24 and 23.29)
T01022-T2: Unit 6: Ch.10 (10.4)
T01022-T1: Ch.1 to 9, Ch.10(10.10 to 10.11), Ch.11(11.13 to 11.14), Ch.12(12.1 to 12.2;
12.4; 12.612.9), Ch.13(13.9;13.10), 14 to 20, Ch.21(21.16 to 21.20), 22, Ch.23(23.1 to
23.13), 24 to 33.
4-1
Page 38
T01022-T2: Except Ch.10 (10.4), all the topics are excluded.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
36th
October,
2002
5th
&
2003
81-7409-115-7
Khanna Publishers,
Delhi
981-243-872-6
Thomson Brooks/Cole
2003
81-219-0345-9S.
Chand & Company
Text-Books
Higher Engineering Mathematics
T01022-TB1 Dr. B.S. Grewal
Advanced Engineering Mathematics
Peter V. O’Neil
Reference-Books
Advance Engg Mathematics
T01022-RB1
H. K. Dass
Engineering Mathematics
Vol. I & II
T01022-RB2 S S Sastry
T01022-TB2
T01022-RB3 Engineering Mathematics–I, II, III
Gokhale & et al
T01022-RB4 A text book of Applied Mathematics
Vol. I, II, III
P N Wartikar and J N Wartikar
Dennis G. Zill & Michael R. Cullen
New
3rd
& 81-203-2579-6
2003
81-203-2620-2
Prentice Hall of India, New
Delhi
2003
Nirali Prakashan
7th
&
reprint
October
2001
81-85825-10-6
81-85825-07-6
81-85825-01-7
Pune
Vidyarthi
Griha
Prakashan, Pune
2nd
& 81-239-0700-1 or 0-76372003
1357-0CBS
Publishers and Distributors,
New Delhi
CD / DVD
T01022-CD1
T01022-CD2
Web Links
T01022-WL1
T01022-WL2
Page 39
T01023: APPLIED THERMODYNAMICS-I
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01023 Applied Thermodynamics-I
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives

Explain basic laws of
thermodynamics.
compulsory
subject
either
at

Understand ideal cycles
 Define the property of gases
UNITS
UN Name of the Unit
1-1
Thermodynamic Definitions
1-2
Ideal Gas Equations
1-3
Properties of Steam
2-1 First Law of Thermodynamics
2-2 Second law of Thermodynamics
3-1
Steam Power Cycle
3-2
Boiler Performance
3-3
Steam Engine
4-1 Air standard cycles
4-2 Performance of IC Engine:4-Stroke & 2-Stroke
CSs
Questions
01 '1 of 1' SAQ & '1 of 2'
LAQs in end exam on
CSs these units.
01-20
02 '1 of 1' SAQ & '1 of 2'
LAQs in end exam on
CSs these units.
21-40
03 '1 of 1' SAQ & '1 of 2'
LAQs in end exam on
CSs these units.
41-60
02 '1 of 1' SAQ & '1 of 2'
LAQs in end exam on
Page 40
CSs these units.
61-80
DETAILS SYLLABUS
CP
Block
Thermodynamic Definitions: System, Boundary of system, Surrounding, Closed System,
Open System and Isolated system. Heat, work, Energy, Working substance, Phase
1-1
Properties, Phase Diagrams. Point Function, Path function, Reversible and Irreversible
Process; Steady Flow Process and Non-flow Process; Temperature & Zeroth law
Ideal gas equations: Characteristic Equation of State for a Perfect Gas; P-V and T-s
Diagrams for Work transfer and Heat transfer in Reversible Processes; Equation of state
for Real Gas; Internal Energy of a Gas and Joule’s Law; Two Specific Heats of a Gas and
1-2 relation between them. Different Gas Processes and Heat & Work Transfer in various CP
Gas Processes; Concept of Entropy; Change of Entropy in different Gas Processes; Block
Applied problems. (Applied Problems to find work done, heat transfer and change in 01
internal energy and entropy of the process.)
Properties of steam: Phase; Phase Properties, Phase Diagrams. Equation of Steam;
Temperature-Entropy Diagrams; Triple Point; Specific Enthalpy and Entropy; Use of
1-3 Steam Tables and Steam Charts; Pressure -Volume and Enthalpy-Entropy Diagrams;
Internal Energy of Vapors. Super Critical Vapors; Non-flow Processes with Steam;
Applied problems. (Applied Problems on non-flow processes of steam.)
First Law of Thermodynamics: and its application to various Processes; Non-Flow
Energy Equation; Control Volume, Steady-Flow Energy Equation; Applied problems.
2-1
(Applied problems on steady flow process in nozzle, turbine, air blower, compressor and
heat exchanger only.)
Second law of Thermodynamics: Different statements of the second law of
CP
Thermodynamics, Carnot cycle, Thermodynamic Reversibility, Carnot’s Principle, and
Block
Carnot’s Cycle for a gas.
Deductions from Carnot’s cycle.
Thermodynamic
02
2-2 Temperatures scale, Steam and Gas processes on T-S and H-S charts, Entropy and
Irreversibility, Applied problems. (Applied problems on Heat Engine, Heat Pump
connected in High thermal Reservoir and Low thermal Reservoir and problems on
principal of Increase in Entropy)
Steam Power Cycle: Carnot cycle for steam and Ideal Efficiency, Rankine cycle, with dry
saturated steam and superheated steam. Feed Pump work. Rankine cycle efficiency,
Isentropic Efficiency, work Ratio, Reheating and Regenerative Feed Heating and their
3-1
effect on Thermal Efficiency, Applied problems (Applied Problems on Feed Pump work.
Rankine cycle efficiency, Isentropic Efficiency. No problems on reheating and
regenerating.)
Boiler Performance: Boiler Calculations; Boiler Thermal Efficiency and Equivalent CP
Evaporation of a Boiler; Basic Calculations on the effect of Condenser Leakage and Block
Impure Feed, dissolved solids and scale in Boilers; Density of water and its control in 03
Boilers & Evaporators. Basic calculations on performance of single-effect, multi-effect
3-2 and Flash-type Evaporators; Applied Problems. (Applied Problems on boiler thermal
efficiency, equivalent evaporation. Sample Problems: 5.10, 5.11, 5.12, 5.13, 5.14, 5.15,
5.16 etc)
Note: Detailed study on condenser topic is covered in AT-II and evaporators will be
studied in Marine Engineering subjects (T01062) in detail .So these topics need not be
Page 41
stressed more than introduction.)
Steam Engine: Modified Rankine cycle for steam Engine, Hypothetical Indicator
Diagram. Mean Effective pressure and work transfer. Diagram Factor, Indicated power,
Specific steam consumption Indicated Thermal Efficiency, Efficiency Ratio, Engine
efficiency, Energy balance, Introduction to compound steam Engines, Missing quantity ,
3-3
Applied problems (Applied problems on Brake Power, Indicated power, Diagram Factor,
Specific steam consumption, Thermal Efficiency of Engine. Sample problems: All solved
problems except 18.17 from Chapter 18 from the book of Thermal Engineering of P.L.
Ballany)
Air standard cycles: Constant volume Cycle (Otto cycle); Constant Pressure Cycle (Diesel
Cycle); Dual Combustion Cycle-introduction; Applied problems (To find the equation of
efficiency and Mean Effective pressure of Otto and Diesel cycle, Comparison between
Otto and Diesel Cycle, Comparison between Petrol and Diesel Engine.)
Performance of IC Engine:4-Stroke & 2-Stroke Cycle engine: (Basic Construction and
CP
Operation to explain suction, compression, power and exhaust steps , comparison
Block
between Two stroke and Four stroke Engine) ; Criteria of Performance; Compression
04
Ratio and Thermal Efficiency; Indicator Diagrams; Indicated Power; Brake Power;
4-2
Friction Power; Mechanical Efficiency; Specific Fuel consumption; Energy Balance;
Applied problems. (Applied Problems: on Air standard efficiency and MEP of Otto and
Diesel cycle, Performance of IC engine to find thermal, mechanical, relative, volumetric
efficiency, bsfc, isfc, Mean effective pressure etc, and to plot energy balance sheet.
Note: Sample Problems for Performance of IC engine: H.N.Sawant:Applied Thermo-III:
11.1,11.2,11.5 ,11.7,11.10,11.13 etc.
T01023-T1 : 1.1,1.3, 1.5, 1.6, 1.7, 1.8, 1.10 as on pg 23 only, 3.1, 3.2, 3.3, 3.4, 3.5, 4.1,
4.2, 4.3, 5.1, 5.2, 5.3,5.4, 5.5, 5.7, 5.8, 5.9, 5.10, 5.11 as on pg 284& 285,5.12, 6.1, 6.2,
T01023-T2: 1.12,1.13,1.14,1.15,1.16,1.17, 1.18 (Derivation for Pvk on page 13 and
specific heat for polytropic process on page 14 is not covered), 1.27 (I)
,1.32,1.33,1.34,1,38),
2.1,
2.2,
2.3,
2.4,
2.5,
2.6,
2.7,
2.8,
2.9,2.10,2.11,2.12,2.13,2.14,2.15,2.17,2.18,2.19, 2.20, 2.21, 2.22, 2.23, 2.24,2.26,
7.1,7.2,7.3,7.4,7.5, 5.15, 5.16,5.17,5.18, 5.19, 7.6, 8.1, 8.2 ,8.3 ,8.4 ,8.10,8.11.1 ,8.11.2
,8.12 ,8.12.1 ,8.12.2 8.13 ( Only description. No efficiency derivation.) 8.14, 8.14.1,
8.14.2,8.14.3, 8.14.4, 9.11, 9.5,9.7,9.8 ,9.9 (Fig .9.3 ,9.4 not included-no details of timing
diagram are included)9.12, 11.1,11.2,11.4,11.5.3,11.6,11.6.1,11.13,11.17.11.18
T01023-T3: 2.13, 2.14, 3.6,3.7, 8.27,
T01023-T4:
Brief
of
18.1,
18.2,
18.3,
18.4,
18.5,
18.6,
18.7.2,18.8,18.9,18.10,18.11,18.12,18.13, 19.1,19.2,19.3,
T01023-T1: 1.4,1.11,1.12,Chapters 2, 3.6 to 3.11, 4.4 to 4.5, 5.6 & 5.13, 5.14, 6.3 to 6.15
and 7 to 16,
T01023-T2: 1.1 to1.11, 1.19 to 1.26, 2.16, Chapters 3 – 4, 5.1 to 5.14, Chapter 6, 7.8 to
7.10, 8.5 to 8.9, 8.13.1,8.13.2, 8.15 to 8.23, 9.9, 9.10, 9.13, 9.14, 9.15, Chapter 10,
11.3,11.5,11.6.2 to 11.6.6, 11.8 to 11.11,11.12,11.15,11.16,11.19 to 11.26, Chapter 12,
T01023-T3: Except 2.13, 2.14, 3.6, 3.7, 8.27 Full Book is Excluded
T01023-T4: Chapters 1 to 17, 18.7.1,18.7.3,18.11,18.14,19.4,19.5, 19.6, Chapters 20 to
37,
4-1
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Page 42
Text-Books
Thermodynamics
Cengel & Boles
Applied Thermodaynamics I
T01023-TB2
H. N. Sawant
T01023-TB3 Applied Thermodynamics-III
H.N. Sawant:
T01023-TB4 Thermal Engineering
P L Ballany
Reference-Books
Thermodynamics & Heat Transfer
T01023-RB1
Yunus Cengel
Thermal Engineering
T01023-RB2
P.L. Ballaney
CD / DVD
T01023-CD1
T01023-CD2
Web Links
T01023-WL1
T01023-WL2
T01023-TB1
Akshar Rachana Publishers
0-07-011-498-6
Mc Graw Hill
81-7409-031-2
Khanna Publishers
Page 43
T01024: MATERIAL SCIENCE
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01024 Material Science
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge

Learning Objectives
10+2 or HSC or ISC

Understand behavior, and different
properties of metals and non-metals.

Test Corrosion Resistance of different
metals and alloys.
UNITS
UN Name of the Unit
1-1 Structure of Atom
1-2 Miscellaneous Engineering Materials
2-1 Metals and Alloys
2-2 Solid solution
3-1
3-2
3-3
3-4
Testing of Materials
Non-destructive Tests
Fatigue
Corrosion and its prevention
4-1 Heat Treatment
4-2 Uses of Materials in Shipboard Application
4-3 Selection of Materials in Shipbuilding and
Marine Engineering
CSs
CP Block 01
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
CSs
61-80
Questions
1'
SAQ
in
CA
and
1'
SAQ
in
CA
and
1'
SAQ
in
CA
and
1'
SAQ
in
CA
and
DETAILS SYLLABUS
CP
Block
Page 44
Structure of Atom: Electrons and Bonding; Wave Mechanics and electronic behaviors;
Electronic structure of atoms; Covalent bonding; Metallic bonding; ionic bonding and
Secondary bonding. Atomic packing-directional and non-directionally bonded atoms;
1-1
Crystal structure-Space latties; lonic and molecular crystals; Interfacing in crystalsCP
Points; line, surface and volume imperfections; Non-crystalline solids; Elastomers; Long
Block
chain and molecular compounds and three dimensional network.
01
Miscellaneous Engineering Materials: Refractories; Insulating materials; Plastics and
1-2 Rubber; PVC, Resins, Paints etc. Manufacture, Properties and selection for various
engineering applications. Polyurethenefoam
Metals and Alloys: Different types of iron and steel; their manufacture, properties and
2-1 uses in industry. Alloys of iron and steel. Non-ferrous metals and alloys. Properties and
uses; Miscellaneous engineering materials; their properties and uses.
CP
Solid solution: Properties of solid solutions and alloys. Types of Binary alloys. Thermal Block
2-2 Equilibrium Diagrams, Cooling curves, Eutectic and peritectic alloys, intermetallic 02
compounds.
Testing of Materials: Destructive Tests; Tensile Test; Compression Test; Hardness Test;
Bend Test; Torsion Test & Impact Test.
Non-destructive Tests: Magnetic Dust Test; Fluorescent Test; Ultrasonic Test;
3-2 Radiography Test etc. Allotropy of Iron. Iron-carbon Equilibrium diagrams, Equilibrium
Diagrams for Ferrous & Non ferrous metals and alloys.
CP
Fatigue: Fatigue loading, Mechanisms of fatigue, fatigue curve, Fatigue tests. Design Block
3-3
criteria in fatigue, Corrosion fatigue. Stess concerntration
03
Corrosion and its Prevention: Mechanism of corrosion, Chemical corrosion,
3-4 Electrochemical corrosion, Anodic and Cathodic protection, Forms of metallic coatings.
Anodising, Phosphating.
3-1
Heat Treatment: Heat treatment principles and processes and purposes for Ferrous and
non-ferrous metals and alloys. Effect on structures and properties. Deformation and
4-1
Fracture of materials in services. Creep phenomena and creep resisting alloys. Creep
curve. Short time and long time creep tests. Development of creep resisting alloys.
CP
Uses of Materials in Shipboard Application: Chromium, Ceramic, Titanium, PTFE in
4-2
Block
shipboard systems, Characeristics of above materials.
04
Selection of Materials in Shipbuilding and Marine Engineering :Boilers, Steam and Gas
turbine, Purifiers and Diesel engine components, Pumping machinery, Components and
4-3
Piping system, Engine seating, Propellers and Rudders. Composition, strength value and
other requirements for materials used.
M07024-T1: Chapters: 1, 3, 4.3, 5.1 to 5.9, 5.15 to 5.17, 5.21 to 5.23, 6.9 to 6.16, 7 to
26, 27.4 to 27.17, 30 to 34, 35.5 to 35.9, 35.12, 35.14 to 35.31, 36, 39, 40.2, 40.3, 40.6 to
40.16, 41, 42, 43.9 to 43.22, 44, 45.5 to 45.8, 46, 47, 48.5 to 48.8, 49.11, 49.13, 49.14,
49.20, 50 to 57.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01024-TB1
A Text Book of Material Science & 2000
Metallurgy
Dhanpatrai Publications
Page 45
O.P. Khanna
T01024-TB2
Reference-Books
Engineering Metallurgy - I A.S. Gholap & 3rd
T01024-RB1
M.S.Kulkarni
2000
Engineering Metallurgy - II A.S. Gholap & 3rd
T01024-RB2
M.S.Kulkarni
2000
CD / DVD
T01024-CD1
T01024-CD2
Web Links
T01024-WL1
T01024-WL2
Nirali Prakashan
Nirali Prakashan
Page 46
T01025: ENGINEERING MECHANICS
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01025 Engineering Mechanics
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge

Learning Objectives
10+2 or HSC or ISC

Understand the basic principles of
mechanics

Analyze forces in machines and
structures
UNITS
UN Name of the Unit
CSs
1-1
Vector Statics
1-2
Non-coplanar Forces
1-3
Virtual Work and Machines
1-4
Centroides
CP Block 01
2-1
Moments of Inertia
2-2
Rectilinear Motion
2-3
Curvilinear Motion
2-4
Kinematics of Rigid Bodies
3-1 Friction
3-2 Periodic Motion
3-3 Drives and Brake
CP Block 02
4-1 Dynamics of Rotation
4-2 Governors
CSs
01-20
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
CSs
61-80
Questions
Students have to answer
'1 of 1' SAQ in CA and
'1 of 1' SAQ & '1 of 2'
LAQs in end exam on
these units.
'1 of 1' SAQ & '1 of 2'
LAQs in end exam on
these units.
'1 of 1' SAQ & '1 of 2'
LAQs in end exam on
these units.
'1 of 1' SAQ & '1 of 2'
LAQs in end exam on
these units.
Page 47
DETAILS SYLLABUS
1-1
1-2
1-3
1-4
CP
Block
Vector Statics: Introduction to: Scalar, Vector, Rigid body; Force, System of forces:
Coplanar forces, Non-coplanar forces, Concurrent, Non-concurrent forces; Resultant
force, Equilibrant force, Composition of forces, Resolution of forces, Transmissibility,
Lamis theorem, Moment of force, Varignon’s theorem, Couples, Origin of forces, Free
body diagram, Trusses: Method of joint to joint, Method of section; Frames.
(Applied problems on above topics.)
Non-coplanar Forces: Three rectangular components of vectors, Equilibrium and
resultant of vectors in space.
CP
(Applied problems on above topics.)
Block
Virtual Work and Machines: Concept of virtual work, Principle of virtual work, Ideal 01
machines, Law of machines. Reversibility and irreversibility of lifting machines and its
application to different types of lifting machines.
(Applied problems on Virtual work)
Centroides: Introduction, Center of gravity, Centroids of areas, Centroids of lines,
Centroids of volume, Centroids of masses, Composite figures.
(Applied problems on composite fig. For above topics. )
Moments of Inertia: Moment of inertia of area, Transfer formula, Product of inertia
and its transfer formula, Maximum and minimum moment of inertia, Mass moment of
inertia and its transfer formula, Radius of gyration.
(Applied problems on composite fig. For above topics. )
Rectilinear Motion: Acceleration as a function of time, displacement & velocity. Varying
acceleration. Uniform motions. Uniform rectilinear motion. Uniformly Accelerated
2-2
motion. Motion under gravity. Graphical solutions of rectilinear Motion.
(Applied problems on Rectilinear motion)
CP
Curvilinear Motion: Normal and Tangential accelerations & Tangential velocities. Block
Circular motion. Motion of the bicycle rider on circular track. Motion of vehicle On 02
2-3 level/banked circular track. Motion of projectile Kinetics of particles D`Alembert`s
Principle in rectilinear components, tangential and normal Components.
(Applied problems on Curvilinear motion)
Kinematics of Rigid Bodies: Rotation about fixed axis. Uniform accelerated rotation.
2-4 Work power and energy.
(Applied problems on Kinematics of rigid bodies)
2-1
Friction: Static and Kinetic Friction, Laws of Friction; Effort required to pull a body up or
3-1 down on an inclined plane., friction in pivots and collars.
(Applied problems on effort required to pull a body up or down on an inclined plane)
Periodic Motion: Simple harmonic motion. Application of S.H.M to masses and springs.
3-2 Simple and Compound pendulum. Center of percussion. (Applied problems on Periodic
motion)
CP
Drives and Brake: Transmission of power by Belts and Ropes. Velocity ratio of simple & Block
03
compound
Belt drives, slip of belt, lengths of open & cross belt drives. Power transmitted by belt,
3-3 Ratio of tensions, centrifugal tension, conditions of maximum power
Transmission, initial tension in belts. Advantages of rope drives. Numerical on above
topics. [Reference book R.S KHURMI, Engineering mechanics]
Different types of block & shoe brakes, Simple & differential band brakes. Rope
Page 48
Brake type absorption dynamometer. [Reference article-19.16 R.S KHURMI &
GUPTA (Theory of machines) Eurasia publications]
(Applied problems on above topics)
Dynamics of Rotation: Torque. Work done by a torque. Angular momentum. Kinetic
4-1 energy of rotation. Torque and angular acceleration. Total kinetic energy of rotating
wheel. (Applied problems on above topics)
CP
Governors: Introduction to centrifugal and Inertia types of Governors. Functions of
Block
Governor, Terms of Governor, Comparison between a Governor and a flywheel. Watt
04
4-2 Governor, Porter Governors, Proell Governors, Sensitiveness; Stability and Hunting of
Governors; Governor effort and Power, Consideration for friction in Governors.
Topics not Included In Syllabus:
T01025-T1: Part-I (Statics) Chapters 3,4, 5.5 to 5.9, 6.
Part-II (Dynamics) Chapters 2.2.4 to 2.2.6, 3.3, 3.5, 4.2, 6, 7.2, 7.3, 8.4.1, 8.5.4, 8.5.6
T01025-T2: Chapters 3.11,3.12,3.14,4.8, 5.6 to 5.8, 5.11, 6.5,10, 11, 12.18, 13, 14, 15.8
to 15.10,18, 21, 23.13, 24, 25.1 to 25.3, 25.10, 26, 28, 29.12 to 29.14, 30.14 to 30.16, 31,
33, 34, 35.
T01025-T3: Chapters 1 to 3, 5 to 10, 12 to 17, 18.8 to 18.11, 18.18 to 18.21, 19.10 to
19.15, 19.17 to 19.21, 20 to 26.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
2005
Tech-Max
2003
81-219-0651-2S.
Chand & Company
S. Chand & Company
Text-Books
Engineering Mechanics
R.M.Baphana & M.Passi
Engineering Mechanics
T01025-TB2
R.S. Khurmi
Theory of Machines
T01025-TB3
R. S. Khurmi & J. K. Gupta
Reference-Books
Vector Mechanics for Engineers (Static’s)
T01025-RB1
Beer & Johnson
Vector Mechanics for Engineers (Dynamics)
T01025-RB2
Beer &Johnson
CD / DVD
T01025-CD1
T01025-CD2
Web Links
T01025-WL1
T01025-WL2
T01025-TB1
2001
0-07-463599-9
Tata Mc Graw-Hill
0-07-463598-0Tata
Mc Graw-Hill
Page 49
T01026: WORKSHOP
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01026 Workshop
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives
 Shape rods in blacksmith forge.

10+2 or HSC or ISC


Fabricate by welding
Overhaul different types of valves.
DETAILS SYLLABUS
UN Name of the Activity
1-1
1-2
1-3
1-4
1-5
1-6
1-7
1-8
2-1
2-2
2-3
2-4
2-5
2-6
CP
Block
Questions
Black-smithy shop:
Students
Drawing down from round rod and bending to 90o.
have to
submit
To make a square head on a round rod (Square Head Pin.)
‘Report of
To make a flat chisel of hexagonal stem from a round rod.
Activities’
Tempering process of tools.
CP
General Overhauling Work:
Block in CA and
face Viva
Dismantling, refitting and studying of a return-type and non-return 01
for end
type valves.
CSs
01-53 exam on
Overhauling of a Globe Valve.
these units.
Dismantling, refitting and studying the operation of a Sluice Valve
a) Overhauling of a steam stop valve.
b) Cutting of joints and packing for various uses.
Welding Shop:
Full V-welding (from top face.)
Double V-welding (on opposite faces.)
Double U-welding (on opposite faces.)
T-welding (on inner side.)
T-welding (both outer sides.)
L-welding (outside corner.)
Students
have to
CP
submit
Block
‘Report of
02
Activities’
CSs
54-106 in CA and
face Viva
Page 50
2-7 L-welding (inside corner.)
2-8 Angular welding (both sides)
for end
exam on
these units.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01026-TB1
T01026-TB2
Reference-Books
T01026-RB1
T01026-RB2
CD / DVD
T01026-CD1
T01026-CD2
Web Links
T01026-WL1
T01026-WL2
Page 51
T01027: APPLIED MECHANICS LAB
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01027 Applied Mechanics Lab
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives

10+2 or HSC or ISC

Understand the basics of machines
DETAILS SYLLABUS
CP
Block
Questions
1-1 To verify principles of moment
Students
have to
1-2 To study reaction of loaded beams
submit
To determine the magnitude and nature of forces acting on the
1-3
‘Report of
different members of the Jib crane.
CP
1-4 To prove the equilibrium of coplanar forces.
Block Activities’
in CA and
To determine the magnitude and nature of forces acting on the 01
1-5
face Viva
different members of the Derrick crane.
for end
To find out the Mechanical Advantage, Velocity Ratio of worm and
1-6
exam on
CSs
worm wheel.
these units.
To find out the Mechanical Advantage, Velocity Ratio of single 01-53
1-7
compound wheel and axle.
1-8 To determine the moment of inertia.
2-1
2-2
2-3
2-4
2-5
2-6
2-7
To find coefficient of Friction
Students
have to
To find out the Mechanical Advantage, Velocity Ratio of double
CP
submit
compound wheel and axle.
Block ‘Report of
To find out the mechanical Advantage, Velocity Ratio of Differential
02
Activities’
wheel and axle.
in CA and
To find out the Mechanical Advantage, Velocity Ratio of Screw Jack
face Viva
To find out the mechanical Advantage, Velocity Ratio of crab and
CSs
for end
winch.
54-106 exam on
To determine the moment of inertia of irregular body.
these units.
To determine the co-efficient of restitution.
Page 52
2-8
To study the Simple harmonic motion with reference to masses and
springs.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01027-TB1
T01027-TB2
Reference-Books
T01027-RB1
T01027-RB2
CD / DVD
T01027-CD1
T01027-CD2
Web Links
T01027-WL1
T01027-WL2
Page 53
SEMESTER 03
T01031: APPLIED THERMODYNAMICS-II
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01031 Applied Thermodynamics-II
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Understand the operating principles

10+2 or HSC or ISC
of compressors, diesel engines, steam
turbines and refrigeration machinery
UNITS
UN Name of the Unit
CSs
1-1 Properties of Mixtures of Gases and Gas and CP Block 01
Vapors
1-2 Advanced problem on Adiabatic Mixing.
CSs
1-3 Fuels Combustion & Dissociation
01-20
CP Block 02
2-1 Gas Dynamics
2-2 Steam turbines
CSs
21-40
CP Block 03
3-1 Reciprocating Compressors
3-2 Refrigeration
CSs
41-60
4-1 Transmission of Heat
CP Block 02
4-2 Heat Transfer from Fluids to Fluids
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Page 54
Block
Properties of Non-Reactive Mixtures of Ideal gases Gas Mixtures: Introduction, Gibbs
Dalton's Law, Amagat's Law. Molecular weight and gas constant of a mixture,
Gravimetric and Volumetric proportions, Internal Energy, Enthalpy, Specific Heats and
1-1
Entropy of a mixture.
Applied problems
Book: T5
Advanced Problems on Adiabatic Mixing (Air Vapor mixtures): Mixture of Air and
Water vapour, Adiabatic Saturation and Wet bulb Temperature, Psychometric Chart,
Wet Cooling Tower, Surface Condensor, Dalton’s law of partial Pressure, Mass of Cooling
water required.
1-2 Applied problems based on psychometric chart only. (Any Two properties given, and
CP
finding out the rest)
Block
Applied problems on wet cooling tower
01
Applied problems on surface condenser
Book: T2
Fuels, Combustion and Dissociation: Definition of Fuel, Classification of fuel, Calorific
Value, combustion, Combustion Equation, Analysis of the Products of Combustion,
Stoichiometric air required for complete combustion, Actual combustion, Excess Air,
Conversion of mass basis analysis to volume basis and volume basis to mass basis.
1-3
Mixture strength, Dissociation, Effect of Dissociation on I.C. Engines.
Applied problems on Stochiometric air and excess air, Conversion of mass basis analysis
to volume and volume basis to mass basis.
Book: T1
Gas Dynamics (Steam and Air Nozzles): Applications of Nozzle, Types of Nozzles,
General flow Analysis, critical pressure ratio, velocity of sound, Mach No., One
dimensional Isentropic flow, Property relations for isentropic flow of Ideal Gases, Nozzle
2-1 and Diffuser coefficients, steam Nozzles, condition for maximum discharge, Maximum
mass flow or chocked flow, Effect of friction on nozzle efficiency, Supersaturation.
Applied Problems: All problems from Pg146 to 178-H.N. Sawant-III
Book:
T3
Steam Turbines: Introduction, Principle of steam turbine, Advantages of steam turbine,
Classification of steam turbines, Applications, The Impulse principle, Simple Impulse
turbine, Velocity Diagrams for Impulse turbine, Work done on the blade, The CP
combination of inlet and exit velocity triangle, the effect of friction, Optimum operating Block
condition for maximum efficiency, Compounded Impulse turbines, Velocity 02
compounded, Pressure compounded impulse turbine, Pressure-Velocity compounded
2-2 Impulse turbine, Axial thrust in Impulse turbine, the reaction principle, Axial thrust in
reaction turbine, Analysis of reaction turbine, Degree of reaction, Efficiency of reaction
blading, condition for maximum efficiency, comparison between Impulse and reaction
turbine.
Applied problems based on graphical (velocity diagram) method on Single stage Impulse
and Parson’s reaction Turbine.
Book: T3
Reciprocating Compressors: Introduction, The Reciprocating air Compressor,
Mechanical details, Single Stage Compressor, Isothermal Efficiency, Clearance and CP
3-1 Clearance volume, Equation of work, Volumetric Efficiency, Multistage Reciprocating air Block
Compressor, two stage air Compressor, Arrangement foe Multistage Compression, 03
Intercooler, Air engines or Air Motors, Rotary positive Displacement types of
Page 55
compressors. Compressed air Motors.
Applied Problems on single and two stage air compressors with and without perfect
intercooling.
Book: T7
Refrigeration: Introduction, Applications of Refrigeration, Some useful terms, Reversed
Carnot refrigerator, Practicability of Carnot refrigerator, Vapour Compression
refrigeration, Wet and dry Compression, The pressure –Enthalpy diagram, Factors
affecting the efficiency of vapor Compression refrigeration cycle.
3-2
Book: T2
Typical Marine Refrigerating Plants: Single stage Direct (reliquifaction) system, Indirect
(reliquifaction) System, Automatic Freon system
Book: T6
Transmission of Heat: Modes of Heat Transfer, Fourier's Law of Heat conduction,
Thermal conductivity of materials, Concept of thermal resistance.
Conduction: *Heat conduction through plane and composite walls, thermal contact
resistance, Overall heat transfer coefficient, *Heat conduction through hollow and
composite cylinders, *Heat conduction through hollow and composite spheres, Critical
radius of insulation, Critical thickness of insulation for cylinder, Critical thickness of
4-1 insulation for sphere.
Applied problems on the above topics.
(*- Derivations for the expressions for heat conducted to be based on the alternative
method and not on the General Heat Conduction Equation.)
CP
Radiation: Introduction, surface emission properties, absorptivity, reflectivity and
Block
transmissivity, concept of a black body, Stefan –Boltzman law, Kirchoff’s law, Plank’s
04
Law, Wien’s Displacement law.
Book:T4
Heat transfer from Fluids to Fluids: Newton’s law of cooling, Dimensional analysis in
free and forced convection, use of Non-Dimensional Groups. Physical significance of
dimensionless numbers like Nusselt No., Reynolds No., Prandtl No., Stanton No.,
Grashof’s No, Graetz No. etc.
4-2 Natural and Forced Convection. (Introduction only)
Heat exchangers, types of heat exchangers, heat exchanger analysis, LMTD, LMTD for
parallel and counter flow heat exchangers.
Applied problems on analysis of heat exchangers by LMTD method only.
Book: T4
T01031-T1: Chapters: 1 to 5 and Chapters 7 to 12
Topics: 6.2, 6.3, 6.4, 6.6, 6.7, 6.8, 6.9, 6.16, 6.17, 6.21 to 6.26.
T01031-T2: Chapters: 1, 2,5 to 8
Topics: 3.3, 3.8 to 3.50, 4.4 to 4.6 & 4.8 to 4.13
T01031-T3: Chapters: 1,3,6,7,8,9,10,11,12,13
Topics: 2.1 to 2.4,2.6,2.8 to 2.16,2.19 to 2.25, 4.9, 4.10, Derivations of
Velocity of sound on pg 123,derivation of 1-dim Isentropic flow on pg 125,derivations on
pg 127-128 not covered, 5.16,5.17,5.21,5.28, 5.30 to 5.40
T01031-T4: Chapters: 3 to 5,7,9,12,13
Topics: 1.1, 2.1, 2.2, 2.3, 2.4, 2.5.1 Case II, 2.6.1 Case II, 2.7.1 Case II, 2.9,
2.10, 6.1 to 6.3, 6.4.1, 6.7, 6.9, 6.10, 8.2 to 8.8, 10.5 without considering fouling, 10.6 to
10.9, 11.9,
(Problems not included in the syllabus) Nos:2.9 to 2.15, 2.28, 2.32, 2.44 to 2.46, 2.56 to
Page 56
2.60, 2.62 to 2.69 , No problems on chapter 8, 10.1,10.6, 10.7, 10.10,10.12 to 10.20,
10.22, 10.24, 10.26 to 10.56.
T01031-T5: Chapters: 1 to 6 and 8to 32, Topics: 7.7
T01031-T6: Whole book except pages 205,206,207,209,339,340,341
T01031-T7: Chapters: 1-9 & 11 to 37, Topics: 10.9, 10.14 to 10.21,10.23 to 10.27
LR Code
Title
Author
Edition
Year
ISBN
Publisher
2003
2003
2003
2004
81-219-1777-8
S.Chand and Company Ltd.
DhanpatRai &Sons
Text-Books
Applied Thermodaynamics –I
H. N. Sawant
Applied Thermodaynamics II
T01031-TB2
H. N. Sawant
T01031-TB3 Applied Thermodaynamics III
H. N. Sawant
T01031-TB4 Heat and Mass Transfer
R.K. Rajput
Domkundwar
T01031-TB6 Marine Auxiliary Machinery
HDMcGeorge
P.L. Ballaney
Reference-Books
Thermodynamics & Heat Transfer
T01031-RB1
Yunus Cengel
Thermal Engineering
T01031-RB2
P.L. Ballaney
CD / DVD
T01031-CD1
T01031-CD2
Web Links
T01031-WL1
T01031-WL2
T01031-TB1
2003
2004
2002
1997
2002
0750643986
Elsevier
81-7409-031-2
Khanna Publishers
0-07-011-114109-x
Mc Graw Hill
81-7409-031-2
Khanna Publishers
Page 57
T01032: MATHEMATICS III
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01032 Mathematics III
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
Engineering
UNITS
UN Name of the Unit
Sampling Theory
1-1
Samples Statistics
1-2
Curve Fitting-I
1-3
2-1
2-2
2-3
2-4
3-1
3-2
3-3
3-4
Curve Fitting-II
Regression and Probabilistic Interpretations
Computing
Binary Codes
Basic Logic Gates
Logic Circuits and Use of Universal Logic Gates
Search Problems
Calculus of Finite Differences-I
4-1 Calculus of Finite Differences-II
4-2 Difference Equation
CSs
CP Block 01
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Block
Sampling Theory: Population and Sample, Sampling with and without replacement,
CP
1-1
Random Samples, Population parameters,
Block
1-2 Sample statistics: samples mean, sampling distribution of means, sample variance, 01
Page 58
mean, variance and moments for grouped data.
1-3 Curve Fitting-I: the method of least squares, the least squares line.
2-1 Curve Fitting-II: least square line in terms of Sample variance and covariance.
Regression, Probabilistic Interpretations: Regression lines, regression coefficients, the
least square parabola, multiple regression, standard error of estimate, linear correlation
2-2 coefficient.
Probabilistic interpretations of regression and correlation, interpretations of regression CP
and correlation.
Block
Computing: Design of efficient algorithms for problems like factorial of positive integer, 02
2-3
Fibonacci Sequence generation, Sin x, Cos x, ex series, summation.
Binary Codes: Weighted and Non weighted Binary codes, Error detecting codes, Error
2-4
correcting codes, Alphanumeric codes.
Basic Logic Gates: AND or Not gates, combining logic gates, NAND. NOR Exclusive OR,
Exclusive NOR gates, converting gates with inverters.
Logic Circuits and Use of Universal Logic Gates: Sum-of-Products Boolean expressions,
3-2 Product-of-Sums Boolean expressions, use of De Morgan's Theorems.
Use of universal logic gates: Use of NAND logic, use of NOR logic.
CP
Search Problems: Linear search problem, Bubble sort Problem, Merging Problem, and
Block
3-3
Calculation of computational complexity.
03
Calculus of Finite Differences-I: Differences of a function, Fundamental operators of the
calculus of Finite Difference, Algebra of Finite Difference operators, Fundamental
3-4 equations satisfied by Finite Difference operators, Difference tables, Interpolation
formula, Forward and backward Gregory-Newton interpolation formulae, Stirling
interpolation formula.
3-1
Calculus of Finite Differences-II: Derivative of a tabulated function, Integral of a
tabulated function Summation formula.
CP
Difference Equation: Difference equation with constant coefficients, Applications to Block
4-2 oscillations of a chain of particles connected by strings and an electrical line with 04
discontinuous leaks.
T01032-T1: Chapters: Unit 1 to 6: Ch.23(23.9; 23.10; 23.11 to 23.13; 23.31 to 23.36)
Unit 12 to 14: Ch.25(25.1 to 25.5;25.6[only Stirling’s formula], 25.14; 25.16), Ch. 26(26.1 to
26.6)
T01032-T2: Chapters: Unit 7: Ch.1 (1.1 to 1.4), Unit 11: Ch.9 (9.1 to 9.3; 9.16; 9.24; 9.25; 9.30
to 9.32)
T01032-T3: Chapters: Unit 8 to 10: Ch.2(2.1 to 2.6; 2.9[2.9.1;2.9.2;2.9.7]; 2.10), Ch.1(1.1 to
1.6), Ch.5(5.1 to 5.2)
T01032-T1: Chapters: Ch. 1 to 22, Ch.23(excluding above), Ch. 24, Ch.25(excluding above),
Ch.26(excluding above), Ch.27 to 33.
T01032-T2: Chapters: Ch. 1(1.5 and onwards), Ch.2 to 8, Ch.9(excluding above), Ch. 10.
T01032-T3: Chapters: Ch. 1 (excluding above), Ch.2(excluding above), Ch.3 to 4, Ch.5(excluding
above), Ch.6 to 13.
4-1
Page 59
LR Code
Title
Author
Edition
Year
ISBN
Publisher
36th
Edition
2002
1st
edition
July
1998
2nd
edition
2001
81-7409-115-7
Khanna Publications
2001
2002
81-7014-896-0
Sultan Publishers
Technical Publications
2001
Tata Mc-Graw
Text-Books
Higher Engineering Maths
T01032-TB1 B. S. Grewal
T01032-TB2
Computational Techniques
Gokhale & et al
T01032-TB3 Modern Digital Electronics
R P Jain
Reference-Books
Statistical Methods
T01032-RB1
S.P. Gupta
T01032-RB2
A P Godse and U A Bakshi
Digital Principles and Application
T01032-RB3
Leach and Malvino
CD / DVD
T01032-CD1
T01032-CD2
Web Links
T01032-WL1
T01032-WL2
Nirali Publications
0-07-463200-0
Tata McGraw-Hill, New Delhi
Page 60
T01033: MACHINE AND MARINE DRAWING
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01033 Machine and Marine Drawing
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Draw orthographic and isometric

10+2 or HSC or ISC
views of various machineries and
their components
UNITS
UN Name of the Unit
1
Machinery Component Drawing
2
3
4
CSs
CP Block 01
CSs
01-20
CP Block 02
Marine Component Drawing
CSs
21-40
CP Block 03
Auxiliary Engine Drawing
CSs
41-60
CP Block 02
Main Engine Drawing
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Block
Machinery Component Drawing: Drawing of complete machine component in assembly CP
1-1
with details like couplings, Glands, Return and non-return valves, cocks and plugs, Block
Page 61
cylinder and piston assembly connecting rod with bearings, Boiler mountings.
01
Marine Component Drawing: Assembly Drawings of simple marine components in
Orthographic projection from Isometric views e.g. Bilge Strainer Boxes, Marine Diesel CP
2-1
Pistons 2 Stroke and 4 stroke types, Control valves, Cylinder Relief Valve, Boiler Blow- Block
down valves, Diesel Engines Rocker arms.
02
Auxiliary Engine Drawing: Marine machinery components as assorted stop valves and
CP
auxiliary equipments dismantled; to be conceptualized in assembly and laid out as
3-1
Block
working & functional parts. Sectional views in elevation & plans executed. Part sectional
03
views depiction.
Main Engine Drawing: Marine engine components dismantled, Assembled drawing of
pistons, thrust blocks, liners, connecting rods, crossheads, injection valves, starting CP
4-1 valves, Fuel pumps, stern tube & Tail shaft, Rudder carrier bearing and all equipment Block
with main machinery. Sectional / outside and plan views of parts fitted / removed & in 04
functional order.
T01032-T1: Chapters: Chapters 20 (Fig No: 20.11 & 20.16 ), 23 (Fig No: 23.2,23.3,23.6 23.12,
& 23.17) 24 (Fig No: 24.4,24.5, 24.6, 24.8 & 24.16) 25 (Fig No: 25.7, 25.16 & 25.17) 28 (Fig No:
28.6)
T01032-T2:
Chapters:
Pg.
Nos.
94,95,147,156,52,53,
126,24,25,112,60,61,
130,30,31,115,28,29, 114,26,27,113, 46,47, 123, 22,23,111, 86, 87, 143,106,107,153,
36,37,118,78,79,139, 70,71,135,40,41,120, 66,67,133,54,55,127, 96,97,148
T01032-T1: Chapters: 1 to19, 21, 22,26,27,29
LR Code
Title
Author
Edition
Year
ISBN
Publisher
2002
81-85749-79-5
S. K. Kataria & Sons
090-1281-662
Thomas Reed Publication
Text-Books
Machine Drawing
P. S. Gill
Engineering Drawing for Marine Engineers
T01033-TB2
H. G. Beck
Reference-Books
Machine Drawing
T01033-RB1
R. B. Gupta
Mechanical Drawing
T01033-RB2
French & Svensen
CD / DVD
T01033-CD1
T01033-CD2
Web Links
T01033-WL1
T01033-WL2
T01033-TB1
2002
Satya Prakashan
Mc Graw Hill
Page 62
T01034: SEAMANSHIP, SOCIOLOGY, PSYCHOLOGY AND POLITICAL
SCIENCE
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
CP CST CAT ST CA
Seamanship, Sociology, Psychology and
1
20
01 T01034
4 80
120
Political Science
EE
80
TM Type
100
T
Presumed Knowledge
Learning Objectives

10+2 or HSC or ISC

Understand the basics of seamanship
and elementary navigation,


Survive shipping casualties,
Understand the basics concepts of
sociology
UNITS
UN Name of the Unit
1-1
Seamen & their Duties
1-2
Navigation Lights & Signals
1-3
Basic Navigation
1-4
MARPOL
CSs
Questions
CP Block 01
of 1' SAQ in CA and
CSs
01-20
2-1
Life boats & Life Rafts
2-2
Abandon Ships
2-3
Survival at Sea
2-4
Life Boat Drill
CP Block 02
3-1
Introduction to Social Studies
3-2
Social Institutions
3-3
Ethics and Values
3-4
Social Problems
4-1 Political Institutions
4-2 Social Welfare and Planning
CP Block 03
CSs
21-40
CSs
41-60
of 1' SAQ in CA and
of 1' SAQ in CA and
CP Block 02 Students have to answer '1
of 1' SAQ in CA and
Page 63
4-3 Industrial Psychology
Labour Laws
CSs
61-80
DETAILS SYLLABUS
CP
Block
1-1
1-2
1-3
1-4
Seamen & their Duties: Ship’s Department, General ship knowledge and nautical terms
like Poop-Deck Forecastle, Bridge etc. Types of knots. Practice of knot formation,
Materials of ropes, Strength, Care and maintenance, use of mooring line, heaving line,
Rat guards, Canvas and its use. Anchors : Their use, Dropping and Weighing anchor,
Cable stopper.
Navigation Lights & Signals: Port and Starboard, forward and aft mast lights, Colours
CP
and Location. Look out, Precautions and Bad weather, Flags used on ships, Flag
Block
etiquette, Morse and Semaphore signaling, Sound signals.
01
Basic Navigation: General knowledge of principal Stars. Sextant, Navigation Compasses,
Echo Sounder, Log and uses, barometer and weather classification, G.M.T. and Zonal
time, wireless Navigational Instruments, radar satellite-Navigation etc.
MARPOL: MARPOL Convention and its annexes, Regulatory Control towards
environmental pollution at sea.
Life boats & Life Rafts: Construction, equipment carried, carrying capacity. Davits and
2-1 their operation, Launching of Life rafts (Inflatable type). Embarkation into life boat and
Life raft. Survival pack, Stowage and securing arrangement.
Abandon Ships: Manning of lifeboat and life raft. Muster list. Radio and Alarm signals,
2-2
CP
Distress signal (S.O.S.). Distress Calls time and Radio frequency. Pyro-techniques.
Block
Survival at Sea: Survival difficulties and factors, equipment available, Duties of crew
2-3
02
members, Initial action on boarding, Maintaining the craft.
Life Boat Drill: Knots, bendsand hitches, Ropes splice, Donning of Life jackets, Life boat
2-4
drills. Lowering & hoisting of Life boats (model).
Introduction to Social Studies: Society Definition, characteristics, functions; Norms,
3-1 Social Groups, Community, Associations, Customs, Folkways, Mores, Social Norms, Race,
Caste, Class and Conflicts.
Social Institutions: Social Change & Social Institutions-Theory, characteristics, social
Progress & control Definition of Institution, Classification, Functions of Institution,
3-2
Family, Educational Institutions, -its aims, problems, standards. Religion, Functions;
Secularism; Communalism, Industry, Markets.
Ethics and Values: Ethical & Social values-Ethics, values; Human spirit, moral values;
CP
3-3 Code of Conduct, Cultural Advancement, Rationalism, Social values, Laws, Justice,
Block
Liberty, Equality & Fraternity.
03
Social Problems: Modern Society & Indian Problems-Social problems, Economic
inequality Education & cultural problems; Health, Unemployment, Criminal tendencies,
Corruption, Labour problems, Social stratifications. Evolution & mobility; French &
Russian Revolutions; Social Democracy, Individual in industrialised Society; Historical
3-4
Development of Technology; Industrial Revolution, Impact of Rationalisation and
Automation on Industrial works; Technology & Society. Social & Economic problems of
India; Population, Housing problem, Poverty, Illiteracy, Lack of Capital, Poor quality of
Human Capital, Low level of Technology.
4-1 Political Institutions: Political Institutions-Society & the State; Origin & nature of state,
CP
Page 64
Social contract theory, Nationality and Nation; Classification of state, Democracy, Party Block
System, Public Opinion, Electorate, Dictatorship, Totalitarianism, nazism, Fascism, 04
Communism, Capitalism, Socialism, Democratic Socialism. The Constitution of India;
Local Self –Government, International co-operation, UNO, Indian in World Affairs.
Social Welfare and Planning: Social Welfare & Welfare State, Planned Economy,
Democratic Planning in a Developing Country-Frame work, Prerequisite limitations, Five4-2
year Plans, Meaning of economic planning, need for planning in under developed
countries. Achievement & failure of Economic Planning.
Industrial Psychology: Industrial Psychology-Aims, Motivation, Ethical & Social values in
4-3 Human Relations; Environment, Safety, Pollution. Productivity & Efficiency Methods,
Participative Management.
Labour Laws: Industrial Labour & Trade Unions in India-Problems, Principles of fixing
minimum wage; Principles of Labour Legislation; Industrial Labour-Indian Scenario,
4-4 Trade Union movement-Measures to improve Recruitment and Training, Employment
Exchange; Labour Legislation Factory Act 1948, Workmen’s Compensation Act 1923; ESI
Act Employees Provident Fund, Industrial Disputes Act, Minimum Wages Act.
T01034-T1 : Part-1;Part 2-Chapters-6 to 11;Part 3-Chapters-13,15,16,19,22;
Part 4-Chapters-27,28;Part-5-Chapter-36;Part-6-Chapters-39 & 40;Part 7- chapters- 41;Part-8.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01034-TB1
T01034-TB2
Reference-Books
T01034-RB1
T01034-RB2
CD / DVD
T01034-CD1
T01034-CD2
Web Links
T01034-WL1
T01034-WL2
Page 65
T01035: MECHANICS OF MATERIALS - I
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01035 Mechanics of Materials - I
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Workout different types of stresses in
different structural members.
UNITS
UN Name of the Unit
1-1
1-2 Simple Stress and Strains
Strain Energy in Simples Stresses
2-1
2-2 Sheer Force and Bending Moment
Welded Joints
3-1
3-2 Thins Walled Shells
Bending Stress
4-1
4-2 Shear Stress
Torsion Stress
CSs
Questions
of 1' SAQ in CA and
CSs
01-20
of 1' SAQ in CA and
CSs
21-40
of 1' SAQ in CA and
CSs
41-60
of 1' SAQ in CA and
CSs
61-80
DETAILS SYLLABUS
CP
Block
Simple Stress and Strains: Introduction-Definition; stress strain; tensile and compressive CP
1-1 stresses-shear stress- Elastic limit- Hooke’s law-Poisson’s ratio-modulus of Elasticity- Block
modulus of Rigidity; Bulk modulus-Temperature stresses- Relation between the elastic 01
Page 66
constants- Volumetric strain.
Strain Energy in Simples Stresses: Strain Energy-Elastic, plastic and rigid members1-2 Stresses due to different types of axial loading- Gradually applied loads-suddenly applied
loads- Impact loads.
Sheer Force and Bending Moment: Definitions – Cantilevers, simply supported beam,
fixed beam, continuous beams- Conception of Shear Force and Bending Moment –Sign
2-1 conventions-Shear Force and Bending Moment diagrams for cantilevers, beams
supported at ends, beams with overhangs- Point of contra flexure-member subjected to CP
couples.
Block
Welded Joints: The welding process- Advantages of welded connection-Disadvantages 02
2-2 of welded connection-Types of weld-Minimum sizes of weld-Effective length-Minimum
length ,Combined stresses in weld.
Thins Walled Shells: Thin cylinders-Circumferential and longitudinal stresses- Wire
bound pipes- Thin spherical shells.
CP
Bending Stress: Definition-Pure or simple bending-Theory of simple bending-Neutral Block
3-2 layer-Neutral axis- Bending stress distribution-Moment of resistance-Assumptions in the 03
theory of simple bending-Section modulus.
3-1
Shear Stress: Pure torsion-Theory of pure torsion-Tensional moment of resistanceCP
4-1 Assumptions in the theory of pure torsion-Polar modulus-Power transmitted by shaftBlock
Composite shafts-Keys-Couplings.
04
4-2 Torsion Stress: Shear and Tensional resilience-Close coil helical springs.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Strength of Materials
S Ramamrutham
15th
Edition
Dhanpat Rai Publishing Co.
Text-Books
T01035-TB1
T01035-TB2
Reference-Books
T01035-RB1
R S Khurmi
T01035-RB2
Beer & Johnston
T01035-RB3
Ryder
22nd S Chand & Co.
Edition
Prentice Hall
2002
Mc Graw Hill
CD / DVD
T01035-CD1
T01035-CD2
Web Links
T01035-WL1
T01035-WL2
Page 67
T01036: WORKSHOP
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01036 Workshop
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives

Trace various pipe lines.

Having passed 10+2 or HSC or ISC


Overhaul different types of walls.
Cut threads by taps and dies.
DETAILS SYLLABUS
1-1
1-2
1-3
1-4
1-5
1-6
1-7
1-8
Workshop layout
Steam and Exhaust Line Tracing-I
Steam and Exhaust Line Tracing-II
Feed, Distilled, Cool water and Fuel Line Tracing-I
Feed, Distilled, Cool water and Fuel Line Tracing-II
Scotch Boiler Familiarization
Globe Valve and Sluice Valve Overhauling
Return and Non-return Valve Over hauling
2-1
2-2
2-3
2-4
2-5
2-6
2-7
2-8
Thread cutting by taps and Die-I
Thread cutting by taps and Die-II
Thread cutting by Lathe Machine-I
Thread cutting by Lathe Machine-II
Cock Overhauling-I
Cock Overhauling-II
Shaft key Making-I
Shaft key Making-II
CP
Block
CP
Block
01 CSs
01-53
CP
Block
02 CSs
54-106
Questions
Students
have to
submit
‘Report of
Activities’
in CA and
face Viva
for end
exam on
these units.
Students
have to
submit
‘Report of
Activities’
in CA and
face Viva
for end
exam on
these units.
Page 68
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01036-TB1
T01036-TB2
Reference-Books
T01036-RB1
T01036-RB2
CD / DVD
T01036-CD1
T01036-CD2
Web Links
T01036-WL1
T01036-WL2
Page 69
T01037: MATERIAL SCIENCE LAB
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01037 Material Science Lab
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives
 Test different materials subjected to
various stresses.
DETAILS SYLLABUS
1-1
1-2
1-3
1-4
1-5
1-6
1-7
CP
Block
Questions
Determine the behavior of different materials when subjected to
Students
Tension and to obtain the following Tensile properties of materials on
have to
Universal Testing Machine.
submit
(i) UTS, (ii) Yield Stress, (iii) Young’s Modulus, (iv) Breaking Stress, (v)
‘Report of
Percentage Elongation, (vi) Percentage reduction in area and (vii)
Activities’
Plotting of Curve of –Stress vs Strain.
in CA and
face Viva
Determine the behavior of materials under direct shear force and
for end
study its effect and calculate the shear stress of material.
exam on
Study the behavior of materials when subjected to bending, find out
the effect of such act on material and calculate the bending stress of CP these units.
materials.
Block
Determine the behavior of different materials when subjected to 01 CSs
sudden shock and calculate the impact resistance quality or the impact 01-53
strength of the materials.
Determine the hardness of materials by indenting a hardened steel
ball into the specimen under test by an applied specified load on the
ball.
Determine the behavior of ductile materials when subjected to torsion
and
obtain
(i) Maximum Torsion Stress, (ii) Modulus of Rigidity and (iii) Plotting of
curve of Angle of Twist vs Torque.
Determine the stiffness of springs for (a) round wire and (b) square
Page 70
1-8
2-1
2-2
2-3
2-4
2-5
2-6
2-7
2-8
section wire when subjected to compression.
Determine the compressive stress and strain of materials under
compressive force applied to the material.
Find out the Tensile stress of materials on hand operated Tensile
Students
Testing Machine.
have to
submit
Find out the impact Strength of a metallic specimen supplied to you.
‘Report of
Show how the cracks are visible by Ultrasonic Test. Give its principle
Activities’
and comments on result.
in CA and
Show how the cracks are visible by Dye Penetrate Test. Give its
face Viva
principle and comments on the result.
CP
for end
Find out the hardness of the given metallic specimen on Rockwell Block
Hardness Tester. Comment on the result.
02 CSs exam on
Find out the hardness of the given metallic specimen on Vickers 54-106 these units.
Hardness Tester. Give your comments on the result.
Show how the cracks are visible by Magnetic Particle Test. Give its
principle and comments on the result.
Perform the Bend Test on the given sample and find out the bending
strength.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01037-TB1
T01037-TB2
Reference-Books
T01037-RB1
T01037-RB2
CD / DVD
T01037-CD1
T01037-CD2
Web Links
T01037-WL1
T01037-WL2
Page 71
SEMESTER 04
T01041: ELECTRONICS
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01041 Electronics
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives


Identify different components and
understand their functions.

Understand the working of various
communication equipment

Use different electronic instruments
UNITS
UN Name of the Unit
1-1
Electron Emission
1-2
Semi-Conductors
1-3
Semi-Conductor and Diodes
1-4
Transistors
2-1
Transistor Power Amplifier
2-2
Operation Amplifier Theory
2-3
Regulated Power Suppliers
2-4
Oscillators
3-1
Digital Circuits
3-2
Converters (A-D and D-A)
3-3
TTL and CMOS GATES
4-1 Wave Shaping and Switching
4-2 Industrial Electronics
4-3 Communication
CSs
Questions
CP Block 01
of 1' SAQ in CA and
CSs
01-20
CP Block 02
CSs
21-40
of 1' SAQ in CA and
of 1' SAQ in CA and
CSs
41-60
of 1' SAQ in CA and
CSs
Page 72
4-4 Electronic Instruments
61-80
DETAILS SYLLABUS
CP
Block
Electron Emission : electron emission-types of electron emission-Thermionic emission1-1 thermionic emitters –commonly used thermionic emitters-cathode construction- Field
Emission- Secondary Emission-photo electric Emission.
Semi-Conductors: Types of Semi-Conductors (intrinsic, extrinsic), Energy band diagrams
for semiconductors, Drift current and diffusion current, Mobility of charged particle,
1-2
current density and conductivity, conductivity of a semiconductor. Varistors ,
Thermistors and Non Linear Resistors(not covered).
Semi-Conductor and Diodes : P-N junction diode, V-I characteristics of typical Ge and Si
Diodes, zener diode, characteristics of zener diode, Breakdown mechanisms in zener
CP
1-3 diode , applications of zener diode. Diode as a rectifier-half wave rectifier, Full wave
Block
rectifier , Bridge Rectifier, comparison of rectifier circuits, filter circuits, capacitor input
01
filter , filter. tunnel Diodes-V-I characteristics
Transistors: Transistor basics, transistor action, transistor currents, transistor
configurations, transistor biasing, the dc operating point, biasing circuits, transistor as a
switch. Basic concept of an amplifier, Typical voltage amplifier, properties of an ideal
1-4 voltage amplifier, single stage RC coupled CE amplifier, frequency Response of RC
coupled CE Amplifier.
Concept of feedback amplifier, concept of negative feedback. JFET, MOSFETSconstruction of JFET , operation of JFET, JFET characteristics, JFET parameters, MOSFET.
Transistor Power Amplifier : Classification of power amplifiers, analysis of class B
2-1 amplifiers, Push Pull class B amplifier, Complementary symmetry class B amplifier, Safe
operating area for a transistor, heat sinking for power transistors(no numerical).
Operation Amplifier Theory : Op-amp symbol and terminals, ideal op-amp, practical opamp characteristics, op-amp IC A741, Open loop configuration of op-amp, closed loop
2-2 configuration of op-amp, realistic simplifying assumptions, inverting amplifier, Non
inverting amplifier, voltage follower, summer or adder circuit, Subtractor or difference CP
amplifier, op-amp as a comparator, Schmitt trigger circuit.
Block
Regulated Power Suppliers: Voltage regulators , factors affecting the load voltage , 02
power supply performance parameters , basic voltage regulator, types of voltage
2-3
regulators, 3 terminal IC Regulators , Block diagram of basic three terminal IC regulator,
IC series of three terminal Regulators, 3 terminal adjustable regulator:LM 317.
Oscillators: Concept of positive feedback, Barkhausen Criterion, R-C oscillators using op2-4
amps, R-C Phase shift Oscillator, Wien Bridge Oscillator, and Crystal Oscillators.
Digital circuits: Principle of Logic circuits, logic Gates, Boolean Algebra, Logic circuits,
universal property, alternative logic gate representation, conversion of AND/OR/NOT
logic to NAND/NOR Logic; weighted code: binary code and BCD codes; Simplifications
3-1 Flip-flops: NOR Gate latch (S-R Flip-Flop), D FF (Delay Flip-Flop), JK Flip-Flop, Master CP
Slave JK FF (M/S JK FF), T FF (Toggle FF); Counters: Introduction, Asynchronous counter, Block
Synchronous counter; Registers: Register (parallel and shift register), serial shifting, 03
serial in-serial out (SISO), Serial in-parallel out; Multiplexer (Data selectors), Examples.
Converters (A-D and D-A): Introduction, Digital-to-Analog Converters, Sample-and-Hold
3-2
circuit, Analog to Digital Converters.
3-3 TTL and CMOS GATES: Digital Logic Families: Characteristics of Digital ICs, TransisterSyllabus For V23: B.Tech. (Marine Engineering)
Page 73
Transister Logic (TTL), CMOS Logic; Semi-conductor Memories; Read Only Memory,
Read AND Memory.
Wave Shaping and Switching: Clipping circuits, series clippers, parallel clippers,
Clamping circuits, Multivibrators: types Of Multivibrators, Astable Multivibrators, circuit
4-1
operation of Astble Multivibrator, Monostable Multivibrator, Bistable Multivibrator,
Schmitt Triggers.
Industrial Electronics: Silicon Control Rectifier (SCR), working of SCR, equivalent circuit
of SCR, important terms, V-I Characteristics of SCR, Application of SCR; TRAIC, TRAIC CP
4-2
Construction, TRAIC Operation, TRAIC Characteristics;
Photo-Electric Devices: Block
photodiodes, phototrasistor; Invertors.
04
Communication: Need of Modulation, type of Modulation, Radio Transmitters and
4-3
Receivers, Television systems, Radar system.
Electronic Instruments: Cathode Ray Oscilloscope: Introduction, cathode ray tube (CRT),
4-4 Block diagram of Oscilloscope, Dual Trace Oscilloscope; Digital Voltmeters and
frequency meters. Multimeters; signal generators, Q-meters.
T01041-T1: 1.12 to 1.18, 5.9, Units 8 and 9, 10.3, 10.5, 10.7 to 10.10, 11.1 to 11.3, 11.6, 11.7,
11.10 to 11.14, Units 12 and 13, Appendix- A.
T01041-T2: 1.14 to 1.17, Units 2 and 3, 4.6, Units 6 and 7, 8.7,8.8, Units 9 to 11, 12.2, 12.3,
12.6 to 12.12, Units 13 and 14.
T01041-T3: Units 1, 2, 3.3 to 3.6, 3.10 to 3.12, 4.7 to 4.17, Units 5 to 9.
T01041-T4: Unit 1, Units 3 to 21, 22.6 to 22.10, 22.12, 23.1, 23.6 to 23.13, Units 24 to 27.
T01041-T5: Units 1, 2, 3.1, 3.3 to 3.12, Units 4 and 5, 6.7 and Unit 8, 9.3 to 9.11, 10.1, 10.2,
10.5, 10.9, 10.10, 11.3, 11.4, 11.6 to 11.14, 12.6 to 12.12, Units 13 to 15.
T01041-T6: Units 1to 3, 4.3 to 4.7, 4.9 to 4.13, 4.15 to 4.18, Unit 5 to 9, 10.3, 10.6, 10.7, 11.1
to 11.5, 11.6.3, 11.7.2, 11.7.3, 11.8 to 11.10, Units 12 to 14.
T01041-T7: Unit 1 to 31, 32.1 to 32.5, 32.15, Units 33 to 36.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
A.P.Godse
T01041-TB1
U.A.Bakshi
Electronic Devices and Circuits I
T01041-TB2 A.P.Godse
U.A.Bakshi
T01041-TB3 Elements of Electronics Engineering II
A.P.Godse
U.A.Bakshi
T01041-TB4 Principles of Electronics
V.K. Mehta
T01041-TB5 Digital Electronics
N.G. Palan
T01041-TB6 Modern Digital Electronics
R.P. Jain
T01041-TB7 A Text Book of Applied Electronics
5th
Revised
Edition
Jan 2003
2nd
revised
edition
2ndRevised Technical Publications
Edition
Rev edition
Revised
Tech-Max
Publications,
Edition
Pune
3rd edition Tata Mc Grall-Hill
1st edition S. Chand & Company Ltd.
Page 74
R.S. Sedha
Reference-Books
Electronic Devices and Circuits
T01041-RB1
Allen Mottershed
T01041-RB2
CD / DVD
T01041-CD1
T01041-CD2
Web Links
T01041WL1
T01041WL2
1990
New Delhi
2002
ELSB Publications
Page 75
T01042: MECHANICS OF FLUIDS
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01042 Mechanics of Fluids
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Understand effects of friction,
 Having passed 10+2 or HSC or ISC
viscosity on the motion of fluids.
UNITS
UN Name of the Unit
1-1
Properties of Fluids
1-2
Type of Fluids
1-3
Dimensional Analysis
2-1 Fluid Static (Hydrostatics)
2-2 Fluid Kinematics
3-1 Fluid Dynamics
3-2 Flow through Orifices
4-1
Flow through Pipes
4-2
Laminar or Viscous (Parallel) Flow
4-3
Vortex (Rotational) Flow
CSs
Questions
of 1' SAQ in CA and
CSs
01-20
of 1' SAQ in CA and
CSs
21-40
of 1' SAQ in CA and
CSs
41-60
of 1' SAQ in CA and
CSs
61-80
DETAILS SYLLABUS
CP
Block
Properties of Fluids: Introduction, Definition of fluid (R1-1.1), Difference between fluid CP
1-1 and non-fluids (R1-1.1 / T1-1.2), Definitions (fluid mechanics, fluid static, fluid kinetic, Block
fluid kinematics, fluid dynamics), Scope of fluid mechanics (R2-1.3), Methods of analysis 01
Page 76
(Control-volume or integral (large-scale) analysis, Infinitesimal system or differential
(small scale) analysis, Experimental study, or Dimensional analysis) (R2-1.5), Dimensions
and Units. (T1-1.4)
Fundamental concepts: fluid as continuum (R2-2.1), coordinate systems and coordinate
transformation (R2-1.4), Definition of field –flow field, stress field (R2-2.3, R1-1.9),
velocity field (R2-2.2), acceleration field etc. , System and Control Volume (R2-1.5.1, R11.6,1.7), Force and Moment (R1-1.8) , Rate of Strain (R1-1.10, R4-1.2).
Thermodynamic properties (R3-1.6,): -Pressure (absolute, vacuum, atmosphere) (T1-2.1,
2.5, R1-1.11.2), temperature, density (spec. weight or wt. density, spec. volume, spec.
gravity or relative density) (T1-1.2), Internal energy (R3-1.6), enthalpy (R3-1.6), entropy
(R3-1.6), specific heats (R3-1.6), State relations for liquid and gas. (R3-1.6)
Transport properties: Viscosity (dynamic, kinetic, apparent or effective) Newton’s law of
viscosity, flow between parallel plates (laminar or turbulent), no slip condition and no
temperature condition, comparison of Newton’s law of viscosity with Hooks law of
elasticity for solids, Effect of temperature and pressure variation on viscosity. (R11.11.4, 1.11.5, R2-2.4, R3-1.7),
Other Properties: Compressibility and Elasticity (for Isothermal, Isentropic, Polytropic
process) (R1 1.11.7), Surface tension and Capillarity {Behaviors of liquid surfaces,
examples of surface tension, Definition - surface tension, surface energy, relation
between them, angle of contact, shape of liquid drop, capillary action surface tension on
liquid bubble, droplet, jet and on general surface},(T1-1.11,R1-1.11.8) Vapour pressure
(Vapour pressure curve) (R3-1.6,), Cavitation, Water Hammer (R2- 2.6.3).
Type of Fluids: Newtonian, Non-Newtonian, Time Independent, Time Dependent and
1-2
Elasto-viscous. (R1-1.13, R2-2.4.1&2.4.2, R4-1.4)
Dimensional Analysis: Introduction, Dimensions, Dimensional Homogeneity, Methods
of dimensional Analysis (Rayleigh Method, Buckingham 1-3 method), Use of dimensional analysis in presenting experiential data, Similitude (Types
of similarities), Force Ratios (Dimensional Numbers), Similarity Laws or Model Laws (T117.1 to 17.12).
Fluid Static (Hydrostatics):
1.Static’s of fluid system (R3-2.1), Pascal’s law for pressure at a point (R3-2.3, R1`-2.1),
For Incompressible static fluid: Variation of pressure vertically under gravity (R3-2.4),
Basic equation for pressure variation (R3-2.4, 2.5, 2.6), Pressure and Head (R3-2.13),
Hydrostatic paradox (R3-2.14), Measurement of pressure (all types of Manometers,
Mechanical gauges)(T1-2.62.7, R1-2.6, 2.7, 2.8,2.9)
2. Action of fluid pressure on submerged surfaces: (T1-3.1 to 3.5)
2-1 Define total pressure and center of pressure, total pressure on submerged plane
surface (Horizontal, Vertical, Inclined & Curved-R12.5), Virtually supported liquid,
Imaginary free surface, Practical applications of total pressure and Center of pressure on CP
Dams, Gates (Sluice, lock, tanter, sector cylindrical) and Tanks
Block
3. Buoyancy and Flotation : (T1 – 4.1 to 4.4-i)
02
Buoyancy, Buoyancy force, Center of buoyancy, Metacentre and Metacentric Height,
Stability conditions for floating (partly-submerged) and submerged bodies.
Determination of Metacentric Height – Theoretical Method
Fluid Kinematics :
Fundamentals of fluid flow: Introduction, Eulerian and Lagrangian Techniques (R1-3.1),
Classification and description of fluid flow (steady or unsteady, In viscid / Ideal /
2-2
Potential or Viscous / Real, laminar/Stream line/ Parallel or turbulent, Incompressible or
Compressible, Internal or External, One or Two or Three dimensional, Rotational
(vortex) or Irrotational etc.) (R2-2.6,R4 -4.1 to 4.7), Flow pattern (stream line (stream
Page 77
tube), path line, streak line, and time line) (T1-6.4, R1-3.5), Basic Principles or laws of
Fluid Flow or a system (R14.1), Reynolds Transport Theorem (R1-4.2), Discharge
(Volume and Mass flow rate) and Mean or average velocity (R44.11). Velocity (Motion)
of Fluid Particle (T1-6.2, R4-4.8), Continuity of Flow (R4-4.12), Continuity Equations for
Three-Dimensional Flow using Cartesian and Cylindrical Coordinates (T1-6.6),
Acceleration of Fluid Particle (T1-6.7, R4-4.9), Types of Motion (T1-6.8)
Fluid Dynamics:
Equations of Motion and Energy Equations (T1-7.1 to 7.15): Introduction, Forces acting
on fluid in Motion, Euler’s Equation of Motion, Integration of Euler’s Equations,
Bernoulli’s Equation Derived from the Principal of Conservation of energy, Kinetic
energy correction factor. Pressure velocity relationship, Applications of Bernoulli’s
Equation, Venturi Meter, Orifice Meter, Nozzle Meter or Flow Nozzle, Other Flow
3-1 Measuring Devices-Rotameter, Elbo Meter, Pitot tube. Free Liquid Jet.
Impulse Momentum Equation and its Applications: Introduction, Momentum and Fluid
Flow (R4-5.1), Momentum Equation for two and Three Dimensional Flow along a
streamline. (R4-5.2), Momentum Correction Factor (R4-5.3), Force Exerted by a Jet
Striking a Flat Plate (R4-5.5), Force due to the Deflection of a Jet by a curved Vane (R4CP
5.6), Force due to the Deflection of a Jet by a Moving curved Vane (R4-5.7), Force
Block
exerted on Pipe Bends and Closed Conduits (R4-5.8).
03
Flow through Orifices (T1 -9.1 to 9.4): Classification, Sharp –Edged Orifice Discharging
Free: (vena-contracta,, Torricelli,s formula, Coefficient of Velocity CV, Coefficient of
Contraction Cc, Coefficient of Discharge Cd, Coefficient of Resistance Cr), Experimental
determination of the coefficients for an orifice{Determination of Cv (Jet distance
method, Velocity measurement method, Moment method), Determination of Cc,
3-2 Determination of Cd} ,(i.e. Discharge through a small orifice under constant head).
Losses of Energy or head of flowing liquid Due to sudden Change in Velocity (T1-9.8).
Flow through an orifice or a Mouthpiece under variable heads- {Time for empting a tank
with no inflow (Cylindrical, conical, Hemispherical), Time for empting (or filling) a tank
with inflow (T1-9.12)}, Flow of liquid from one vessel (reservoir) to another (reservoir)
(T1- 9.13).
Flow through Pipes: Reynolds Experiment (critical velocity), laws of fluid friction (for
laminar flow i.e. parallel flow & for turbulent flow), Froude,s Experiments, DarcyWeisbach Equation, Chezy’s Formula, Manning Formula, Hazen William,s Formula, Other
Energy Losses in pipes, Hydraulic Grade line and Energy Grade Line, Flow through long
4-1 pipes, Pipes in series or compound pipe, Equivalent pipe, Pipes in parallel, Time of
Empting a reservoir through pipe,………………. (T1-11.1 to 11.12).
Transmission of power through pipes, Flow through Nozzle at the end of pipe CP
(Maximum power available from nozzle, Diameter of the nozzle for transmitting Block
maximum power)………… (T1- 11.18 to 11.20)
04
Laminar or Viscous (Parallel) Flow: Introduction, Relation between Shear and Pressure
gradients in Laminar Flow, Steady Laminar flow in circular pipes-Hagen-Poiseuille law,
4-2
Inclined pipes, Between parallel plates at rest, one plate moving and other at restCOUETTE flow, Lubrication Mechanics (Slipper, Journal bearing).
Vortex (Rotational) Flow: (T1- 7.16 to 7.18)
4-3
Vortex Motion- Free, and Forced, Radial Flow (Motion), Spiral Vortex Motion.
T01042-T1: Chapters 1 to 4 (4.1 to 4.4 ii), 6.1 to 6.8, 7.1 to 7.6,7.8 to 7.18, 8.1 to 8.5, 9.1 to
9.4,9.8,9.12,9.13, 11.1 to 11.12, 11.18 to 11.20, 13.1 to 13.4, 13.6, 13.7, 13.11, 17.1 to 17.6, 17.8 to
17.12
Page 78
T01042-T1: 4.4(i), 4.4 and 4.5, 6. 9 to 6.15, 7.7, 8. 6 to 8.8, 9. 5 to 9. 7, 9. 9 to 9.11, 9. 14, 11.13 to
11.17, 11.21 and 11.22, 13. 5, 13. 8 to 13.10, 13.12 and 13.13, 17.7, 17.9, 17.13 to 17.16, Chapters
5, 10, 12, 14 to 16, 18 to 29.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
Hydraulics and Fluid Mechanics
T01042-TB1 Dr. P.N. Modi and Dr. S. M. Seth
T01042-TB2
Reference-Books
Engineering Fluid Mechanics
T01042K. L. Kumar
RB1
T01042RB2
T01042RB3
T01042RB4
CD / DVD
T01042CD1
T01042CD2
Web Links
T01042WL1
T01042WL2
Introduction to Fluid Mechanics
Fox and McDonald
Fluid Mechanics
Frank M. white
Fluid Mechanics
John F. Douglas
13th Edition, 81-900893-7-4
2000
Standard Book House
Delhi-110 006
Edition 2003 81-219-0100-6
Eurasia Publishing House
(P) Ltd. New Delhi-110055
Students
9971-51-355-2
Edition
John Willey and Sons, Inc.
Reprint 2004
International 0-07-119911-X (ISE)
(5th) Edition McGraw Hill
4th Edition 81 –297-0057-3
Pearson Education
Page 79
T01043: MECHANICS OF MACHINES - I
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01043 Mechanics of Machines - I
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Explain the working of Fly Wheel link
–mechanism, cam and gears.
UNITS
UN Name of the Unit
1
2
3
4
Velocity and Acceleration Analysis in Mechanisms
Dynamic Force Analysis
Cams and Followers
Toothed Gearing
CSs
Questions
of 1' SAQ in CA and
CSs
01-20
of 1' SAQ in CA and
CSs
21-40
of 1' SAQ in CA and
CSs
41-60
of 1' SAQ in CA and
CSs
61-80
DETAILS SYLLABUS
CP
Block
Velocity and Acceleration Analysis in Mechanisms:
CP
1 Mechanisms and Machines : Definition of link, kinematic pair, kinematic chain, Block
mechanism, machine, structure, inversion, inversions of single slider crank chain, double 01
Page 80
slider crank chain and four bar chain, Degrees of freedom. Equivalent linkage of
mechanisms.
Velocity Analysis in Mechanisms by Instantaneous Center Method: Instantaneous center
of velocity, Kennedy’s theorem of three centers in line, Velocity analysis in mechanisms
using instant centers, space and body centroids.
Velocity and Acceleration Analysis in Mechanisms by Relative Velocity and Relative
Acceleration Method : Velocity analysis in mechanisms by relative velocity method,
Rubbing velocity at a pin joint, Forces acting in a mechanism, mechanical advantage,
Acceleration analysis by relative acceleration method, Coriolis component of
acceleration.
Velocity and Acceleration of Slider Crank Mechanism: Velocity and acceleration of
slider crank mechanisms by analytical method, Klein’s construction method
Dynamic Force Analysis:
Inertia Forces in Reciprocating Parts: Forces on the reciprocating parts of an engine
neglecting the weight of the connecting rod (Analytical method only), Equivalent
dynamical system, Correction couple to be applied to make two mass system
dynamically equivalent, Analytical method for inertia torque
CP
2 Turning Moment Diagrams and Flywheel: Turning Moment diagrams, Turning Moment
Block
Diagrams for (a) Single Cylinder Double Acting Steam engine (b) Single Cylinder Four02
Stroke engine (c) Multi-cylinder engine, Fluctuation of energy, Determination of
maximum fluctuation of energy, Coefficient of fluctuation of energy, Function of a
flywheel, Coefficient of fluctuation of speed, Energy stored in a flywheel rim,
Dimensions of a flywheel rim, Flywheel in punching press.
Cams and Followers: Introduction, Types of Cams and Followers, Terms used in radial
cams, Cam pressure angle, Displacement, Velocity and Acceleration – Time curves,
Specified Motion of the Followers – (a) Uniform Velocity (b) Simple Harmonic motion (c)
Uniform acceleration and retardation, and (d) Cycloidal motion, Graphical Layout of Cam
Profiles for a radial cam – (a) Cams (radial and offset cases) with reciprocating (i) Knife CP
3 edged follower (ii) Roller follower (iii) Flat faced follower (b) Radial cams with oscillating Block
roller follower.
03
Cams with Specified Contours: Analysis of the motion of the followers for cams with
specified contours – 1. Introduction 2. Only analytical design procedure for (i) Tangent
cam with reciprocating roller follower (ii) Circular Arc (Convex) cam with flat faced
follower, Calculation of spring force.
Toothed Gearing : Introduction, Classification of gears, Gear terminology, Fundamental
law of gearing, Velocity of sliding of teeth, Forms of teeth - Cycloidal profile teeth and
Involute profile teeth, Effect of center distance variation on the velocity ratio,
CP
Comparison between involute and cycloidal gears, Systems of gear teeth, Length of
4
Block
path of contact, Length of arc of contact , Contact ratio, Interference in involute gears,
04
Methods to avoid interference in involute gears, Minimum number of teeth on wheel
and pinion in order to avoid interference, Interference between rack and pinion,
Undercutting.
T01043-T1: 5.1 to 5.22, 6.1 to 6.10, 7.1 to 7.8, 8.1 to 8.5, 12.1 to 12.22, 15.1 to 15.3, 15.5,
15.8 to 15.13, 15.15, 16.1 to 16.12, 20.1 to 20.13.
T01043-T2: 1.1 to 1.14, 2.1 to 2.17, 3.1 to 3.8, 7.1 to 7.7, 10.1 to 10.16, 13.1 to 13.3 , 13.5 to
13.15.
Page 81
T01043-T1: 1 to 4, 9 to 11, 12.23 to 12.26, 13, 14, 15.6, 15.7, 15.12, 15.14, 17 to 19, 21 to 26
T01043-T2: 3.9, 4, 5, 6, 8, 9, 10.17 to 10.25, 11, 12, 13.4, 13.12, 14 to 19
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
Theory of Machines
R. S. Khurmi, J.K. Gupta
Theory of Machines
T01043-TB2 S. S. Rattan
T01043-TB1
Reference-Books
Theory of Machines and Mechanisms
T01043-RB1 J. E. Shigley
J. J. Uicker
Theory of Machines and Mechanisms
T01043-RB2
P.L. Ballaney
Theory of Machines
T01043-RB3 Thomas Bevan
2005
2005
81-219-2524-X
Eurasia
Publishing House (Pvt.) Ltd.
0-07-460320-5Tata
McGraw- Hill Publishing
Company Ltd.
1995
0-07-113747-5
McGraw- Hill, Inc.
1999
81-7409-033-9
Khanna Publishers
81-239-0683-8
CBS
Publishers
Distributors
2003
and
CD / DVD
T01043-CD1
T01043-CD2
Web Links
T01043-WL1
T01043-WL2
Page 82
T01044: ELECTRICAL MACHINES - I
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01044 Electrical Machines - I
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Understand the principle and

applications of D.C. Motors and
Transformers
UNITS
UN Name of the Unit
CSs
Questions
Construction of D.C. Machine and Windings in D.C.
1-1
Machines
CP Block 01 of 1' SAQ in CA and
1-2
Working of D.C. Machine
CSs
1-3
D.C. Generators
01-20
1-4
Armature Reaction
2-1
CP Block 02
D.C. Motors
of 1' SAQ in CA and
2-2
Starting of D.C. Motor
2-3
CSs
Speed Control of D.C. Motors
2-4
21-40
Testing on D.C. Machines
of 1' SAQ in CA and
3
Transformer
CSs
41-60
4-1
CP Block 02
Types of Transformers
of 1' SAQ in CA and
4-2
Supply System and DC Distribution
4-3
CSs
A.C. Transmission and Distribution
4-4
61-80
Fuses and Circuit Breakers
DETAILS SYLLABUS
Page 83
CP
Block
Construction and Winding of DC Machine: Construction details of DC machine, Winding
– Winding terminology, simple wave and lap winding.
1-2 Working of D.C. Machines: Direct current machine-principle of working.
D.C. Generators: Type, their characteristics, EMF equation, losses and efficiency,
CP
condition for maximum efficiency, methods of excitation, parallel operation – necessity
1-3
Block
of parallel operation, necessary condition for operation, load sharing, simple numerical
01
problems.
Armature Reaction: Effect of armature reaction methods of reducing armature reaction,
1-4
commutation – process of commutation, methods of improving commutation.
1-1
D.C. Motors: Types, significance of back EMF, voltage regulation, torque equation,
speed equation, characteristics, and simple numerical problem.
Starting of DC Motor: Starting of DC motor – necessary of starter, types of starter,
2-2
reversing of dc motor, simple numerical problem.
CP
Speed Control of DC Motors: Flux control method. Armature control method, simple
2-3
Block
numerical based on these methods.
02
Testing of D.C. Machines: Break load test, Swin burn’s test, Hopkinson test, series field
2-4 test, simple numerical problems. Breaking of dc machine – Dynamic, plugging
regenerative
2-1
Transformer: Working principle of transformer, transformer construction, core type
transformer, shell type transformer, elementary theory of an ideal transformer, E.M.F.
equation of a transformer, voltage transformation ratio(k), transformer with losses but
no magnetic leakage, transformer on no load, transformer on load, transformer with
CP
3-1 winding resistance but no magnetic leakage, equivalent resistance, magnetic leakage,
Block
transformer with resistance and leakage reactance, equivalent circuit, transformer
03
tests, open circuit or no load test, short–circuit or impedance test, Why transformer
rating in KVA?, regulation of a transformer, Losses in a transformer, efficiency of a
transformer, condition for maximum efficiency, all-day efficiency.
Types of Transformers: Auto- transformer, parallel operation of single phase
transformers.
4-1
Three phase transformer.
Instrument transformers-current transformer, potential transformer.
Supply System and DC Distribution: Electrical supply system, typical AC power supply
scheme, and comparison of AC and DC transmission, Advantages of high voltage, Types CP
4-2
of DC distributor, Two wires & 3-wire D.C. distribution. Use of balancer, one end fed Block
ends, center & Ring main distributor.
04
A.C. Transmission and Distribution: Single phase and three phase AC transmission, 24-3
wire, 3-wire & 4-wire A.C. distribution,
Fuses and Circuit Breaker: Definition of fuse, characteristics, material used, important
4-4 terms, types. Circuit breaker- operation, arc phenomenon, methods of arc extension,
important terms, A.C. air blast circuit breakers.
Topics not included in syllabus:
T01044-T1: 31.10; 32.5, 32.12; 33.8, 33.9; 34.7 to 34.9, 34.17; 35.5, 35.17,
Chapters 1 to 28, 36 to 52
T01044-T2: 26.1, 26.2, 26.27, 26.29; 27.3, 27.4, 27.6, 27.8, 27.13, 27.18, 27.19; 28.11, 28.14,
28.15; 29.16; 30.4, 30.5, 30.9 to 30.18, 30.25 to 30.27; 31.8, 31.9; 32.17, 32.33.
Page 84
Chapters 25, 33 to 39
LR Code
Title
Author
Edition
Year
ISBN
Publisher
3rd
Edition
2001
2002
S. Chand & Company
2002
Khanna Publicating
2005
S. Chand & Company
Text-Books
Principles of Electrical Engineering
T01044-TB1 B. R. Gupta
A textbook of Electrical Technology
B.L.Theraja
Reference-Books
Electrical Machinery
T01044-RB1
P.S.Bimbhra
Principle of power system
T01044-RB2
V. K. Mehta
CD / DVD
T01044-CD1
T01044-CD2
Web Links
T01044-WL1
T01044-WL2
T01044-TB2
81-219-1142-7
S. Chand & Com.
Page 85
T01045: MECHANICS OF MATERIALS - II
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01045 Mechanics of Materials - II
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Calculate different stress and strains

to which beams curved bars, thick
cylinders and struts are subjected to.
UNITS
UN Name of the Unit
1
2
Compound Stress and Strain
CSs
CP Block 01
CSs
01-20
CP Block 02
Deflection of Beams
3-1 Built-in and Continuous Beams
3-2 Thin Curved Bar
4-1 Thick Cylinders
4-2 Struts
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Block
Compound Stress and Strain: Normal Stresses - Tangential or Shear stresses - principal CP
1
stresses – principal planes – Graphical & Analytical Method - Determination of principal Block
Page 86
planes and principal stresses- obliquity – Mohr’s circle of stress - Combined bending and 01
torsion - Strain energy in terms of principal stresses – Equivalent bending moment &
equivalent torque - Principal strains - Criterion for failure.
Deflection of Beams: Member bending into a circular arc- slope, deflection & radius of
CP
2-1 curvature- derivation of formulae for slope & deflection- cantilevers – beams –
Block
Macaulay’s method- Moment area method- Mohr’s theorem. Applied problems.
02
Built-in and Continuous Beams:
Fixed beams – relation between the free BM diagram & Fixed BM Diagram – slope &
3-1
CP
deflection- advantages & disadvantages of fixed beams- continuous beams –
Block
Clapeyron’s theorem of three moments. Applied Problems.
03
Thin Curved Bar: Strain energy stored due to bending - Strain energy stored due to
3-2
twisting - The first theorem of Castigliano’s. Applied problems.
Thick cylinders: derivation formulae- Lame’s equation- Hoop stresses & radial pressure
distribution – compound cylinders. Applied Problems.
CP
Struts: Introduction – actually loaded compression member – crushing load- Buckling or
Block
Critical or Crippling load- Euler’s theory of long columns-assumptions made in Euler’s
04
4-2
theory- limitation of Euler’s formula- Empirical formulae – Rankine’s Formulae. Applied
Problems.
Topics not Included Syllabus:
T01045-T1: Chapter No : 10 Problem No 706-712 , $109,$116,
Chapter No: 7 Problems No 391-393, 395-418,437-465, Article $66, Problem No 472-477,
Articles $68, $69, Problem No 489-495, Article $71 – 76.
Chapter No : 8 : Problem No 548- 552, Article $81,Problem No 563-566, 573- 575 Article No
$90,
Chapter No : 7 : Article $61 - $73 Problem No 507- 535
Chapter No: 13 : Article $ 138.
Chapter No : 14 : Problem No 822-824 , Article $145- $ 152
4-1
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Strength of Materials.
S. Ramamrutham
15th
Edition
81-87433-54
Dhanpat Rai Publication
22nd
Edition
S. Chand & Company
Text-Books
T01045-TB1
T01045-TB2
Reference-Books
T01045-RB1
R.S.Khurmi
T01045-RB2
CD / DVD
T01045-CD1
T01045-CD2
Web Links
T01045-WL1
T01045-WL2
Page 87
T01046: WORKSHOP
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01046 Workshop
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives


Use shaping machine and milling
machines.

Overhaul different types of pumps
and compressors

Understand boiler and diesel engine.
DETAILS SYLLABUS
1-1
1-2
1-3
1-4
1-5
1-6
1-7
1-8
Reciprocating Pump familiarization and Overhauling
Centrifugal Pump familiarization and Overhauling
Air Compressor familiarization and Overhauling
Steam and Exhaust Line Tracing
Feed, Distilled, Cool water and Fuel Line Tracing
Scotch Boiler Familiarization
Globe Valve and Sluice Valve Overhauling
Foster wheeler Boiler Familiarization
2-1
2-2
2-3
2-4
CP
Block
CP
Block
01 CSs
01-53
Pipe repair and Fabrication
Diesel Engine Familiarization and Overhauling
Return and Non-return Valve Over hauling
CP
Cock Overhauling
Block
Dismantling, refitting and studying of a return-type and non-return
02 CSs
2-5 type valves
54-106
Overhauling of a Globe Valve
2-6 Dismantling, refitting and studying the operation of a Sluice Valve
2-7 Overhauling of a steam stop valve
Questions
Students
have to
submit
‘Report of
Activities’
in CA and
face Viva
for end
exam on
these units.
Students
have to
submit
‘Report of
Activities’
in CA and
face Viva
for end
exam on
Page 88
2-8 Cutting of joints and packing for various uses
these units.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01046-TB1
T01046-TB2
Reference-Books
T01046-RB1
T01046-RB2
CD / DVD
T01046-CD1
T01046-CD2
Web Links
T01046-WL1
T01046-WL2
Page 89
T01047: ELECTRONICS LAB
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01047 Electronics Lab
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives
 Understand the characteristics of
electronic components and circuits.
DETAILS SYLLABUS
CP
Block
Questions
1-1 To study different instruments used in Electronics Laboratory.
1-2 To study the charging and discharging action of a capacitor.
To study the half wave and full wave rectification circuit without and
1-3
with filter circuit.
CP
1-4 To study the volt ampere characteristics of a semi conductor diode.
Block
1-5 To study of volt-ampere characteristic of a zener diode.
01 CSs
01-53
1-6 To study the characteristics of Bipolar Junction Transistor.
1-7 To study the volt-ampere characteristic of Field Effect Transistor.
1-8 To study the characteristics of Silicon Controlled Rectifier.
Students
have to
submit
‘Report of
Activities’
in CA and
face Viva
for end
exam on
these units.
2-1
2-2
2-3
2-4
2-5
2-6
2-7
2-8
To study the Transistor Bias stability.
To study the Transistor Feed Back Amplifier.
To study the Operational Amplifier application.
To study the Operational Amplifier Differentiator.
To study the Operational Amplifier Integrator.
To study Clipper and Clamper Circuit.
To study the Logic Gates.
To study the Speed Control of a D.C. Motor by Thyristor.
Students
have to
submit
CP
‘Report of
Block Activities’
02 CSs in CA and
54-106 face Viva
for end
exam on
these units.
Page 90
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01047-TB1
T01047-TB2
Reference-Books
T01047-RB1
T01047-RB2
CD / DVD
T01047-CD1
T01047-CD2
Web Links
T01047-WL1
T01047-WL2
Page 91
SEMESTER 05
T0105: FLUID MACHINES
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01051 Fluid Machines
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge

Learning Objectives
10+2 or HSC or ISC

Understand
basic
thermodynamics.


Understand ideal cycles
laws
of
Know the property of gases
UNITS
UN Name of the Unit
1
Advanced Dimensional Analysis
2
3
4
CSs
CP Block 01
CSs
01-20
CP Block 02
Reciprocating Pumps
CSs
21-40
CP Block 03
Centrifugal Pump
CSs
41-60
CP Block 02
Impulse and Reaction turbines
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
Page 92
CP
Block
Advanced Dimensional Analysis: Introduction, Dimensions, dimensional homogeneity,
Methods of Dimensional Analysis-Buckingham π method, Outline procedure for
Buckingham π method, Use of dimensional analysis in presenting experimental data,
Similitude –types of similarities (Geometric, Kinematics, Dynamic), Unit speed, Unit CP
1
discharge & Unit power, Performance characteristics of Turbine, Performance Block
characteristics of centrifugal pumps. Model Testing of pumps and turbines.
01
Applied problems based on Unit quantities & model testing of Turbines & Centrifugal
Pump
Reciprocating Pumps: Introduction, Construction & Operation, Theoretical indicator
diagram, Acceleration head and frictional head & its effect on Actual indicator diagram,
Power requirements & work consumed, Cavitation (separation) in a reciprocating pump,
Negative slip in reciprocating pump, Air vessels, use of it & its effect on work done,
CP
2 power consumption
Block
Applied problems based on work done power consumption for single & double acting
02
pumps
Applied problems based on work done, power consumption for single & double acting
pumps by considering the effect of acceleration & frictional head.
Centrifugal Pump: Introduction, Advantages of Centrifugal pumps over reciprocating
pumps, Component Parts of a Centrifugal Pump, Working of a Centrifugal pump, Work
CP
done by Impeller, Heads of centrifugal pump, Losses & Efficiencies, Minimum starting
3
Block
speed, Specific speed, Multistage pumps, Pumps in parallel, NPSH, Cavitation, Priming.
03
Applied Problems based on velocity diagram & work done, heads & efficiencies, specific
speed.
Impulse and Reaction Turbine: Introduction, , Elements of a hydro power plant, heads
and efficiencies of hydraulic turbine, Hyd. Turbine classification, Pelton Wheel, Work
done and Efficiencies of pelton Wheel, Working Proportions of Pelton Wheel, Design of
pelton turbine runner, Reaction turbine, Francis Turbine, work done and Efficiencies of
Francis Turbine, Working proportions of francis turbine, Design of Francis Turbine,
4-1
Kaplan turbine, Working proportions of Kaplan turbine, Draft Tube theory, Performance
CP
under Specific Conditions, Cavitations in turbines. Selection of turbines.
Block
Applied Problems based on velocity diagram; work done & efficiency of Pelton wheel,
04
Francis turbine &Kaplan turbine.
Applied Problems based on specific speed.
T01051-T1: Chapters & Topics: - 1 to 16, 18 to 20, 25 to 29
Topics: 17.6, 17.7, 17.9, 17.11 to 17.16, 21.9, 21.10, 21.17, 21.20 to 21.23, 22.1, 22.2,
22.4, 22.5, 22.6. 23.9, 23.10, 24.5, 24.10, 24.11, 24.16, 24.17, 24.21
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
Hydraulic and Fluid Machines
T01051-TB1 Dr. P.N. Modi
Dr. S.M. Seth
2000
Standard Book House Delhi-6
Page 93
T01051-TB2
Reference-Books
Fluid Mechanics & Hydraulic Machines
T01051-RB1
Dr. R. K.Bansal
T01051-RB2
CD / DVD
T01051-CD1
T01051-CD2
Web Links
T01051-WL1
T01051-WL2
2003
Laxmi Publications (p) Ltd.
Page 94
T01052: MECHANICS OF MACHINES - II
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01052 Mechanics of Machines - II
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge

Learning Objectives
10+2 or HSC or ISC

Understand different types
vibrations and their effects.

Understand the working of Gyroscope
and gear train
of
UNITS
UN Name of the Unit
1-1 Toothed Gearing
1-2 Balancing
2-1 Gyroscope
2-2 Virbration
3-1 Torsional Vibrations
3-2 Forced Vibrations
4-1 Transverse Vibrations of Beam
4-2 Damped Vibrations
CSs
Questions
of 1' SAQ in CA and
CSs
01-20
of 1' SAQ in CA and
CSs
21-40
of 1' SAQ in CA and
CSs
41-60
of 1' SAQ in CA and
CSs
61-80
DETAILS SYLLABUS
CP
Block
1-1 Toothed Gearing: Introduction to: - Bevel gear, Helical Gear, Worm and warm wheel, CP
Page 95
Rack and pinion, Spiral gears. Gear Trains: Type of gear trains: - Simple gear trains, Block
Compound gear trains, Epicyelic gear trains, Reverted gear trains; Power transmission by 01
gear trains on parallel shafts; Torque on gear trains. (Applied problems on Epicyclic and
Reverted gear trains.)
Balancing: Introduction, Balancing of rotating masses: - Balancing of several masses
rotating in the different planes, Balancing of reciprocating masses: - Static and Dynamic
balancing, Primary and Secondary Unbalanced forces of Reciprocating masses, Partial
1-2 balancing of Unbalancing Primary force in a reciprocating engine. Effect of partial
balancing of reciprocating parts of two-cylinder locomotive, balancing of multi cylinder
engine. (Applied problems on Balancing of several masses in different planes and
Problems on Balancing of reciprocating masses for two cylinder locomotive)
Gyroscope: Gyroscopic couple, Vector representation of torque and angular
Momentum, steady rectangular precession, vector treatment; Steady Conical
2-1
precession; Motion involving steady precession; Application of Ship's stabilization.
(Applied problems on Naval Ship only)
Virbration: Vibration Mechanism, Causes of Vibrations, Effect of Vibrations, Types of CP
vibratory
motions, Types of free vibrations, Different equations of motion, Free Block
vibrations of Springs in series and parallel, Simple Pendulum, Compound Pendulum, 02
2-2
Single Degree of freedom.
(Problems on effective stiffness of springs in series and Parallel & Derivations for the
natural frequency of vibrations)
Torsional Vibrations: Natural frequency of Torsional vibration, Single rotor system,
Rotor at the end, Rotor in the middle, Effect of Inertia of shaft, Two rotor system, Three
3-1
CP
rotor system, Torsionaly equivalent shafts, Geared system. (Applied problems on Two
Block
Rotor & Three Rotor system and for geared system)
03
Forced Vibrations: Introduction, Forced vibrations with constant harmonic excitation,
3-2
Periodic force transmitted to support, Periodic movement of the support.
Transverse Vibrations of Beam: Natural frequency of Transverse vibration, Single
concentrated load, Energy method for several concentrated load, Dunkerley’s empirical
method for several constricted load. Whirling of shafts, critical speed.
(Problems CP
on Energy method, Dunkerley’s method and on Whirling of shaft)
Block
Damped Vibrations: Introduction to: - Viscous damping, Colomb damping, Solid 04
4-2 damping, nterfacial damping, Free vibrations with Viscous damping, Over damped
system, Critically damped system, Under damped system.
T01052-T1: Chapters & Topics: - 1 to 9, 10.4 to 10.25, 11.8 to 11.12, 12, 13, 14.11, 15, 16, 17.5,
17.6, 18.8, 18.18, 19.
T01052-T2: Chapters & Topics: - 1 to 11, 12.1 to 12.22, 12.25, 12.26, 13.10, 14.4, 14.9 to 14.11, 15
to 20, 22.12, 22.13, 23.9, 23.10, 25, 26.
4-1
LR Code
Title
Author
Edition
Year
ISBN
Publisher
2002
0-07-460320-5
Tata M. Hill
S. CHAND
Text-Books
Theory of Machine
S.S. Rattan
T01052-TB2 Theory of Machine
T01052-TB1
2004
Page 96
R.S. Khurami & J.K.Gupta
Reference-Books
T01052-RB1
T01052-RB2
CD / DVD
T01052-CD1
T01052-CD2
Web Links
T01052-WL1
T01052-WL2
Page 97
T01053: COMPUTER SCIENCE
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01053 Computer Science
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Write, execute and debug programs

10+2 or HSC or ISC
in different languages
computer system
on
the
UNITS
UN Name of the Unit
1
CSs
CP Block 01
C Programming
2-1 Fundamentals of Computer Network
2-2 Fundamentals of Internet
3-1 Operating System Fundamentals
3-2 Operating System Concepts
4-1 Object Oriented Programming
4-2 Visual Basic
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Block
C Programming: C Fundamentals :The C character set, Constants, Variables & keywords CP
1-1
,types of c constant, rules for constructing integer constant, rules for constructing real Block
Page 98
constant, rules for constructing character constant, types of c variables , rules for 01
constructing variable names, c Keywords, type Declarations instruction, arithmetic
instruction ,hierarchy of operations, the first c program, control instruction in c
Operators &: Arithmetic operators, Unary operators, Relational & Expressions Logical
operators, Assignment operators, and The Conditional operator.
Data input & output: The get char & put char functions, The scanf & printf Functions,
The gets & puts functions.
Control Statements : loops—the while loop, the for loop, the odd loop, the break
statement, the Do-while loop
The case control structure—decision using switch
Functions: What is function, passing values between functions, scope rule of functions,
calling convention, function declaration and prototypes, call by value and call by
reference, recursion.
Program Structure: Integer—long and short, integers—signed and unsigned, char-signed and unsigned, floats and doubles, storage classes in c—Automatic storage class,
register storage class, Static storage class, External storage class
Arrays: What are arrays, More on a arrays—array initialization, bound checking, passing
array elements to a function, passing entire array to a function, initializing a 2dimensional array, memory map of a 2- dimensional array
Pointers: An introduction tp pointers, pointer notification, pointer to An array, array of
pointers.
Text book: T1
Note: Programs will be very simple or primary in this Module because this syllabus is for
marine engineers & not for software professionals. Programs covered in computer
science practicals(T01056) should be referred .
Fundamentals of Computer Network:
2-1 Uses of computer network, Network hardware, Network software, Reference Models
Text book: T3
CP
Fundamentals of Internet : introduction to internet, URL, protocols and ports ,Internet Block
2-2 services
02
Text book: T4
Operating System Fundamentals : introduction to computers, GUI and Windows
Desktop OS, getting started with Windows 95,working with windows, secure your work
3-1
with windows
Text book: T4
Operating System Concepts: Operating system functions: What is an operating system,
different services of the operating system, User’s view of operating system (page no.55),
The kernel, booting
Process management: Introduction, what is process, process states, process state
CP
transitions, multitasking.(5.19.4)
Block
Memory
management
(MM):
Introduction,
fixed
partitioned
memory
03
3-2 management(8.3.1), variable partitions(8.4.1), non- contiguous allocation- General
concepts, paging(basic concept), segmentation(basic concept),
virtual Memory
management system(8.9.1.2)
Operating system: security and protection, Introduction, security threats, attacks on
security
File system: Block diagram, meaning of device driver
Text book: T2
Page 99
Object Oriented Programming: OOP concepts and fundamentals
(c++ programming is not included—only concepts)
Why do we need object oriented programming?
CP
4-1 Characteristics of object oriented languages
Block
Objects, classes, inheritance, re usability, creating new data types, polymorphisms and 04
overloading, C++ and C
Text book: T6
Visual Basic:
Visual basic –the language: variables, constants, procedures, functions, arguments,
function return values, control flow statements, loop statements
Form- properties, methods, events, menu editor
Basic VB controls- text box, list box, combo box , scroll bar, option button, check
box(properties, methods , events)
The common dialogs control- color common dialog box, font common dialog box, Image
list control
Multiple document interface-Parent and child menus, accessing child forms
Modules and class modules –in process and out process servers, private& public
Functions, class module properties, creating object variables
The active data objects- the ADO data control, ADO object model, establishing a
connection
ActiveX controls:
Introduction to ActiveX control, ActiveX controls in visual basic,
creating an ActiveX control
ActiveX document: In-process and out-of process components, introduction to ActiveX
document, The user document object
ActiveX DLL: Introduction to ActiveX DLL, creating ActiveX DLL
Text book:T5
T01053-T1: Units 7, 9, 10-24
T01053-T2: Unit 3.3, 3.4, 3.6, 3.7, 5.3, 5.4, 5.7 to 5.18, 8.2, 8.8, 9.4 to 9.11
T01053-T3: Unit 1.5 to 1.9, Unit 2-9
T01053-T4: Units 6-14, 16, 19-33
T01053-T5: Units 1, 2, 6, 7,9, 11-14, 16, 17, 19-22
T01053-T6: Units 2-16
LR Code
Text-Books
T01053TB1
T01053TB2
T01053TB3
T01053TB4
T01053TB5
Title
Author
Edition
Year
ISBN
Publisher
Let us C
Kanetkar
Operating System
Achyut Godbole
Computer Networks
Andrew s. Tanenbaum
Computer fundamentals and Windows
with Internet Technology
N.Krishnan
Mastering Visual
Basic 6
Evangelos Petroutsos
4th revised
edition 2002
Seventeenth
reprint 2004
Fourth
Edition
Reprint August
2001
BPB publications
Reprint
2002
BPB publications
Tata McGraw-hill
publishing Company
PHI
Prentice Hall of India
Scitech publications
Page 100
T01053Object Oriented programming in C++
TB6
Robert Lafore
Reference-Books
i) C language
T01053ii) C++ Language
RB1
Balguruswamy
i) Mastering VB in
21 days
T01053ii) Desktop
RB2
applications
with VB6-partI,II
CD / DVD
T01053CD1
T01053CD2
Web Links
T01053WL1
T01053WL2
Revised 4th
Edition 2002
Techmedia
techmedia
Aptech computer
education
Page 101
T01054: ELECTRICAL MACHINES - II
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01054 Electrical Machines - II
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives

Understand the working and parallel
operation of alternators.

Understand the principle and
applications of induction motors
UNITS
UN
1-1
1-2
1-3
1-4
2-1
2-2
2-3
2-4
3-1
3-2
3-3
3-4
4-1
4-2
4-3
4-4
Name of the Unit
Construction of Three Phase Alternators
E.M.F. Equation of Alternators
Characteristics of Alternators
Parallel Operation of Three-Phase Alternators
Rotating Magnetic Field
Three Phase Synchronous Motors
Methods of Starting Synchronous Motor
Merits and Limits of Synchronous Motors
Principle and Theory of 3 Phase Induction Motors
Equivalent Circuit of 3 Phase Induction Motors
Characteristics of 3 Phase Induction Motor
Speed Control of 3 Phase Induction Motor
Starting of Induction Motors
Testing of Induction Motors
Single-phase Induction Motors
Maintenance of Electrical Machines
CSs
Questions
of 1' SAQ in CA and
CSs
01-20
of 1' SAQ in CA and
CSs
21-40
of 1' SAQ in CA and
CSs
41-60
of 1' SAQ in CA and
CSs
61-80
DETAILS SYLLABUS
CP
Block
1-1 Construction of Three Phase Alternators: General arrangement of alternators, CP
Page 102
construction of salient pole and smooth cylindrical type alternators; applications, Block
advantages of stationary armature, types of stator windings (short pitch/full pitch, 01
concentric/distributed), pitch factor, distribution factor, simple numerical problems.
E.M.F. Equation of Alternators
1-2
Working principle, E.M.F. equation, frequency and simple problems.
Characteristics of Three-phase Alternators:
Alternator on Load, Armature reaction, effect of armature reaction on different load,
1-3
phaser diagram, voltage regulation, synchronous impedance method for finding
regulation, simple numerical problems.
Parallel Operation of Three-Phase Alternators:
Parallel operation of alternators, importance, necessary conditions, methods of
synchronizing
1-4 (Three dark lamp method, one dark and two equally bright lamp method,
synchroscope), synchronizing power, power triangle, load sharing, factors affecting load
sharing (effect of change in excitation, effect of change in steam supply), simple
numerical problems.
Rotating Magnetic Field: Production of rotating magnetic field in 3-phase synchronous
motor, reversal of its direction.
Three Phase Synchronous Motors: Principle of operation of 3 phase synchronous
2-2 motor, phasor diagram at no load and on load, effect of change in excitation on
armature current and p.f.( 'V' curves and inverted 'V' curves.), simple problems.
CP
Methods of Starting Synchronous Motor: Methods of starting (Damper winding, pony Block
2-3 motor, DC motor), hunting, methods of reducing hunting, synchronous motor as 02
synchronous condenser; simple numerical problems.
Merits and Limits of Synchronous Motors: Merits and de-merits of synchronous motor
2-4
over 3 phase induction motors.
2-1
Principle and Theory of 3 Phase Induction Motors
Principle and theory of three phase three - phase induction motors:
Construction of 3-phase induction motor (squirrel cage and slip- ring type), working
principle, slip, rotor frequency, rotor emf, rotor current, simple numerical problems.
CP
3-2 Equivalent Circuit of Induction Motors: Equivalent circuit of induction motors.
Block
Characteristics of Three-Phase Induction Motor: Starting torque, condition for
03
3-3 maximum starting torque, running torque, condition for maximum running torque,
torque/ slip characteristic.
Speed Control of Three-Phase Induction Motor: Speed control of 3-phase induction
3-4
motors (By changing frequency, number of poles, rotor resistance control).
3-1
Starting of 3-phase Induction Motors: Starting of 3-phase induction motors, methods of
starting (D.O.L., star/delta, autotransformer, primary resistor, rotor resistance starter).
CP
Testing of 3-phase Induction Motors: Testing of 3-phase induction motor, no load test,
4-2
Block
blocked rotor test, circle diagram, simple numerical problems.
04
1-phase Induction Motors: Construction, principle of working, methods of starting 14-3
phase induction motor (resistance split phase, capacitor split phase), and applications.
Maintenance of Electrical Machines: Maintenance of electrical machines, preventive
4-4 maintenance, breakdown maintenance, and maintenance schedule for 3-phase
synchronous machine and 3-phase induction motor.
T01054-T1 - 37.1, 37.6, 37.10, 37.12, 38.1, 38.4, 38.5, 36.1, 36.5 to 36.7, 36.9, 36.18. 39.1, 39.5,
4-1
Page 103
39.6
T01054- T2 – 37.10, 37.15, 37.22 to 37.29, 37.32, 37.34 to 37.37, 37.41, 37.42, 38.6, 38.7, 38.11 to
38.16, 38.18, 34.5 to 34.7, 34.13, 34.14, 34.16, 34.20, 34.22 to 34.24, 34.26 to 34.29, 34.31, 34.32,
34.34, 34.35, 34.37 to 34.44, 34.46 to 34.48, 34.51 to 34.53; 35.1, 35.2, 35.4, 35.10, 35.13 to 35.17,
35.19 to 35.28, 36.5 to 36.7, 36.9, to 36.21
LR Code
Title
Author
Edition
Year
ISBN
Publisher
3rd
Edition
2001
S. Chand & Company
Text-Books
Principles of Electrical Engineering
T01054-TB1 B. R. Gupta
Electrical Technology, Vol-II
B.L.Theraja
Reference-Books
Electrical Machine
T01054-RB1
Nagrath & Kothari
Electrical Machinery
T01054-RB2
P.S.Bimbhra
CD / DVD
T01054-CD1
T01054-CD2
Web Links
T01054-WL1
T01054-WL2
T01054-TB2
81-219-1142-7
S. Chand & Com.
Tata Mc-graw Hill
Khanna Publicating
Page 104
T01055: ELEMENTARY DESIGN
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01055 Elementary Design
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives

Design machinery components
UNITS
UN Name of the Unit
1-1 Procedure in Machine Design
1-2 Standardization
2-1 Failure Analysis
2-2 Design Against Static Loads
3
Strength Considerations in Design
4-1 Temporary Joints Design
4-2 Power Transmission
CSs
CP Block 01
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
1-1
CP
Block
Procedure in Machine Design: Concepts of design procedure & processes, Design
CP
synthesis, Economics consideration in design, Selection of materials in engineering
Block
design, Types of steels used in engineering design, Types of non ferrous metals used in
01
engineering design, Manufacturing considerations in machine design. Preliminary Design
Page 105
Alternative, Final Design alternative, Preliminary & Final Plans & Drawings.
Standardization: Merits and demerits, Use of Standards in design, Preferred series,
1-2 selection of preferred sizes.
(Applied problems on Preferred series)
Failure Analysis: Review of failure criteria in mechanical design, Theories of failures,
2-1 properties of materials, heat Treatment processes, BIS system of designation of steels,
deformation, wear, corrosion.
CP
Design against Static Loads: Design against static loads causing tension, compression, Block
2-2 shear, bending, and torsion.
02
Strength Considerations in Design: Strength of materials, Reliability, Influence of size,
Stress concentration, Strength under combined stresses, static loads, Impact loads,
CP
Repeated loads, Completely reversed loads, Alternating loads, Cyclic and combined
3
Block
loads, Fatigue strength. Dynamic Stresses. Design of Riveted and welded joints. Design
03
of Welded machine parts.
(Applied problems on riveted and welded joints )
4-1 Temporary Joints Design: Bolts & Screws, Cotter & knuckle joints, keys and couplings.
Power Transmission: Design of shafts and axles, Belt drives, chain drives, design of spur
gears. Understanding the terminologies and operations of Bevel gears, Rack and pinion,
4-2 worm and worm wheels, helical gears, Bearings, clutches and brakes
CP
(Applied problems only on shafts and axles, Belt drives, chain drives, design of spur gears
Block
)
04
T01055-T1: 5 to 7, 8.5 to 8.9, 9.11 to 9.14, 10 to 12, 13.8, 14.3 to 14.7, 15, 16, 18 to24
T01055-T2: 1, 2.27 TO 2.36, 3.7 to 3.21, 4.16 to 4.22, 4.24, 5.16, 6.18 to 6.23, 7, 8, 9.15 to
9.20, 10.13 to 10.15, 10.20 to 10.24, 11, 12, 14 to 17, 19, 20, 22 to 27, 29 to 32
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
Machine Design
V. B. Bhandari
Machine Design
T01055-TB2
Khurmi & Gupta
Reference-Books
Machine Design
T01055-RB1
Shigley
T01055-RB2
CD / DVD
T01055-CD1
T01055-CD2
Web Links
T01055-WL1
T01055-WL2
T01055-TB1
Tata McGraw Hill
S. Chand & Co.
Tata McGraw Hill
Page 106
T01056: COMPUTER SCIENCE LAB
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01056 Computer Science Lab
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives

Write, execute and debug programs
in different languages on computer
DETAILS SYLLABUS
1-1
1-2
1-3
1-4
1-5
1-6
1-7
1-8
2-1
CP
Block
Questions
a) Evaluation of a Polynomial for single and multiple values.
Students
b) Lowercase to uppercase text conversion (using while, do-while, for
have to
statements)
submit
c) Averaging a set of numbers.
‘Report of
Activities’
a) Repeated averaging of sets of numbers
in CA and
b) Calculating averages for different sets of numbers using nested
face Viva
loops.
for end
c) Programs illustrating switch & break statements
exam on
d) Programs of lowercase to uppercase character conversion using CP
function.
Block these units.
Largest & Smallest of asset of numbers using function.
01 CSs
a) Calculating factorial of a +ve number using function.
01-53
b) Calculating factorial of a +ve number using recursion.
Generating Fibonacci numbers using static variables.
Programs illustrating relationship between array elements & their
addresses.
Adding two tables of numbers.
Arranging an array of numbers in an order using different sorting
algorithms.
a) To create a simple applet having a level and a command button on a CP
form.
Block
Students
have to
Page 107
2-2
2-3
2-4
2-5
2-6
2-7
2-8
b) To create a simple multiple document interface (MDI) with working 02 CSs
submit
menus.
54-106 ‘Report of
Activities’
a) To add controls to the Toolbox.
in CA and
b) To design a simple class object.
face Viva
To create a dialog box.
for end
To create Active X document.
exam on
To create Active X controls.
these units.
To create Active X DLLs.
To use the WIN32 API in an application.
To design your own home-page in HTML
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01056-TB1
T01056-TB2
Reference-Books
T01056-RB1
T01056-RB2
CD / DVD
T01056-CD1
T01056-CD2
Web Links
T01056-WL1
T01056-WL2
Page 108
T01057: ELECTRICAL MACHINES LAB
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01057 Electrical Machines Lab
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives

Understand the characteristics of
motors, generators, transformers and
rectifiers.
DETAILS SYLLABUS
CP
Block
Questions
1-1 Determine the Phase Sequence of given three phase supply.
Students
have to
Determination of regulation of 3-phase alternator by synchronous
1-2
submit
impedance method.
‘Report of
1-3 Parallel operation of 3 - phase Alternator.
Activities’
Study of ‘V’ curves and inverted ‘V’ curves of 3-phase synchronous
1-4
in CA and
motor.
CP
Study the slip-torque characteristics of 3 phase Induction motor and Block face Viva
1-5
for end
find out the full load slip.
01 CSs
exam
on
01-53
Compute full load current, p.f., slip, torque, input, output, and
1-6
these units.
efficiency of 3 phase Induction motor from circle diagram.
Study the slip-torque characteristics of 1- phase Induction motor by
1-7
brake test.
1-8 Study Parallel operation of 1- phase transformer.
2-1
2-2
2-3
2-4
Study of different transformer connections.
Students
have to
Observation of waveform of magnetizing current.
CP
submit
Study of synchro Transmitter- Receiver
Block ‘Report of
Study of 1 - phase controller.
02 CSs
Perform load test on 6 pulse- 2-way bridge rectifier and obtain the 54-106 Activities’
2-5
in CA and
characteristics curves.
face Viva
2-6 Study of Transformer differential relay.
Page 109
2-7 Study the dismantled parts of DC machines.
2-8 Study the dismantled parts of AC machines.
for end
exam on
these units.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01057-TB1
T01057-TB2
Reference-Books
T01057-RB1
T01057-RB2
CD / DVD
T01057-CD1
T01057-CD2
Web Links
T01057-WL1
T01057-WL2
Page 110
SEMESTER 06
T01061: MARINE IC ENGINEERING – I
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01061 Marine IC Engineering – I
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives

Understand t he working of internal
combustion engine.
UNITS
UN Name of the Unit
1-1 Performance Characteristics of I.C. Engine
1-2 General Description of I.C. Engines
2-1 Scavenging and Supercharging System
2-2 Supercharging Arrangements
3-1 Combustion of Fuels in I. C. Engines
3-2 Compression Pressure Ratio
4-1
Cooling of I.C. Engines
4-2
Safety and Prevention of Mishaps in I.C. Engines
4-3
Special Features of I.C. Engines
CSs
Questions
of 1' SAQ in CA and
CSs
01-20
of 1' SAQ in CA and
CSs
21-40
of 1' SAQ in CA and
CSs
41-60
of 1' SAQ in CA and
CSs
61-80
DETAILS SYLLABUS
CP
Block
Page 111
Performance Characteristics of I.C.Engine: 4-Stroke and 2-Stroke cycles; Deviation form
Ideal Condition in actual engines; Limitation in parameters, Timing Diagrams of 2-Stroke
and 4-stroke engines. Comparative study of slow speed, medium speed and high speed
1-1
diesel engines - suitability and requirements for various purposes Mean Piston speed,
M.C.R. & C.S.R. ratings. Practical heat balance diagrams and thermal efficiency, Thermal CP
Stresses.
Block
General Description of I.C. Engines: General Description of various Marine Diesel Engine 01
1-2 Such as M.A.N., Sulzer, &W etc. Constructional Details of I.C. Engines: Principal
Components: Jackets and Liners, Cylinder heads. Pistons, Cross heads, Connecting rods,
Bed Plates, A-frames, Welded construction for bedplates & frames. Tie rods.
Scavenging and Supercharging System: Scavenging arrangements in 2-Stroke engines;
Air charging and exhausting in 4 stroke engines; Various types of Scavenging in 2 Stroke
2-1 engine; Uni-flow loop, cross loop and reverse loop scavenging, their merits and
demerits, Scavenge pumps for normally aspirated engines under piston scavenging, CP
Scavenge manifolds.
Block
Supercharging Arrangements: Pulse and constant pressure type; Their relative merits 02
2-2 and demerits in highly rated marine propulsion engines. Air movements inside the
cylinders. Turbocharger and its details. Two stage, Un-cooled, radial turbochargers.
Combustion of Fuels in I. C. Engines: Grades of suitable fuels. Preparation of fuels for
3-1 efficient combustion. Fuel atomization, Ignition quality, Fuel injectors, and its details.
CP
Ignition delay, after burning.
Block
Compression Pressure Ratio: Compression pressure ratio and its effect on engines.
03
3-2 Reasons for variation in compression pressure and peak pressure, Design aspects of
combustion chambers, Control of NOX, SOX in Exhaust emission.
Cooling of I.C. Engines: Various Cooling media used; their merits and demerits, cooling
4-1 of Pistons, cylinder jackets and cylinder heads, bore cooling, coolant conveying
mechanism and systems, maintenance of coolant and cooling systems.
Safety and Prevention of Mishaps in I.C. Engines: Causes and prevention of crank case CP
4-2 explosions, and Scavenge fires. Detection of the same and safety fittings provided to Block
prevent damage, Uptake fire, Starting air line explosion.
04
Special Features of I.C. Engines: Development of long-stroke Engines, Implication of
4-3 stroke-bore ratio, Development in materials in construction & heat treat in M.E.
Components.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01061-TB1
Prin.&Pract. Marine of Diesel Engg.
D.K. Sanyal
T01061-TB2
Reference-Books
Internal Combustion Enginers
T01061-RB1
V. Ganesan
Bhandarkar Publishers
0-07-462122-x
Tata M.Hill
Page 112
T01061-RB2
Pounder’s Marine Diesel Engg
Doug Woodyard
7th
Edition
0-7506-2583-x Butterworth
Heinemann
CD / DVD
T01061-CD1
T01061-CD2
Web Links
T01061-WL1
T01061-WL2
Page 113
T01062: MARINE BOILER & STEAM ENGINEERING
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01062 Marine Boiler & Steam Engineering
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives

Understand the fundamentals of
boiler steam engines and steam
turbines.
UNITS
UN Name of the Unit
CSs
1-1 General Considerations Governing the design of
CP Block 01
Boilers
1-2 Smoke & Water Tube Boilers
CSs
1-3 Waste Heat Boilers
01-20
1-4 Boiler Mountings
Questions
of 1' SAQ in CA and
2-1
2-2
2-3
2-4
Operation, Care and Maintenance
Oil Burning
Reduction Gears
Condensers
CSs
21-40
3-1
3-2
3-3
3-4
Reciprocating/steam engines
Layout of Plant
Selection of Materials
Constructional Details
CSs
41-60
4-1 Lubrication of Turbines
4-2 Operation and Maintenance
4-3 Alignment Checking
CP Block 02
CSs
61-80
of 1' SAQ in CA and
DETAILS SYLLABUS
Page 114
CP
Block
General Considerations Governing the design of Boilers: Types of marine boilers,
comparison of smoke tube and water tube boilers; Destructive and Non destructive
tests on plates, rivets, welded seams, classification societies requirements for boilers
construction.
Smoke & Water Tube Boilers: Various types in marine use, Principal dimensions and
staying of flat surface of multitubular cylindrical Boilers. vertical Auxiliary Boilers.- 2Hrs
General description with sketches of principal types of boilers in marine use,
1-2
Superheater, Economizer, Air pre-heater and Steam pre-heater; Circulation and use of
Unheated Down comers in highly rated boilers; Superheat temperature control, CP
Attemperators and De-superheaters.
Block
Waste Heat Boilers: Waste heat recovery calculations. Lamont exhaust gas boiler, 01
1-3 Scotch composite Boiler, Cochran exhaust gas and composite boiler Spanner marine
exhaust gas and composite boiler, Forced Water Circulation boiler, Double evaporation
Boiler.
Boiler Mountings: Safety Valves : Improved High Lift, Full lift and full Bore type: Gauge
glass - Ordinary plate type and remote Indicator Automatic feed regulator three
1-4
element High and low water level alarms, Main Steam stop valves, Retractable type Soot
Blower etc.
1-1
2-1
2-2
2-3
2-4
Operation, Care and Maintenance: Precommissioning procedures Hydraulic tests,
steam raising and Operating procedures, Action in the event of shortage of water.
Blowing down of boiler laying up a boiler; General maintenance, External and internal
tube cleaning Tube renewals etc. maintenance inspection and survey of boilers.
Purposes of refractory, types of refractory and reasons for failure.
Oil Burning: Procedure of liquid fuel burning in open furnace. Various types of atomizer.
Furnace arrangement for oil burning. Boiler Control System i.e master control, fuel CP
control, air control and viscosity control.
Block
Reduction Gears: Reduction ration, type of gear teeth, gear construction – various 02
arrangements of marine gearing, gear defects, flexible coupling, and quill shaft.
Condensers: Shapes and types of condensers, constructional details, location & method
of securing, working principles, contraction and expansion allowances, leak test. Effect –
change of temperature, circulating water quantity change of main engine power,
condenser surface.
Reciprocating/Steam Engines: History of multiple expansion marine reciprocating
engines & steam turbines. Description of different types of steam turbines.
Layout of Plant: General layout of plant & description of a modern geared steam
3-2
turbine installation including auxiliaries in modern use.
CP
Selection of Materials Materials used in various components like blades. Rotors,
Block
3-3
castings, sealing glands, gears etc & their justification.
03
Constructional Details: Types of blades, method of fixing, solid built-up & drum rotor for
impulse and reaction turbines, castings for Hp and LP impulse and reaction turbines,
3-4
diaphragms, nozzles, glands, carbon glands, labyrinth packing glands, main bearings and
thrust bearings.
3-1
Lubrication of Turbines: Suitable oils and their properties, lubrication of main bearings, CP
4-1 thrust bearings and gears. Gravity and pressure lubrication – oil system and emergency Block
lubrication arrangement.
04
Page 115
Operation and Maintenance: Turbine drain system, turbine gland steam, warming
through a turbine plant, control of speed and power of propulsion, throttle valve control
and nozzle control, emergency controls, emergency operation of turbines, vibration in
marine steam turbine, steam turbine losses. Breakdown and fault finding.
Alignment Checking: By bridge gauge and poker gauge, allowances for expansion,
4-3
sliding foot, thrust bearing static and dynamic balancing.
Topics included in Syllabus:
T01062-T1: All
T01062-T2: All
4-2
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
Marine Steam Boilers
J.H.Milton
Marine Boilers
T01062-TB2
J.T.H.Flagan
Reference-Books
Steam Turbine Theory& Practice
T01062-RB1
W.J.Kearton
T01062-RB2 Marine Engg. Knowledge, Vol.8
CD / DVD
T01062-CD1
T01062-CD2
Web Links
T01062-WL1
T01062-WL2
T01062-TB1
5th
Sterling Book Depot
3rd
Sterling Book Depot
7th
Sterling Book Depot
3rd
Sterling Book Depot
Page 116
T01063: MARINE AUXILIARY MACHINE -I
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01063 Marine Auxiliary Machine -I
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives

Understand the operation of various
auxiliary machineries.
UNITS
UN Name of the Unit
1-1 Engine Room Layout
1-2 Bunkering Procedure Precautions
1-3 Blowers and Compressors
CSs
CP Block 01
CSs
01-20
2-1 Evaporators
2-2 Filters
2-3 Pollution Prevention
CP Block 02
3-1
Deck Machinery
3-2 Heat Exchangers
3-3 Oil Purification
3-4
Pumps
CP Block 03
4-1
4-2
4-3
4-4
4-5
Steering Gears
Shafting
Dry Docking
Other Ships Boards Equipments
Stabilizers
CSs
21-40
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Page 117
Block
Engine Room Layout: Layout of main and auxiliary machinery in engine rooms in
different ships. Layout of Pipe lines, Pipe material, Piping arrangement for steam, bilge,
1-1 ballast and oil fuel systems, Lub oil and Cooling system lines with various fittings,
Domestic fresh water and sea water and sea water hydrophore system. Colour code and
CP
safety fittings of bunkering procedure and in the pipe lines,etc.
Block
Bunkering Procedure Precautions: Bunkering procedure, precautions taken, line
1-2
01
diagram for H.F.O. & D.O.
1-3 Blowers and Compressors: Operational and constructional details of blowers and
compressors used on board ships. Uses of compressed air.
Evaporators: Construction and Operation of different types of evaporators. Fresh Water
2-1 generators and distillers. Conditioning arrangement of distilled water for drinking
purpose. Use & Care Maintenance of pumps of various types.
Filters: Strainers and filters, types of marine filters, auto cleaner and Duplex filters,
2-2
CP
Static filters. Priming and core maintenance of filters.
Block
Pollution Prevention: Uses of coalesces, baffles, girds, STOKES Law; Static and turbo
02
separators, Oily bilge Separators their construction and operation, prevention of oil
2-3
pollution and various International requirements MARPOL Convention, OLM & OCM,
Introduction of IMO Conventions, regulation, rules & arrangement.
Deck Machinery: Various types of deck machinery used in ships e.g. Winches, and Wind
3-1 lass, their requirements, Operation and maintenance, Deck Cranes. Hydraulic deck
machinery; hydraulic motors, line filters and systems.
Heat Exchangers: Tubular and plate type, reasons of corrosion, tube removal, plugging,
3-2
and materials used. Job requirement for a watch keeping Engineer.
CP
Oil Purification: Theory of oil purification, various methods of oil purifications, principles
Block
of operation and construction of different Centrifuges for heavy fuel and lubricating oil
03
3-3
like FOPX system, Self-destining etc. Uses of Homogenizers. Use of settling/service tanks
& precautions taken before entering / cleaning tanks.
Pumps: Types of pumps for various requirements, their characteristics and application
3-4 in ships. Centrifugal Pumps, Gear pumps, Screw Pumps and Reciprocating pumps, Care
and Maintenance of pumps.
4-1
4-2
4-3
4-4
4-5
Steering Gears: Operation and Constructional details of various types of steering
machinery Telemotor systems, transmitters and receivers Variable Delivery Pumps used
in steering gears, axial and radial displacement types. Hunting action of steering gear.
Emergency steering arrangement. Safe Matic Steering Gear with redundancy concept as
per SOLAS. Care and maintenance of steering Gear Plants.
Shafting: Methods of shaft alignment, constructional details and working of Thrust
blocks. Intermediate Shaft bearing and Stern tube bearing. Oil water lubricated Stern
CP
Tubes. Sealing Glands. Stresses in Tail End. Intermediate and Thrust Shafts.
Block
Dry Docking: Methods of dry of docking of ships, Inspection and routine overhauling of
04
underwater fittings and hull. Measurement of clearances and drops. Removal and fitting
of propellers. (with and without key)
Other Ships Boards Equipments: Incinerators Sewage Treatment Plant, Engine room
crane. Chain blocks, tackles, Anchor chain its testing and survey requirements.
Stabilizers: Different types of ships stabilizer. Bow Thrusters, Hull protection
arrangements. Overhauling procedure for various Aux. M/c., Bad weather precaution
taken, and maintenance of E.R. Stores etc. Importance of LO/FO testing, Method of
Page 118
testing etc. Use of oil mist detector.
T01063-T1: All
T01063-T1: All
LR Code
Title
Author
Edition
Year
ISBN
Publisher
2nd
Edition
7th
Edition
0-7506-2530-9
Butterworth Heinemann
0-7506-4398-6
Text-Books
Introduction to Marine Engineering
D.A. Taylor
Marine Auxiliary Machinery
T01063-TB2
H D McGeorge
Reference-Books
T01063-RB1
T01063-RB2
CD / DVD
T01063-CD1
T01063-CD2
Web Links
T01063-WL1
T01063-WL2
T01063-TB1
Page 119
T01064: SHIP CONSTRUCTION
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01064 Ship Construction
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives

Know various parts of a ship and

Understand the stresses to which
structural parts of a ship are
subjected to.
UNITS
UN Name of the Unit
1-1 Ships Terms
1-2 Stress in Ship's Structure
1-3 Sections and Materials Use
2-1 Bottom and Side Framing
2-2 Fore-End Arrangements
2-3 Bulk Heads & Deep Tanks
CSs
CP Block 01
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
3-1 Shell and Decks
3-2 After-End-Arrangements
Loadline and Tonnage
4-1
Ship Types
4-2
Offshore Technology
4-3
Ship Surveys
4-4
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
Page 120
DETAILS SYLLABUS
CP
Block
Ships Terms: Various terms used in ships Construction with reference to Ship's
1-1 parameter e.g. L.B.P., Moulded Depth, Moulded draught etc. General Classification of
Ships.
Stress in Ship's Structure: Bending, Shear, Hogging, Sagging, Racking, Pounding, Panting CP
1-2
etc. and strength members to counteract the same.
Block
Sections and Materials Use: Types of section like Angles, Bulbs Plates, Flanged beams 01
1-3
used in ships construction Rivetting and Welding, Testing of welds. Fabricated
components.
Bottom and Side Framing: Double bottoms, Water tight floors, solid and bracket floors,
2-1 Longitudinal framing keels, side framing like Tankside brackets, Beams Knee Web frame,
etc.
Fore-End Arrangements: Stem construction, arrangements to resist panting, panting
CP
2-2 stringers, Forepeak - Collision bulk heads. Bulbous bows. Anchor and cable
Block
arrangements
02
Bulk Heads & Deep Tanks: Water tight bulkheads, Arrangements of plating and
2-3 stiffeners. Water tight sliding doors, Water tight openings through bulkheads for electric
cables pipes and shafting, Deep tank for oil fuel or oil cargo corrugated bulk heads.
Shell and Decks: Plating system for shells Deck plating and Deck girders discontinuities
3-1 like hatches and other openings, supporting and closing arrangements, mid ship Section CP
of ships.
Block
After-End-Arrangements : Types of Stems, Stern frame and rudder Type of rudder, 03
3-2
supporting of rudder, Locking pintle Bearing pintle Pallister bearing
Loadline and Tonnage: Definition of freeboard and various assigning conditions, list of
closing appliances, Loadline Surveys, Tonnage regulations, calculation as per 1969
convention, details of markings permanently carved.
4-1
Shipyard Practice: Layout of a Shipyard, Mould loft, fabrication of assembly
subassembly units in construction role of Surveyors in construction of Ship Keel laying,
Launching Seatrial.
Ship Types: Tankers, bulk carriers container ships, LNG, LPG and chemical carriers, Lash CP
4-2
ships, Passenger ships, Dredger, Tugs etc. -constructional details and requirements.
Block
Offshore Technology: Drilling ships and Platforms, Supply/Support Vessels-types and 04
4-3 constructions, Dynamic Positioning, Deep Sea diving system, fire fighting arrangement,
Cable laying vessel
Ship Surveys: Survey rules, Functioning of ship classification Societies, Surveys during
construction, Periodical surveys as per statutory regulations, retention/'suspension of
4-4
class of ship, constructional features and rule guidelines for a merchant vessel as per
Marpol regulations, IBC and IGC code
T01064-T1: Chapters 1 to 10
T01064-T2: Part Page Nos.
1
10 t0 25
2
35to58
4
99 to 144
5
147 to 253
Page 121
7
316 to 328
Topics Not included in Syllabus:
T01064-T1: Chapters 11 & 12 only
T01064-T2: Part Page Nos
1
1 to 9
2
27 to 34
3
63 to 96
4
Nil
5
Nil
6
255 to 309
7 313 to 315 and 329 to 333
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
Reed’s Ship Construction
T01064-TB1 Students
E.A.Stokoe
Ship Construction
T01064-TB2
D. J. Eyres
Reference-Books
Merchant Ship Construction
T01064-RB1
D. A. Taylor
T01064-RB2
CD / DVD
T01064-CD1
T01064-CD2
Web Links
T01064-WL1
T01064-WL2
for
Marine Reprint Adlard
2005
London
Coles
Nautical,
Kemp and Young
3rd
Edition
Page 122
T01065: MARINE ELECTRICAL TECHNOLOGY
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01065 Marine Electrical Technology
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives

Know various parts of a ship and

Understand the stresses to which
structural parts of a ship are
subjected to.
UNITS
UN Name of the Unit
CSs
CP Block 01
1-1
Power Generation
1-2
Alternative Source of Power
2-1 Distribution
2-2 Motor & Control Equipments
2-3 Miscellaneous Marine Electrical Equipment
Alarm system
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
3-1 Maintenance of Electrical Systems, Fault
3-2
Finding & Repair
Safe Electrical Practice
CSs
41-60
CP Block 02
4-1
Special Electrical Practice
4-2
Special Electrical Practice for Oil, Gas and
Chemical Tankers
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
Page 123
DETAILS SYLLABUS
CP
Block
Power Generation: Merits & Demerits board of A.C. & D.C. on board; Rules and
regulations governing electrical machineries on ships; Different alternator Excitations –
Systems on board – (indirect, Direct ‘static excitations, Brushless generator construction
1-1 & operational diagram. Automatic Voltage Regulator (Explanation with block diagram,
Main components in AVR). Basic Concept of Preferential tripping of non-essential load in
generators. Understanding procedure of Paralleling and synchronizing of generators
CP
(Load sharing in generators). Basic Concept of Droop of governors in generators.
Block
Alternative Source of Power: Emergency Generator & Different Starting method
01
including auto-start, emergency batteries construction and its different types (Lead-Acid
& Ni-Cd) & its duties, Location of emergency power, Different Emergency loads (taken
1-2
from Emergency switchboard), Rules & Regulation, emergency power, Maintenance of
emergency power source on board. Shore Supply – Specifications as per Voltage /
frequency, precautions, while taking shore supply.
Distribution: Different electrical diagram (Block, Wiring & Circuit diagrams) and their
uses, electrical signals. Type of Distribution, Distribution network on board; Main &
emergency switch board, construction, different Switch gear & protective devices,
2-1
Grounded and Insulated neutral system, precautions adopted in High Voltage
distribution system. Cables and its insulation properties. Different classes of cable
insulations.
Motor & Control Equipments: Types of marine motor, types of enclosures, protective CP
2-2 devices on motors, motor characteristics curves, sequential starting (e.g. Refrigerating Block
plants, automatic fired boiler).
02
Miscellaneous Marine Electrical Equipment Alarm System: Engine Room Telegraph,
Rudder Angle Indicator, R.P.M. & Revolution Counter, Centralized Salinity Indicator,
2-3 Watertight door operation, Alarm system (types, supply) on board’s oxygen analyzer,
High & low level arms, Navigational lights, Emergency Radio Operation, Electrical Deck
auxiliaries.
Maintenance of Electrical Systems, Fault Finding & Repair: Type of faults & indications
on Generator, motor, & distribution systems, Different Testing equipments & meters
(uses of multimeter / megger, clamp meter, etc.), Salvaging a motor Detection of faults
3-1
on electronic circuits & cards – Indications & corrective arrangements, Necessary CP
Precautions & care while fault finding and Repair, preventative maintenance, periodic Block
surveys, spares requirement. Generator alternator maintenance.
03
Safe Electrical Practice: Safe watch-keeping, points to check on electrical machineries,
3-2 Switch gears & equipments, microprocessor control and maintenance electrical fire
fighting, precautions against electric shock and related hazards.
Special Electrical Practice: Rules and Regulations & Operation of electro-hydraulic &
4-1 Electric Steering gear, Diesel-electric and Turbo electric propulsion system, pod /Azipod CP
drive unit, superconductivity applied in propulsion, Turbo alternator
Block
04
Special
Electrical
Practice
for
Oil,
Gas
and
Chemical
Tankers:
Special
electrical
practice
4-2
for oil, gas and chemical Tankers (Tanker classification, Dangerous spaces, Hazardous
Page 124
zones, Temperature class), Flame proof Ex ‘d’ and intrinsic safety Ex ‘i’, Ex ‘e’, and Ex ‘n’
equipments and their applications in zones, Maintenance of Ex-protected apparatus.
T01064-T1: Chapters 1 to 6, 8,10, 11, 13 to 15, 17 to 26
T01064-T1: Chapters 7, 9, 12, 16
T01064-T2: Nil
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
Marine Electrical Technology
T01065-TB1 Elstan A. Fernandes
II
2004
Practical marine electrical knowledge
Dennis.T.Hall
Reference-Books
T01065-RB1
T01065-RB2
CD / DVD
T01065-CD1
T01065-CD2
Web Links
T01065-WL1
T01065-WL2
II
1999
T01065-TB2
81-7366-538-9
Shroff
Publishers
&
Distributors
Witherby & Co Ltd, London
Page 125
T01066: APPLIED HEAT LAB
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01066 Applied Heat Lab
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives

Evaluate the properties of fuel oil and
lub. oil
DETAILS SYLLABUS
1-1
1-2
1-3
1-4
1-5
1-6
1-7
1-8
CP
Block
Questions
To determine viscosity
Students
have to
To determine flash point of given sample of oil.
submit
To determine the percentage of CO2, CO and Oxygen in the flue gases.
‘Report of
To determine the calorific value
Activities’
To determine coefficient of discharge and the meter Constant of
CP
in CA and
Venturimeter
Block face Viva
To determine the co-efficient of velocity, Co-efficient of Contraction
01 CSs
for end
and Co-efficient of discharge of water through the various orifices.
01-53 exam on
To determine coefficient of friction for water flowing through various
these units.
pipes
To determine coefficient of discharge for water flowing through
various notches
2-1 To determine GM (Metacentric height) of a floating body
Students
have to
To determine thermal conductivity of a metal rod and an insulating
2-2
submit
material
CP
‘Report of
To determine heat transfer rate through fins or extended surfaces
2-3
Block Activities’
through the process of natural convection.
02 CSs in CA and
To determine heat transfer rate through fins or extended surfaces
54-106 face Viva
2-4
through the process of forced convection
for end
To determine the calorific value of a given sample of fuel with a Bomb
2-5
exam on
Calorimeter Apparatus
Page 126
To determine the viscosity of a given sample of oil using Saybolt
viscometer Apparatus
To determine the flash point and fire point of a given sample of fuel
2-7
oil.
To conduct the test on a two-stage reciprocating air compressor and
2-8 to determine the volumetric, isothermal and overall efficiency at
various delivery pressures
2-6
these units.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01066-TB1
T01066-TB2
Reference-Books
T01066-RB1
T01066-RB2
CD / DVD
T01066-CD1
T01066-CD2
Web Links
T01066-WL1
T01066-WL2
Page 127
T01067: MECHANICAL LAB
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01067 Mechanical Lab
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives

10+2 or HSC or ISC

Understand the characteristics of
governors.

Understand the relationship between
length and period of pendulum
(simple and compound).

Draw cam profiles for various types of
follower motions and to draw
displacement diagrams for the same.

Understand the relationship between
tensions, coefficient of friction and
lap angle for flat and V-belts and also
about slip occurring between belts
and pulleys.

Understand various types of vibratory
motions viz. free, forced (undamped,
damped) etc.
DETAILS SYLLABUS
CP
Block
Questions
To verify the relation given below for a simple pendulum and to plot
the graph of T2 vs. L,
T = 2 π (L / g )1/2
CP
1-1
where,
Block
T = Periodic Time (sec.)
01 CSs
L = Length of pendulum (cm.)
01-53
(a) To verify the relation,
1-2
Students
have to
submit
‘Report of
Activities’
in CA and
face Viva
for end
Page 128
1-3
1-4
1-5
1-6
1-7
1-8
2-1
2-2
2-3
2-4
2-5
2
+ OG ²) /g. OG)
where,
T = Periodic time (sec)
K = Radius of gyration about C.G. (cm)
OG = Distance of the C.G. of rod from support
L = Length of the suspended pendulum (cm)
(b) To determine the radius of gyration ‘K’ for the given compound
pendulum.
(c) To find the equivalent length of a simple pendulum for the given
compound pendulum.
To study the longitudinal vibration of single spring mass system and to
determine the frequency of vibration, theoretically and
experimentally.
To study the undamped free /natural vibrations of a beam pivoted at
one end and supported by tension spring at the other end (equivalent
spring mass system).
To study the forced vibration for various amounts of damping, of a
beam pivoted at one end and supported by tension spring at the
other end and to plot the graph of amplitude vs. frequency of
vibration.
To study free damped torsional vibrations and to determine the
damping coefficient, damping factor and logarithmic decrement for
the system.
To study the free undamped torsional vibrations of a single rotor shaft
system and to determine the natural frequency of vibration,
theoretically and experimentally.
To study the free undamped vibrations of two-rotor shaft system and
to determine the natural frequency of vibration, theoretically and
experimentally.
exam on
these units.
To study forced lateral vibrations of a beam for different amounts of
Students
damping and to plot the graph of amplitude vs. frequency.
have to
submit
To verify Dunkerley’s rule viz.
‘Report of
1/F² = 1/Fl² + 1/Fb²
Activities’
where,
in CA and
F = Natural frequency of the given beam considering the weight
face Viva
of beam and the central load.
for end
Fl = Natural frequency of given beam considering the central load
exam on
and neglecting the weight of beam.
CP
Fb = Natural frequency of beam alone (without central load).
Block these units.
To determine the moment of inertia of different bodies by trifilar 02 CSs
suspension method.
54-106
To find the coefficient of friction for both flat & V-belt with the help of
belt friction apparatus and hence find the slip.
To determine the characteristics curves of sleeve position against
speed of rotation in case of,
(i)
Hartnell Governor
(ii)
Porter Governor
(iii)
Proell Governor
(iv)
Watt governor
Page 129
To plot the graph of cam angular displacement vs. follower lift for
different types of cams and followers.
2-7 To draw cam profiles for various types of follower motions.
To develop a computer program for velocity and acceleration analysis
2-8
of slider crank mechanism.
2-6
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01067-TB1
T01067-TB2
Reference-Books
T01067-RB1
T01067-RB2
CD / DVD
T01067-CD1
T01067-CD2
Web Links
T01067-WL1
T01067-WL2
Page 130
SEMESTER 07
T01071: NAVAL ARCHITECTURE
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01071 Naval Architecture
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives

Workout Hydrostatics calculations

Workout transverse and longitudinal
stability

Understand Radar and Propulsion
theory
UNITS
UN Name of the Unit
CSs
CP Block 01
1-1
Geometry of Ship and Hydrostatic Calculations
1-2
Resistance & Powering
CSs
01-20
CP Block 02
2-1 Transverse Stability of Ships
2-2 Longitude Stability and Trim
CSs
21-40
CP Block 03
3-1 Strength of Ships
3-2 Propulsion and Propellers
CSs
41-60
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
Page 131
CP Block 02
4-1
Rudder Theory
4-2
Motion of Ship on Waves
CSs
61-80
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Block
Geometry of Ship and Hydrostatic Calculations: Ships lines, Displacement Calculation,
First and Second moment of area, Simpson’s rules, application to area and volume,
Tranpezoidal rule, mean and mid-ordinate rule, Tchebycheff’s rule and their
1-1
applications, Tonnes per cm. Immersion, Co-efficient of forms, Wetted surface area,
Similar figures, Centre of gravity, effect of addition and removal of masses, Effect of CP
suspended mass.
Block
Resistance & Powering: Frictional, Residuary & Total resistance, Froude’s Law of 01
comparison, Effective power calculations, ships co-relation factor (SCF), Admiralty co1-2
efficient, Fuel Co-efficient and fuel consumption. Effect of viscosity and application of
ITTC formula.
Transverse Stability of Ships: Statical stability at small angles of heel, Calculation of B.M.
Metacentric height, Inclining experiment, Free surface effect, Stability at large angles of
heel, curves of statical stability, dynamical stability, and Different Characteristic curves
of Dynamic stability. AITC formula.
Longitude Stability and Trim: Longitudinal BM, MCT1, change of L.C.B. with change of CP
trim, change of trim due to adding or deducting weights, change in draft & trim because Block
of filling/flooding several tanks with different densities, alteration of draft due to change 02
2-2
in density, Flooding calculations, Floodable length curves, M.O.T. method for
determination of floodable lengths, factors of subdivision, loss of stability due to
grounding, Docking stability, Pressure on chocks.
2-1
Strength of Ships: Curves of buoyancy and weight Curves of load, shearing force and
bending moments, Alternate methods, standards conditions, Balancing ship on wave
3-1 Approximation for max. Shearing force and bending moment, method of estimating
B.M. and Deflection Longitudinal strength, Moment of Inertia of section, section
Modulus.
Propulsion and Propellers: Definitions, apparent and real ship wake, Thrust, relation CP
between powers, relation between mean pressure and speed measurement of pitch Block
Cavitation.
03
3-2 Propeller types, Fixed pitch, Variable pitch, Ring propeller, Kort nozzles, Voith Schneider
propeller, propeller theory. Blade element theory Law of similitude and model test with
propellers propulsion tests, Geometry and geometrical properties of screw propellers,
ship model correlation ship trials.
Rudder Theory: Action of the Rudder in turning a ship, Force on rudder, Torque on stock
calculation of force torque on non-rectangular rudder, angle of heel due to force torque
4-1
CP
on rudder, Angle of heel when turning. Types of Rudder, model experiments and turning
Block
trials. Area and shape of rudder, position of rudder, stern rudders Bow rudders.
04
Motion of Ship on Waves: Theory of waves, Trochoidal waves, relationship between
4-2
line of orbit centres and the undisturbed surface, Sinusoidal waves, Irregular wave
Page 132
pattern, Wave spectra , Wave amplitudes, Rolling in unresisting media, rolling in
resisting media , practical aspect of rolling, Antirolling devices, Forces caused by rolling
and pitching Heaving and Yawing.
T01072-T2: Chapter 7: Page 121 to 136, chapter 4: page 55 to 57 & page 73 to 83
T01071-T1: Chapter 1
T01072-T2: Except above all other chapters are
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
Reeds Naval Architecture for
T01071-TB1 Engineers
E. A. Stokoe
Introduction to Naval Architecture
E. C. Tupper
T01071-TB2
Marine 4th
Edition
1991
3rd edition
1996
Reprint
2001
0947637850
Thomas Reed
Publication. Ltd. London
0750625295
Butterworth Heinmann
First
Edition
1952
Eleventh
Edition
1958
Charles Griffin & co. Ltd.
London.
Reference-Books
Theory of Naval
T01071-RB1 Architecture
A.M. Robb
Principles of Naval
T01071-RB2 Architecture
Rossel & Chapman
CD / DVD
T01071-CD1
T01071-CD2
Web Links
T01071-WL1
T01071-WL2
Society of Naval
Architecture & Marine
Engineering, New York.
Page 133
T01072: MARINE INTERNAL COMBUSTION ENGINEERING– II
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
CP CST CAT ST CA
Marine Internal Combustion Engineering–
1
20
01 T01072
4 80
120
II
EE
80
TM Type
100
T
Presumed Knowledge
Learning Objectives
 Understand
the
detailed
characteristics of an I.C. Engine

Maintain diesel engines
UNITS
UN Name of the Unit
CSs
1-1
Fuel pumps and Metering Devices
1-2
Maneuvering System
1-3
Indicator Diagrams and Power Calculations
1-4
Forces and Stresses
CP Block 01
2-1 Lubrication System
2-2 Automation in Modern Diesel Engine Plants
2-3 Nox- Control of Marine Diesel Engines
CP Block 02
CSs
01-20
CSs
21-40
CP Block 03
3-1 Medium Speed Engines
3-2 Gas Turbines
4-1
Maintenance of Diesel Engines
4-2
Trouble Shooting in Diesel Engines
4-3
Modern Trends in Development
4-4
U.M.S. Operations of Ships
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
Page 134
DETAILS SYLLABUS
1-1
1-2
1-3
1-4
CP
Block
Fuel pumps and Metering Devices: Jerk and Common rail systems; Fuel injection
systems Helical groove and spill valve type fuel pumps. System for burning heavy oil in
slow and medium speed marine engines. V.I.T. & Electronic injection system.
- Effect of viscosity on liquid fuel combustion.
- Measuring equipment and its working principle.
- Necessity of variable fuel injection system.
- Procedure of application on a modern slow speed long stroke engine.
- Necessity for adoption of fuel quality setting system.
CP
- Incorporation of FQSL along with the V.I.T. system on the engine.
Block
Maneuvering System: Starting and reversing system of different Marine Diesel Engines
01
with safety provisions.
Indicator Diagrams and Power Calculations: Construction details of indicator
instrument, Significance of diagram Power Calculations, fault detection simple draw
cards and out of Phase diagrams Power balancing, Performance Characteristic Curves,
Test bed and Sea trials of diesel engines.
Forces and Stresses: Balancing, Overloading, Different types of vibrations & its effects,
A/F vibration.
Lubrication System: Lubrication arrangement in diesel engines including Coolers and
Filters Cylinder, Lubrication, Liner wear, mechanism and preventive measures,
2-1 Combinations of lubricating oil its effect and preventive measure.
Improvements in lubricating oils through use of additives. Types of additives.
Monitoring engines through lubricating oil analysis reports.
CP
Automation in Modern Diesel Engine Plants: Remote operation, Alarm and fail safe
Block
system, Governors and their basic functions Constant speed and Over speed governors.
2-2
02
Constructional details and hunting of governor. Computerized monitoring and
diagnostics applications in propulsion engines. The intelligent engine concept.
Nox- Control of Marine Diesel Engines: Improvement in designs for increased T.B.O.
2-3
(Time between overhauls).
Medium Speed Engines: Different types of medium speed marine diesel engines,
couplings, and reduction gears used in conjunction with medium speed engine,
Development in exhaust valve design, V-type engine details.
3-1
Use of poor quality residual fuels and their consequences.
CP
Improvements in designs for higher power output.
Block
Fuels, combustion process – fundamentals.
03
Gas Turbines: General Constructional and Design features for marine plants, Materials
3-2 of construction, Heat exchangers and Reheat arrangements, Comparison of free Piston
engine gasifiers and conventional air-stream combustion chambers
Maintenance of Diesel Engines: Electronic Governor, Inspection and replacement of
various Components members such as Piston, Piston ring.
4-1
CP
Cylinder Head, Liner, bearings, Driving Chain and gears etc. Crankshaft deflection and
Block
alignment, Engine holding down arrangements, Tightening of tie bolts,
04
Trouble Shooting in Diesel Engines: Hot & Cold Corrosion, Crankshaft web slip, X-head
4-2
bearing problems, microbial degradation in fuel & lub oil.
4-3 ModernTrends in Development: Current Engines (Sulzer RTA, B&W CMC & SMC, SEMT
Page 135
Pillstich) Intelligent Engine (Camless concept), improvement in design for increased TBO.
4-4 U.M.S. Operations of Ships: U.M.S. Operations of ships.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01072-TB1
Prin.& Pract. Marine of Diesel Engg.
D. K. Sanyal
Bhandarkar Publishers
T01072-TB2
Reference-Books
Pounder’s Marine Diesel Engg.
7th Edition 0-7506-2583-x
T01072-RB1
Doug Woodyard
Marine Medium Speed Engines
T01072-RB2
Dr. Denis Griffiths
Marine Low Speed Engines
T01072-RB3
Dr. Denis Griffiths
Pounder’s Marine Diesel Engines
T01072-RB4
Dough Woodward
Marine Diesel Engines
T01072-RB5
D.K. Sanyal
Technical Papers published
T01072-RB6
various institutions
Operations and Maintenance manual of
T01072-RB7
MAN B&W and Sulzer Engines
CD / DVD
T01072-CD1
T01072-CD2
Web Links
T01072-WL1
T01072-WL2
Page 136
T01073: MARINE HEAT ENGINES & AIR CONDITIONING
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01073 Marine Heat Engines & Air Conditioning
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Understand the working of a steam
turbine, gas turbine, refrigeration
system and A.C. plants.
UNITS
UN Name of the Unit
CSs
CP Block 01
1
Steam Turbine
CSs
01-20
CP Block 02
2-1 Vapor Power Cycles
2-2 Axial Flow Compressor
CSs
21-40
CP Block 03
3
Gas Turbine Plants
Marine Refrigerating
4-1
Principle of A. C. Plants
4-2
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
Page 137
CP
Block
Steam Turbine: Compounding of steam turbines, pressure compounding velocity
compounding and pressure velocity compounding of impulse turbine, conditions for
CP
1-1 maximum Energy transfer in above cases, Impulse-reaction and parson's turbine. Degree
Block
of reaction, condition for maximum Energy transfer in Reaction turbines, Stage
01
efficiency overall efficiency and reheat factor, condition curve.
Vapour Power Cycles: Carnot's cycle, Rankine Cycle, Modified Rankine Cycle, superheat
2-1 cycle, reheat cycle, regenerative cycle, Binary vapour cycle and its effect on Thermal
Efficiency, Steam machinery plants, combined steam & gas plant, Calculations.
CP
Axial Flow Compressor Principle of centrifugal compression and pressure rise in a
Block
centrifugal compressor, change in Angular Momentum. Pre-whirl and pre-whirl vanes.
2-2
02
Mach number at inlet to a centrifugal compressor, slip and slip factor. Multi-stage
centrifugal compressor.
Gas Turbine Plants: Constant volumes or Explosion cycle Gas Turbine plant, constant
pressure cycle or Joule- Brayton cycle, Gas turbine plant simple C-B-T cycle, condition for
maximum work output and thermal efficiency in simple cycle. Methods of improvement CP
3-1
of Thermal Efficiency and work ratio of Gas Turbine plants. C-B-T-H cycle, complex Block
cycles, closed cycle operation of Gas turbine plants, their merits and demerits. Total 03
head or stagnation conditions.
Marine Refrigerating: Typical Maine Refrigerating plants with multiple compression and
4-1 Evaporator system. Heat pump cycles, refrigeration in liquefied Gas carriers. Applied
problems.
Principle of A.C.Plants: Principle of Air conditioning, psychometric properties of air
CP
comfort conditions, control of humidity Air flow and A. C. Capacity calculation for ship
Block
plants.
04
4-2 Constructional features of marine ref plants-compressors, evaporators, condensers,
TEV.
Uses of brine in indirect expansion. Absorption and steam ejector plants. Product
temperatures for long and short storage.
T01073-T1: Chapters 2 to 14, 24, 25
T01073-T2: Chapters 1, 2, 3, 6, 7, 8, 9, 10
T01073-T2: Chapters 7 (Part I) & 12 (Part III)
T01073-T1: Chapters 15 to23, 26 to 35
T01073-T2: Chapters 4, 5, 11, 13 to 21
T01073-T3: Chapters All others excepts above
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01073-TB1
T01073-TB2
Page 138
Reference-Books
Refrigeration
&
Air
T01073-RB1
A R Trott & T C Welch
Gas Turbine Engineering
T01073-RB2 Meherwan P Boyce
Conditioning,
Applied Thermodynamics
H N Sawant
III
2000
II
2002
V
2003
0-07506-4219-X
0884157326
Gulf Professional Publishing/
Akshar
Rachana
Publications,Pune
CD / DVD
T01073-CD1
T01073-CD2
Web Links
T01073-WL1
T01073-WL2
Page 139
T01074: MARINE MACHINES & SYSTEM DESIGN
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01074 Marine Machines & System Design
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Use different designs of different
machineries on board ships.
UNITS
UN Name of the Unit
Design Consideration
1-1
Design Marine Components
1-2
2-1
2-2
2-3
2-4
CSs
CP Block 01
CSs
01-20
Design of Fly Wheel Piston Connecting Rod
Design
of
Springs
and
Bearings
Design of Transmission Systems
Design of Cooling and Lubricating System
CP Block 02
3-1 Design of Steering Gear
3-2
Design air Starting, Scavenge and Fuel Injection
3-3 System Design of Steam Turbine
3-4
Design of Gas Turbine
CP Block 03
4-1 Design of Refrigeration Plant
4-2 Design of Fire Fighting Systems
4-3 Computer Aided Design
CSs
21-40
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Page 140
Block
Design Consideration: Manufacturing methods, Castings, Forgings, Fabrication and
Plastic Moulding : Machining Tolerances, surface Finishes, Application to basic design
principles in respect of Function, Available materials, Production methods, Economics,
1-1
Aesthetic appeal. Initial and Servicing costs. Analysis of force, flow through an Assembly
CP
and its effect on the design. Design with reference to Repairs and reconditioning
Block
specially "at sea" work with its normal restrictions and limitations.
01
Design Marine Components: Design and Drawing of marine machinery components
1-2 subject to combined bending, twisting and direct loading like Crankshafts, Propeller
shafts etc.
Design of Fly Wheel Piston Connecting Rod: Design and Drawing of Flywheel, Piston,
connecting rod, safety valves, Reducing valves.
Design of Springs and Bearings: Compression and Torsion springs, Journal bearings,
2-2 Thrust bearings etc. Design of lifting equipment e.g. Engine room overhead Crane, Globe
& other values Mechanical Pilot etc.
CP
Design of Transmission Systems: Power Transmission system including Thrust Blocks, Block
2-3
Intermediate shaft and Tail End shaft.
02
Design of Cooling and Lubricating System: Water cooling systems including Pumps,
2-4 filters, Heat exchangers for Diesel and Steam engine plants. Lubricating Oil systems
including Pumps, Purifiers pressure by pass valves.
2-1
Design of Steering Gear Electro - hydraulic Steering gear system including Rudder,
Rudder stock, Tiller arm and rams etc.
CP
Design air Starting, Scavenge and Fuel Injection System: Marine Diesel Engine Air
Block
starting systems including Air receivers, Compressors and Air starting valves. Marine
03
3-2
Diesel Engine Scavenge and Exhaust system. Marine Diesel Engine Fuel Injection system
including Fuel pumps and fuel injectors.
3-3 Design of Steam Turbine: Design of Steam Turbine Plants.
3-4 Design of Gas Turbine: Design of Gas Turbine Plants.
3-1
4-1 Design of Refrigeration Plant: Life boat and it’s launching device. Refrigeration Plant.
CP
Design of Fire Fighting Systems: Bulk CO2 System including emergency fire pump.
Block
Fire fighting system including emergency fire pump.
4-2
Note – Latest developments and IMO requirements are to be considered in each design 04
project.
Computer Aided Design: Analysis of stress, strain, Vibration, thermal stress, deflection
4-3 through method of Finite Element Analysis by use of various software like MSC
NASTRAN, I-DEAS, AUTO-CAD, Pro-engineer.
T01074-T1 : 2 to 8, 9.1 to 9.7, 9.10 to 9.14, 10.7 to 10.12, 11 to 20, 22.1 to 22.10, 22.13,
22.14, 23, 24
T01074-T2 : 1 to 3, 4.1, 4.2, 5 to 8, 9.3 to 9.13, 10 to 13, 14.1 to 14.3, 14.4.4 to 14.5, 15, 16,
17.1 to 17.48, 17.52 to 17.60, 17.62, 18
T01074-T3 : 1 to 6, 7.7 to 7.12, 8 to 12, 13.12 to 13.21, 14 to 21, 23.10 to 23.26, 24 to 31, 32
(numerical are not included)
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Page 141
Text-Books
Machine Design
V. B. Bhandari
Steam &Gas turbines.
T01074-TB2
R.Yadav
Machine Design
Khurmi & Gupta
Reference-Books
Machine Design
T01074-RB1
Shigley
T01074-RB2
CD / DVD
T01074-CD1
T01074-CD2
Web Links
T01074-WL1
T01074-WL2
T01074-TB1
Tata McGraw Hill
Central
publishing
house,Alahabad.
S. Chand & Co.
Tata McGraw Hill
Page 142
T01075: MARINE AUXILIARY MACHINE- II
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01075 Marine Auxiliary Machine- II
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Understand the operation of various
auxiliary machineries.
UNITS
UN Name of the Unit
Refrigeration
1-1
Design and Construction
1-2
Operation and Maintenance
1-3
Refrigeration of Cargo Holds
1-4
CSs
CP Block 01
CSs
01-20
CP Block 02
2-1 Air Conditioning
2-2 Ventilation
CSs
21-40
CP Block 03
3
Noise and Vibrations
CSs
41-60
CP Block 02
4-1
Fuel
4-2
Lubrication
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Page 143
1-1
1-2
1-3
1-4
Block
Refrigeration: Principles of refrigeration, overview of refrigeration cycles, different
refrigeration systems, classifications of refrigerators, uses of refrigeration at sea,
cryogenic technology – definition, temperature range, insulation.
Different refrigerants, chemical formula, desired properties (general, physical, chemical,
thermodynamic) comparison, effect on environment, Montreal protocol, and new
refrigerants.
Design and Construction: Design and construction of various components of
refrigeration plants, i.e. compressor, condenser, evaporator, expansion valves, control
CP
and safety equipments.
Block
Operation and Maintenance: Operation and maintenance of refrigeration plants control
01
of temperature in different chambers, charging of refrigerant/oil, purging of air,
defrosting methods, trouble shooting.
Refrigeration of Cargo Holds: Refrigeration of cargo holds, brine system and it’s
operation & maintenance, methods of air circulation in holds, insulating materials,
insulation., micro-organism, dead and live cargo, factors affecting refrigerated cargo,
container ship refrigeration, preparation for loading cargo, survey of refrigeration
equipments.
Air Conditioning: Necessity on board ships, different systems, control of room air
temperature, humidity, noise, dust and purity. Construction of duct & diffuser, fans,
2-1
ventilation of accommodation, fire safety balancing of system. Heat load calculation on CP
refrigeration and air conditioning plant.
Block
Ventilation: Ventilation of engine room, pump room, CO2 and battery rooms, air change 02
2-2
requirements, design considerations, maintenance.
Noise and Vibrations: Elements of aerodynamics and hydrodynamics sound, Noise
Sources on Ships and noise suppression techniques, Noise level measurement. Various
CP
modes of vibration in a ship (i.e free, forced, transverse, axial, torsional – their sources
3-1
Block
and effects), Resonance and critical speed, Structure borne, air borne vibration, Anti
03
vibration mountings of machineries, De-tuners, Dampers with reference to torsional
vibrations dampers, use of torsiographs.
Fuel: Source of supply, Study of primary Fuels, Coal, Petroleum, Natural Gas,
Classification of Fuels. Treatment of Fuels for combustion in Marine I.C.E. and Steam
4-1
Plants, Residual fuels, Emulsified Fuels, Merits and demerits of such fuel in marine
engines.
CP
Lubrication: Theories of lubrication, types of lubricants and their Properties Suitability of Block
Lubricants for various uses; solid and fluid lubricants. Additive Oils and their specific use. 04
4-2 Terminology used in Lubrication systems. Loading pattern of various bearing in marine
use and lubrication system adopted. Different types of bearing used for marine
machineries. L.O. analysis & monitoring Engine through report.
Note: All the Topics are to be delt with considering running and preventive maintenance.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Introduction to Marine Engineering
D. A. Taylor
2nd Edition 0-7506-2530-9
Text-Books
T01075-TB1
Page 144
Marine Auxiliary Machinery
H. D. McGeorge
Reference-Books
T01075-RB1
T01075-RB2
CD / DVD
T01075-CD1
T01075-CD2
Web Links
T01075-WL1
T01075-WL2
T01075-TB2
7th Edition 0-7506-4398-6
Page 145
T01076: POWER PLANT OPERATION
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01076 Power Plant Operation
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives
 Keep a safe watch on alternators,
boilers and steam engine.
DETAILS SYLLABUS
1-1
1-2
1-3
1-4
1-5
1-6
1-7
1-8
CP
Block
Questions
Methods of starting, running under different load conditions (load on
Students
the alternators)
have to
submit
Watch keeping & recording of the temperatures, pressures on
‘Report of
Different meters on the diesel engine instrument panel and Switch
Activities’
Board.
in CA and
Looking after the auxiliary machinery viz. Air compressor, Cooling CP
water pump and Lub. Oil pump.
Block face Viva
for end
Raising steam from cold condition up to its working pressure and 01
exam on
maintaining the same while operating the Reciprocating engine and CSs
the auxiliary machinery, maintenance
01-53 these units.
Schedule for the package Boiler.
Study of boiler mountings
Starting of boiler from cold condition.
Watch keeping on running boiler.
Raising steam from cold condition up to its working pressure and
Students
2-1 maintaining the same while operating the Reciprocating engine and CP
have to
the auxiliary machinery, maintenance schedule for the package Boiler. Block
submit
‘Report of
Blowing of gauge glasses with precautions involved –Necessity and 02
2-2
Activities’
procedure of cross Blowing.
CSs
Overhauling of mountings. Dismantling, overhauling and adjustment of 54-106 in CA and
2-3
face Viva
High life Safety Valve, Studying the working of Boiler plant auxiliary
Page 146
2-4
2-5
2-6
2-7
2-8
machinery.
Study the operation of the water tube boiler (Foster wheeler type)
Firing from cold condition, raising steam up to its working pressure
and to maintain the same while operating the Steam Turbines and the
auxiliary machinery, precautions involved during firing of boiler.
Operation of steam superheater, water level indicators, high and low
level alarms and other boiler mountings,
Overhauling and adjusting of safety valves.
Recording and controlling of various pressures & temperature on the
Instrument panel.
Care of Boiler auxiliaries, feed water system and fuel system.
Warming up of the engine, Lubrication of moving parts and
precautions involved. Starting of the engine, Reversing procedure.
Running the engine at full power and taking Indicator Cards. ‘Linking
out’ and ‘Linking in’ of the three Cylinders. Adjusting the ‘cut off’
period of the engine and studying the effect.
for end
exam on
these units.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01076-TB1
T01076-TB2
Reference-Books
T01076-RB1
T01076-RB2
CD / DVD
T01076-CD1
T01076-CD2
Web Links
T01076-WL1
T01076-WL2
Page 147
T01077: BOILER CHEMICAL LAB
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01077 Boiler Chemical Lab
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives
 Maintain the water quality of a boiler
within the desired values.

Having
acquired
theoretical
knowledge of boiler construction and
maintenance

Various means for testing for
impurities (dissolved and suspended),

Need to maintain excess phosphate,
and alkalinity
DETAILS SYLLABUS
CP
Block
1-1
1-2
1-3
1-4
1-5
1-6
1-7
1-8
Questions
To determine hardness content of the sample of boiler water in P.P.M.
Students
in terms of CaCo3
have to
submit
To determine Chloride content of the sample water in P.P.M. in terms
‘Report of
of CaCo3
CP
To determine Alkalinity due to Phenopthaline
Block Activities’
in CA and
To determine Phosphate Content of the sample of water.
01
face Viva
To determine dissolved oxygen content of the sample of water
CSs
01-106 for end
To determine sulphate content of the given sample of water.
exam on
To determine Ph-Value of the given sample.
these units.
To demonstrate the use of AgNO3 for qualitative evaluation of Salinity
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01077-TB1 Guidelines and handouts of marine boiler
Page 148
manufacturers, and guidelines issued from
time to time
T01077-TB2
Reference-Books
Marine Steam Boilers
T01077-RB1
JH Milton
T01077-RB2
CD / DVD
T01077-CD1
T01077-CD2
Web Links
T01077-WL1
T01077-WL2
1994
Sterling Book Depot
Page 149
SEMESTER 08
T01081: STCW & SHIP FIRE PREVENTION
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01072 STCW & Ship Fire Prevention
CP CST CAT ST CA
4 80 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives
 Prevent and control fires.
 Keep a safe watch on running
machineries of a ship
UNITS
UN Name of the Unit
1-1 Fire Hazard Abroad Ships
1-2 Fire Protection Built in the Ships
1-3 Detection and Safety Systems
CSs
CP Block 01
CSs
01-20
CP Block 02
2-1 Fire Fighting Equipments
2-2 Fire Control
3-1
3-2
3-3
3-4
STCW Convention and Class IV Preparation
Requirement of Ratings Watch
Engineering Watch (Underway)
Engineering Watch (Anchorage)
CSs
21-40
CP Block 03
CSs
41-60
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
Page 150
CP Block 02
4-1
Shipboard Regulations
4-2
ISM Code
CSs
61-80
of 1' SAQ in CA and
DETAILS SYLLABUS
CP
Block
Fire Hazard Abroad Ships: Fire triangle, Fire Tetrahedron, Fire-chemistry, Spontaneous
Combustion, Limits of inflammability. Advantages of various fire extinguishing agents
1-1
including vaporizing fluids and their suitability for ship's use. Control of Class A, B and C
& class D fires, Combustion products & their effects on life safety.
Fire Protection Built in the Ships: SOLAS convention, requirements in respect of
materials of construction and design of ships, (class A, B, type BHDS), fire detection and
CP
1-2 extinction system, Fire test, escape means, electrical installations, ventilation system
Block
and venting system for tankers. Statutory requirements fire fighting systems and
01
equipments on different vessels, fire doors & fire zones.
Detection and Safety Systems: Fire safety precautions on cargo ships and tankers during
working. Types of detectors, Selection of fire detectors and alarm systems and their
1-3
operational limits. Commissioning and periodic testing of sensors and detection system.
Description of various systems fitted on ship.
Fire Fighting Equipments: Fire pumps, hydrants and hoses, Couplings, nozzles and
international shore connection, Construction, operation and merits of different types of
portable non-portable and fixed fire extinguishers installations for ships. Properties of
2-1
Chemicals used. Bulk Carbon Di-Oxide and inert gas systems, Fireman's outfit, its use
and care. Maintenance, testing and recharging of appliances. Preparation, Fire appliance
Survey. Breathing apparatus types, uses, principle
Fire Control: Action required and practical techniques adopted for extinguishing fires in CP
accommodation, machinery spaces, boiler rooms, Cargo holds, galley etc. Fire fighting in Block
port and dry dock. Procedure for re-entry after putting off fire, Rescue operations from 02
affected compartments. First Aid, Fire organization on ships shipboard organization for
2-2
fire and emergencies. Combustion products and their effects on Life safety. Fire signal
and Muster. Fire drill. Leadership and duties, Fire control plan, Human behavior, Special
precautions for prevention/fighting fire in tankers, chemical carriers, Gas carriers,
chemical carriers, Safe working practice.
STCW Convention and Class IV Preparation: Standard of Training Certification and
Watch-keeping for sea farers international Conference of 1978 and modifications under
STCS 1995
Basic principles to be observed in keeping engineering watch. Criteria for composing
the engine room watch. Operation & Watch requirements Fitness for duty. Protection
3-1 for marine environment. Requirement for certification minimum knowledge CP
requirement for certification theoretical, practical; Duties and responsibilities Block
concerning safety and protection of environment. Requirement for watch keeping 03
duties, Physical training and experience in watch keeping routine. Main and aux
machine Pumping systems, Generating plant. Safety and emergency procedures First
aid.
Requirement of Ratings Watch: Minimum requirement for Ratings of Engine Room
3-2
watch. Special requirement for engineer officers for oil Tankers, Chemical Tankers and
Page 151
Gas Tankers. Details of operational guidance for In-charge of an engineering watch.
Engineering Watch (Underway): Engineering watch (underway) General, Taking over
watch Periodic checks of machinery, Engine room log Preventive repair and
3-3
maintenance Bridge notification. Navigation in congested water and during restricted
visibility, calling the attention of the Chief Engineer Officer, Watch keeping personnel
Engineering Watch (Anchorage): Engineering Watch (Unsheltered anchorage)
Conditions to be ensured. Watch-keeping (in port) Watch arrangements; Taking over the
3-4
watch; Keeping a watch. Oil, Chemical and Gas Tankers- Principles, characteristics of
Cargo; Toxicity hazards; Safety equipments; Protection of Personnels Pollutions.
Shipboard Regulations: Shipboard Application Regulations and Codes of Practice Ship
design and equipment of oil, Chemical and Gas Tankers; Ship operation, repair and
4-1 maintenance; Emergency operations; Training of other personnels Requirement of
continued up-dating of proficiency, Definition of flag state/port state. Port state control
inspection, implication of ship’s detention.
ISM Code: ISM Code- Statutory certificates and documents to be provided on board for CP
safe trading of vessel and port state control inspection. Basic safety concept on board a Block
merchant vessel & operational knowledge of the relevant IMO instruments like SOLAS, 04
MARPOL, LOADLINE, TONNAGE, COLREG, STCW, with latest amendments, how above
4-2
instruments are adopted under Explicit/Tacit acceptance procedures, how
statutory/class certificates and documents obtained. Surveys special / intermediate.
Annual to be conducted on ocean going ships. Related conventions for the certificates,
period of validity, invlovement of ISM, issue of DOC/SMC and maintenance of SMC.
T01081-T1: only those topics which are mentioned in the above syllabus
T01081-R1: only those topics which are mentioned in the above syllabus
T01081-R2: only those topics which are mentioned in the above syllabus
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
Marine Engg. Practice – Fire Fighting Vol.I, Part
T01081-TB1 Equipments & Its use on ships.
5
G. Victory & I.H. Owen.
T01081-TB2
Reference-Books
T01081-RB1 Fire Fighting Appliances Rules (1969/1990)
Jan 2005 Bhandarkar Publication
T01081-RB2 STCW Code & Convention-95.
IMO, London.
CD / DVD
T01081-CD1
T01081-CD2
Web Links
T01081-WL1
T01081-WL2
Page 152
T01082: MARINE CONTROL ENGINEERING AND AUTOMATION
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
Marine
Control
01 T01082
Automation
Engineering
and
CP CST CAT ST CA
1
20
4 80
120
EE
80
TM Type
100
T
Presumed Knowledge

Learning Objectives
10+2 or HSC or ISC

Understand the operation of remote
operation of machinery

Maintain the automatic regulators on
board
UNITS
UN Name of the Unit
Measuring Devices
1-1
Signal Transmitting Devices
1-2
CSs
CP Block 01
CSs
01-20
2-1 Automatic Control Systems
2-2 Automatic PID Controllers
2-3 Correcting Units
CP Block 02
3-1 Analysis of Control Systems
3-2 Control System Theory
3-3 Analysis of System Performance
CP Block 03
4-1 Marine Boiler Instrumentation
4-2 Control of Main Machinery
4-3 Bridge Control of Main Machinery
CSs
21-40
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
Page 153
DETAILS SYLLABUS
CP
Block
Measuring Devices: Pressure, Temperature, Level and flow measuring devices.
Miscellaneous Instruments;
-Shaft Power meters, Unbounded Strain Gauge, bounded Strain Gauge, Troductor
-Tachometers ( Electric and Mechanical)
1-1
-Water Purity Meters: Salinity Indicator, P.H. Meters
-Oil in water Monitor: Photo Electric Cells, Photo Conductive Cells, Photo Voltaic Cells.
CP
-Viscosity Sensors.
Block
-Oil Mist Detector.
01
Signal Transmitting Devices: Transmitter, Converter and Controller Flapper Nozzle. Electro Pneumatic signal converter, Electrical signal transmission.
1-2 Pneumatic, Types of Controllers: hydraulic, electric and electronic controllers for
generation of control action, Variable Inductance and capacitance transducers, force
Balance Transducer, Synchros.
Automatic Control Systems: Process Control, Feed Back, Closed Loop and Open Loop
Control, Two Step (On-Off) Control, Modulating Control, Off Set or Droop, Desired
2-1
Value, Set Value, Proportional, Integral and Derivative Control, Split Range, Ratio and
Cascade Control, System Response: Distance, Velocity, Measurement and Transfer Lags.
Automatic PID Controllers: Functions of a Proportional, Integral and Derivative Action
CP
Controllers, Stacked Type, Electronic, and Pulse type Controller, Controller Adjustments
2-2
Block
Relays On-Off Cut Off Switches, Control system responses: Distance, velocity and
02
transfer lags
Correcting Units: Control Valve, Actuator and Positioner- Diaphragm actuators, Valve2-3 positioners, piston actuators, Electro-pneumatic transducers. Electro-hydraulic
actuators and electric actuator control valves.
Analysis of Control Systems: Examination of system behaviour as a result of different
inputs with respect to time or frequency response.
Control System Theory: System behavior considered in am Mathematical sense using
Differential Equation. System description using mathematical terms for mechanical,
3-2 Electrical, Thermal and Liquid Level system.
CP
Laplace Transforms Transfer Functions and Block Diagrams. Concept of stability. Routh Block
& Hurtwiz stability criteria.
03
Analysis of System Performance: Analysis of system Performance under dynamic or
3-3 transient operating condition using laplace Transforms. Performance characteristics,
Nyquist stability criterion.
3-1
Marine Boiler Instrumentation: Marine Boiler-Automatic Combustion control, Air/fuel
4-1 ratio control, feed water control two and three element type, steam pressure control,
combustion chamber pressure control, fuel oil temperature control.
CP
Control of Main Machinery Control in Main Machinery units for Temperature of Block
lubricating oil, Jacket cooling water, fuel valve cooling water, piston cooling water and 04
4-2
scavenge air, fuel oil viscosity control, working of control system during Maneuvering of
direct Reversing Diesel Engine
Bridge Control of Main Machinery: Bridge control of main machinery, instrument for
4-3
UMS classification.
Page 154
T01082-R1: Chapters 7, 14, 15, 16
T01082-R2: Chapters 1, 2.1, 2.2, 2.4 to 2.7, 3.1, 3.4, 3.5, 3.10, 4.4, 4.5, 5.1 to 5.4, 5.6 to 5.9,
6,7, 8.2 to 8.6, 8.8 to 8.11, 9 to 12.
LR Code
Title
Author
Edition
Year
Text-Books
T01082-TB1
T01082-TB2
Reference-Books
Reed’s Instrumentation and control system Fourth
T01082-RB1 Vol-10
L.Jackson
Modern Control Engg
Third
T01082-RB2
K.Ogata
CD / DVD
T01082-CD1
T01082-CD2
Web Links
T01082-WL1
T01082-WL2
ISBN
Publisher
Thomas Reed
Publication
Pearson Education
Page 155
T01083: COMMERCIAL GEOGRAPHY, SHIP OPERATION AND
MANAGEMENT
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
CP CST CAT ST CA
Commercial Geography, Ship Operation
1
20
01 T01083
4 80
120
and Management
EE
80
TM Type
100
T
Presumed Knowledge
Learning Objectives
 Understand financial implications of
ship operation.
UNITS
UN Name of the Unit
CSs
1-1
Difference between Domestic and Foreign
1-2
Trade
1-3
Major Shipping Routes, Ports
1-4
Allocation of Market Resources
CP Block 01
2-1
2-2
2-3
2-4
Brief History of Shipping
Conference System
Shipping Companies
Ship Operations
CP Block 02
3-1 Bill of Lading
3-2 Marine Insurance
3-3 Capitalization & Finance
CP Block 03
Commercial Shipping Practice
4-1
Merchant Shipping Act
4-2
CSs
01-20
CSs
21-40
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
Page 156
DETAILS SYLLABUS
CP
Block
Difference between Domestic and Foreign Trade: Difference between Domestic and
foreign trade. Basic of International Trade:- Trade-theories. Free-Trade Vs Protection.
1-1 Balance of payments – components, causes of deficit, steps to correct deficit. ExchangeRates:- Types, determination, Devaluation of currency. Free-convertibility of currency
with reference to Indian Rupee. Functions of I.M.F., World Bank, W.T.O.
Major Shipping Routes, Ports: Major Shipping Routes, Ports:- Types, Problems, factors CP
for good port. Major ports of Indian and World. Port-pricing. Pollution of water – causes Block
1-2
and remedies. Deep-sea fishing, Major sea-fishing zones, Off-shore oil producing zones. 01
India’s overseas Trade and Economics Importance with reference to Economic zones.
Allocation of Market Resources: Allocation of market resources in a wealth-maximizing
1-3 manner, Public policy issue in marine transportation, Chartering of ships, Flag of
convenience, Policy of protection and subsidy.
Brief History of Shipping: Modern shipping Practice Marine vehicles and cargo, care of
2-1 cargo against damage. Development in shipping and cargo handling Multimodal
transportation, factors affecting universal adoption. Liner and tramp shipping services.
Conference System: Organization & concerns shippers council. Chartering, Charter
parties. Theory of freight rates and fares. Rate fixation machinery and government
2-2
control. Responsibilities of ship owners & charters. Tanker chartering. Frieght rates &
CP
fares – various terms, influencing factors, market pricing.
Block
Shipping Companies: Organizational structure, Restructuring on the basis of functional
02
2-3 coherence, ship management companies. Turn around strategy for sick shipping
companies. Ownerships of vessels, shipping Company and its administration.
Ship Operations: Planning sailing schedules. Influencing factors, unbalance in sea trade,
2-4 counter-action, Voyage estimation, Manning of ships, engagement & discharge of crew,
Economic factors.
Bill of Lading: Function & Uniqueness & related problems. Carriage of goods by sea act.
Cargo Surveys and protests.
Marine Insurance: Underwriting and loss adjusting principles applied to Marine cargo
3-2 insurance. Hull / Machinery policy particular average. General average, P and I clubs –
CP
making claims.
Block
Capitalization & Finance: Characteristics, cost ratios & allied definition. Sources,
03
Financing package, Lender security, Relation between Insurance premium, & non3-3
conformity / condition of class. Economics of new and second hand tonnage. Subsidies,
procedure & implication of buying & selling new / old vessels.
3-1
Commercial Shipping Practice: Commercial Shipping practice. Manning of ships.
Engagement and discharge of crew, D.L.B. Seaman’s welfare.
Merchant Shipping Act: Registration of ship, ship's papers. Port Procedures. Pilotage, CP
Flags of convenience, flags of discrimination and their effects on shipping. Duties Block
4-2 regarding pollution. Collision, Explosion fire etc. Vessels in distress. Shipping casualties 04
penalties under Merchant Shipping Act. Marine Fraud: Genesis and prevention. Indian
Shipping: Current scenario and few case studies.
T01083–T1: Chapters – 1, 2, 6 ( pages 63 to 71 ), 11 ( pages 48 to 157)
4-1
Page 157
T01083–T2: Chapters – 15A, 15C, 29A, 29B, 29C
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
Logistics
Mgt.World
Krishaveni
Economics
T01083-TB2
Samuelson and Nordhsus
Reference-Books
T01083-RB1
T01083-RB2
CD / DVD
T01083-CD1
T01083-CD2
Web Links
T01083-WL1
T01083-WL2
T01083-TB1
Sea
Trade,
81-7866-405-4
Himalaya Pub.
7th edition Tata Magrawhill
Page 158
T01084: TANKER OPERATIONS
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01084
Tanker Operations
CP CST CAT ST CA
4 68 1 120 20
EE
80
TM Type
100 T
Presumed Knowledge
Learning Objectives

10+2 or HSC or ISC

Principles of Safe Tanker Operations
UNITS
UN Name of the Unit
1-1 Introduction to Oil Tankers, Basic Properties
& Hazards of Petroleum
1-2 General Precautions
1-3 Enclosed Space Entry & Gas Indicators
2-1 Operational Pollution & ODME
2-2 Tanker Construction
2-3 Cargo Pumps
3-1 Loading, Discharging, Cargo Heating
3-2 Tank cleaning & COW
3-3 Purging, Gas Freeing, MARPOL AnnexI and
SOPEP
4 Inert Gas System and Vapour Emission
Control
CSs
CP Block 01
CSs
01-20
CP Block 02
CSs
21-40
CP Block 03
CSs
41-60
CP Block 02
CSs
61-80
Questions
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
of 1' SAQ in CA and
Page 159
DETAILS SYLLABUS
CP
Block
Introduction to Oil Tankers: Basic Properties & Hazards of Petroleum:
Tanker types as per cargo carried and size, Tanker terminology.
1-1
Flammability, Toxicity, Charge accumulation, electrostatic discharge, fire triangle, Source
of ignition, hot work, Hazards (health) of Petroleum.
CP
General Precautions: Clothing, Smoking & naked lights, Use of hand tools, power tools,
1-2
Block
repairs, hot work, communication equipment.
01
Enclosed Space Entry & Gas Indicators: Hazards in enclosed space, Precautions before
1-3 entry into enclosed space, pump room entry. Multi gas detector, Explosimeter, Portable
oxygen analyzer, Tank scope.
Operational Pollution & ODME:
Causes of marine pollution, Operational marine pollution, ODME, ORB entries.
Tanker Construction:
2-2
Tanker types Single hull, Double hull, tankers with deep well pumps, Level gauges.
Cargo Pumps: Centrifugal pump theory, Vacuum-strip system, steam reciprocating
2-3
stripping pump, Screw pumps, Deep-well pumps and eductors.
2-1
Loading, Discharging, Cargo Heating:
Tanker operations, Loading, Discharging, Ballasting, Deballasting & Cargo heating.
Tank Cleaning & COW:
3-2
Tank cleaning, Crude oil washing operation and check lists.
3-3 Purging, Gas Freeing, MARPOL Annex I & SOPEP
CP
Block
02
3-1
CP
Block
03
Inert Gas System: General arrangement of IG plant, production and deck distribution
systems – Scrubber, recirculation line/valve, main control valve, IG blowers, deck seal, CP
4 IG vent valve, P/V valve, P/V breaker, starting up and shutting down procedure of IG Block
plant, Various methods of IG generation ( boiler uptake & IGG), Fixed oxygen analyzer.
04
Vapour emission control system.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01084- Tanker Safety Course notes
TB1
T01084- Safe Tanker Operations
TB2
Reference-Books
T01084- ISGOTT
RB1
T01084RB2
CD / DVD
T01084CD1
Page 160
T01084CD2
Web Links
T01084WL1
T01084WL2
Note:

The above books are used to prepare the subject material.

The teaching material is also upgraded accordingly. It is also required to refer to various
other websites and books for latest developments in the above topics of the subject.
Page 161
T01085: TECHNICAL PAPER AND PROJECT
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01072 Technical Paper and Project
CP CST CAT ST CA
4 106 2 120 20
EE
80
TM Type
100 PW
Presumed Knowledge
Learning Objectives


10+2 or HSC or ISC
Undertake small projects which
involve the activities like design,
preparation of bill of materials,
procurement, manufacturing, testing
etc. of the assemblies decided for the
projects.

Explore solutions for the real
problems, encountered in a real life
job, in the complete project execution
from start to finish, by applying basic
concepts, principles and skills.
Special Note: A group of 4-5 cadets will perform a project activity, which involves following
activities based on the knowledge and the skills acquired during the completion of the courses
form semester 1 to semester 7
ACTIVITIES
UN
1
Details of Activities
2
Preparation of Project Execution Plan : Time and Resource Allocation
3
Guidance by the Project Guide, for the self-study of relevant course topics and concepts by
the student.
4
Self-study of relevant course topics and concepts by the student.
5
Preparation of Project Specifications by the student: For (1) User Inputs (2) Outputs for User
(3) Environmental constraints (4) Other Inputs (5) Other Outputs (6) Other important
processes
6
Guidance and approval by Project Guide for Project Specifications: For (1) User Inputs (2)
Outputs for User (3) Environmental constraints (4) Other Inputs (5) Other Outputs (6) Other
Selection of the Project and Project Guide
Page 162
important processes
7
Design, Development, Fabrication, Assembly, Testing and Troubleshooting of First
Prototype–1
8
Prototype–2
9
Prototype–3
10
Prototype–4
11
Prototype–5
12
Comparison of First Prototype Performance with Set Project Specifications and Preparation
of list showing (1) Problems (2) Improvements Needed (3) External Enclosure Details.
The Project Guide should guide the student about this task.
13
Design, Development, Fabrication, Assembly, Testing and Troubleshooting of Final
Prototype–1
14
Prototype–2
15
Prototype–3
16
Prototype–4
17
Prototype–5
18
Preparation of Project Report and all technical documentation like Schematic Drawings,
Connection or Wiring Diagrams, Mechanical Drawings, Complete Bill of Material, User
Instructions, Artwork and Films, List of Problems encountered etc.–1
19
Instructions, Artwork and Films, List of Problems encountered etc.–1
20
Instructions, Artwork and Films, List of Problems encountered etc and Final submission of
the Project Report.
DETAILS SYLLABUS
1
The “Project Work” course envisages exposing the students to actual work environment,
work practices during the implementation of a project. The aim is to imbibe in students the
principle that working is learning. Learning and working are two sides of the same coin and
thus, work experience enhances the learning.
2
The Project Work must involve practical work related to all Practical courses from Sem 6
onwards
3
Students are expected to work on “Project Work” for about 6 hours per week (About 2 hour’s
self-study at residence and 4 hours in counseling session at study center), for minimum 20
days in a semester. Thus only those projects, demanding such study efforts on all those
activities, listed in above, should be selected.
4
As students have to finance expenditure on “Project Work”, normally only those projects
Page 163
should be selected, which involve maximum expenditure up to Rs 1000/-.
5
The original design requirements are not essential, although highly encouraged. Hence,
normally, projects should not be repeated. The same project undertaken in recent past, by
past students, should be avoided. But it is most important that, students must put his
independent study efforts on the project. Thus, student should gain practical project
execution knowledge about making some useful product, after he goes through all projects
completion steps listed above.
6
A single student will normally do a project. The university also encourages large Joint
projects, requiring the participation of a small team of students. However, in such cases,
clear delegation of work and responsibilities, among the students, must be clearly stated in
the “Project Report”. Maximum number of students, in a team for joint project, should not
exceed 5.
7
The student invests his energy, time and resources in a project. The project therefore should,
if possible, have important bearing on some practical aspect. This will help student to justify
his efforts on project.
8
Employed Students are allowed to complete “Project Work” in the industry where he is
employed or his place of choice. Such a student has to identify a resource person in industry,
who can take responsibility of guiding him in project work. Such person should be eligible to
work as “Project Guide”.
9
Study center should assist unemployed students, in locating sponsored “Projects” from local
industries. Students are encouraged to locate sponsored projects from the local industries.
But, in case, a student is unable to locate such project, he is also allowed to complete
“Project Work” at his study center.
10
Each “Project Guide” may be assigned maximum 5 students.
11
Suggested Scheme of Chapters in Project Report:
1. Chapter 1: Introduction: Background of the project, Need for the project, Brief
idea of the project
2. Chapter 2: System Overview and Design: Present the overview of the complete
system. Use Block Diagrams. Specify design parameters for the system. Specify
interfacing problems (if any) visualized before hand, and how to eliminate these.
3. Chapter 3: Module Design: Discuss individual parts (sub-part) in details, clearly
indicating the scientific principles involved and design of each sub-circuit used in a
project.
4. Chapter 4: Testing and Troubleshooting: Discuss how the sub-parts were tested,
how the complete system was tested and how measurements were made. Include
observations.
5. Chapter 5: Results and Conclusions: Analyze the observations made in previous
chapter. Discuss why the specifications were not met or the reasons for the
failure, if any. Discussed the problems and difficulties encountered and how they
were / can be eliminated. Discuss any extension work or modifications, which you
want to suggest.
6. Chapter 6: References: List the books, magazines and data manuals used.
12
Submission Process: Student should prepare 2 copies of the Project Report. At the beginning,
the respective Project Guide must approve both copies positively before the end examination
of T01085: Technical Paper & Project. Then respective Study Center Coordinator approves
both copies of the Project Report. Student should submit one of these approved copies to
the study center. The student should retain remaining one of these approved copies. Study
center should preserve their copy of, all project reports, till the end examination of T01085:
Technical Paper & Project. Even student must bring his own copy during this end
Page 164
examination.
13
Project Report Format:

The project report should be printed on only right side of A4 size (210 mm ´ 297
mm) paper. There is no minimum or maximum page number limit for the
“Project Report”, but report of minimum 15–20 page is expected. University
recommends only flexible binding for the “Project Report”. But, if student wishes,
he may also use spiral binding.

Margins should be as follows :·
o
Left Margin : 40 mm
o
Right Margin : 20 mm
o
Top Margin : 20 mm
o
Bottom Margin : 27 mm

Header should not be used. Footer, containing page number at the center should
only be used, with footer margin of 25 mm.

Text should be printed in font size of 12 points and at interline distance of 18
points. (That is 1.5 line spacing). Normally, figures should be embedded in the
text, where their first reference occurs. But if necessary, figures may be grouped
on separate pages. Figure should be numbered as ‘Fig C.F’, where ‘C’ is chapter
number and ‘F’ is figure number. Figure number ‘F’ is reset back to 1 for each new
chapter.

Page Sequence: (1) Cover page as per specimen 1 (2) Certificate page as per
specimen 2 (3) Acknowledgement page for the help offered by individuals and
institution (4) Content page as per specimen 3. Following suggested scheme of
chapters in project report then follows these first 4 pages.
14
Specimen of Pages
Specimen 1
Project Title
Bachelor of Technology
in
Marine Engineering
Submitted by
Name of Student
Project Guide
Name of Project Guide
Name of the Study Center
Yashwantrao Chavan Maharashtra
Open University
2006
Specimen 2
Certificate
This is to certify that
Mr/Ms ................... ....................
..................... (PRN: ...................)
has successfully completed a project entitled
"..................................................."
in partial fulfillment for the requirement of
Bachelor of Technology in
Marine Engineering
Specimen 3
Contents
1. Introduction
1.1 Background
1.2 Need for Work
1.3 Brief Idea
2. System Overview and Design
2.1 Operation
2.2 Design Parameters
Page 165
2.3 System Design
3. Module Design
3.1 Module 1
3.2 Module 2
3.3 Module 3
4. Testing and Troubleshooting
4.1 Module 1
4.2 Module 1
4.3 Module 1
5. Results and Conclusions
5.1 Further Modifications
5.2 Summary
6. Reference
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01085-TB1
Any of the books for the courses completed
during semester 1 to semester 7.
T01085-TB2
Reference-Books
Any connected reference books connected
T01085-RB1
for the project.
T01085-RB2
CD / DVD
T01085-CD1
T01085-CD2
Web Links
T01085-WL1
T01085-WL2
Page 166
T01086: FIRE CONTROL LAB
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01086 Fire Control Lab
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives

10+2 or HSC or ISC

Control and extinguish fires.
DETAILS SYLLABUS
CP
Block
Questions
Testing and operation of Jet and spray type nozzles and fire hoses.
Students
1-1 Operation, charging and maintenance of Soda acid type fire
have to
extinguishers
submit
‘Report of
1-2 Operation, charging and maintenance of Foam type fire extinguishers
Activities’
Operation, charging and maintenance of Dry powder type fire
1-3
in CA and
extinguishers
CP
Operation use and function of Breathing apparatus.
Block face Viva
for end
1-4 (a) Self contained Type
01
exam on
(b) Bellow Type
CSs
1-5 Use of fireman's outfit
01-106 these units.
1-6 Study of working of life boat and provisions for life boat.
1-7 Use of life jackets.
Construction and operational details of life raft giving importance to
1-8
manual and hydrostatic release devices.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01086-TB1
T01086-TB2
Reference-Books
Page 167
T01086-RB1
T01086-RB2
CD / DVD
T01086-CD1
T01086-CD2
Web Links
T01086-WL1
T01086-WL2
Page 168
T01087: CONTROL AND SIMULATOR LAB
SN Description
1 University
2
3
4
5
School
Discipline
Level
Course Used in
Details
Technology
UG
COURSE INFORMATION
01 T01087 Control and Simulator Lab
CP CST CAT ST
2 106 2 60
CA
10
EE
40
TM Type
50
P
Presumed Knowledge
Learning Objectives
 Understand remote operation and
maintain such equipment on board.
DETAILS SYLLABUS
1-1
1-2
1-3
1-4
1-5
1-6
1-7
1-8
CP
Block
Questions
Description of basic engine functions and their simulation introduced
Students
in Auto-Chief-II system of Nor-Control.
have to
submit
Manual method of engine operation for engine room station.
‘Report of
Engine Operation from Remove stations –i.e. engine control room and
Activities’
Navigation bridge.
in CA and
Safety and interlocks in UMS-ships and effect of malfunction to main CP
engine auxiliaries.
Block face Viva
for end
Electronic logic circuits in remote control stations.
01 CSs
exam
on
01-53
Simulation of engine functions in logic circuits.
these units.
Study and adjustments of logic circuits for remote control operation of
main engine and trouble shooting.
Interfacing Input/Output interfacing and pneumatic interfacing in the
system.
2-1 Role of classification societies with reference to UMS-Ships.
Students
have to
Operation of Automatic Viscosity Controller and maintaining a specific
2-2
submit
viscosity of a given fuel.
CP
Operation of an Automatic flow controller and measuring the flow Block ‘Report of
2-3
from in a given pipe.
02 CSs Activities’
54-106 in CA and
2-4 Operation and utility of a 3 Term (P + I + D) Pneumatic controller.
face Viva
Study the functioning of a Mist Detector and checking the alarm when
2-5
for end
the Pre-set value is exceeded.
Page 169
Study the operation of fire detection unit using Ionization chamber
type detector.
CNC & VMC machines, microprocessor controlled DC & Ac machines,
2-7
SCADA.
2-6
exam on
these units.
LR Code
Title
Author
Edition
Year
ISBN
Publisher
Text-Books
T01087-TB1
T01087-TB2
Reference-Books
T01087-RB1
T01087-RB2
CD / DVD
T01087-CD1
T01087-CD2
Web Links
T01087-WL1
T01087-WL2
END OF DOCUMENT
Page 170

Syllabus V23:B.Tech.Marine Engineering

Transcription

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