Course Brochure - Egerton Consulting
Transcription
Course Brochure - Egerton Consulting
Course Brochure 2015/16 Training solutions from Egerton Consulting Contents Introduction ...................................................................................................... 1 Open and In-Company Training ....................................................................... 2 Open Courses .................................................................................................. 3 Introduction to Reliability Engineering .......................................................... 3 Preliminary Hazard Analysis ......................................................................... 4 Introduction to FMEA and Human Error Identification .................................. 5 Failure Modes and Effects Analysis (FMEA) ................................................ 6 Failure Modes, Effects and Criticality Analysis (FMECA) ............................. 7 Fault Tree and Event Tree Analysis (FTA and ETA) .................................... 8 Availability, Reliability and Maintainability (ARM) Studies ............................ 9 Vital Statistics for Safety and Reliability Engineers .................................... 10 Proposed Schedule of Open Courses 2015/16 .............................................. 11 Booking Form................................................................................................. 12 Introduction Welcome to our training solutions brochure. Here you will find information about each of our courses, so you can choose the best one for you. Egerton Consulting has been running courses in Reliability Engineering and Statistical Science for over 10 years. During this time we have fine-tuned our courses based on feedback from our delegates to ensure you receive the best training possible. In addition, we operate a Quality Management System which has been ISO 9001:2008 certified, so you have the assurance of our commitment to providing a service of quality. Our courses are designed to not only enhance your skills, but also to provide a competitive advantage to your organisation. Training sessions are structured to stimulate discussion and give you the opportunity to explore areas that are relevant to your workplace. This flexibility also enables us to address any issues that arise during the training sessions themselves. Our course presenters are practising consultants who have many years’ experience of applying the techniques they teach, so rather than taking away just theory, you’ll have a practical understanding of the principles and how they can be used to address the challenges you face on a day-to-day basis. This is supported with many real-life examples as well as practical exercises. We also believe that an appreciation of the ideas and philosophy underlying each of the techniques is fundamental to gaining understanding, so this is a core part of our training. You will be given a set of comprehensive course notes at the beginning of your course, as well as copies of the presentations. This means you can review the course material and refresh your knowledge days, weeks or even months later. And while you gain confidence in applying the techniques you have learnt, we offer ongoing help and support with half a day’s free consultancy advice included in your course fee. If you have little or no experience, we recommend that you attend our Introduction to Reliability Engineering course, which we run twice a year, before moving on to other more specialised subject areas. Please feel free to contact us if there is anything you want to discuss, or if you have any questions. We look forward to hearing from you. Amanda and Martin Egerton 1 Open and In-Company Training We run a programme of open courses throughout the year. Our open courses are ideal if you are looking to train just one or two people from your organisation in a particular subject area. We always encourage discussion around each delegate’s particular workplace challenges, ensuring a practical understanding of the techniques. We also offer a discount if you wish to make a booking for two or more delegates on any one of our open courses – the second and each additional delegate will receive a 20% discount. With us you can make your training plans with confidence. If we have accepted a booking for a course, our policy is to run it – we will never cancel or postpone a course because of low numbers, so you won’t be disappointed. To ensure personal attention and interactive discussion, we limit numbers on our open courses to a maximum of eight delegates. All of our open courses are currently held in the Swindon area either at a conference venue or, for smaller groups, at our own training facility in the nearby village of Minety. Places on open courses can be booked in any of four ways: 1. 2. 3. 4. By telephoning us on +44 (0)1666 860993 Online via our website at www.egertonconsulting.com By sending an email to us at [email protected] By posting a completed Booking Form to us at Egerton Consulting Ltd, The Green, Minety, Malmesbury, Wiltshire, SN16 9PL, UK If you are looking for a more flexible solution, or you have a number of delegates who would benefit from training, then we can tailor a course to your specific requirements. Our in-company courses can be run at a venue of your choice. In-company courses have the added advantage of helping to facilitate team-building. If you have four or more delegates, they also offer a cost-effective solution. Please give us a call on +44 (0)1666 860993 to discuss your training needs. We’ll be happy to provide a no obligation quotation for running a course tailored to your requirements. If you have any further questions before choosing a training solution, contact us and we will be pleased to help. 2 Open Courses Introduction to Reliability Engineering 5 Day Course Proposed Course Dates: 2 - 6 March 2015 28 September - 2 October 2015 29 February – 4 March 2016 26 – 30 September 2016 Who should attend? If you're looking for a general introduction to all of the main reliability engineering techniques, then this course is for you. Whether you work in reliability engineering or safety analysis this course will give you a fundamental understanding of the techniques and how to apply them to engineering systems. Why attend? In today's competitive environment organisations are being constantly challenged to improve performance and reduce costs. By effectively applying reliability engineering techniques you can achieve dramatic improvements in the reliability and availability of process plant resulting in savings of up to 10% in capital costs and similar savings in plant operation. What does the course cover? This course removes the mystique surrounding reliability engineering techniques and covers: Reliability Block Diagrams Failure Modes and Effects Analysis (FMEA) Hazard and Operability (HAZOP) Studies Fault Tree Analysis Dependent / Common Cause Failures Event Tree Analysis Markov Analysis Component Failure and Repair Distributions Monte Carlo Simulation Maintenance and Maintainability Analysis (including Reliability Centred Maintenance) Root Cause Analysis Reliability Data and Analysis Engineering applications and examples are provided throughout. Price: £1495 + VAT 3 Preliminary Hazard Analysis 1 Day Course Proposed Course Dates: In-company course only Who should attend? If you want to identify and overcome deficiencies in design but have no experience of reliability engineering then this is the course for you. Whether you work in R&D, design, construction or operations this course will give you the understanding and confidence to identify hazards associated with your own plant and processes. Why attend? It is important to identify hazards in advance of their occurrence if safety and reliability are to be maximised without incurring excessive costs. Preliminary Hazard Analysis (also known as What If? Analysis) is a very simple but effective technique for identifying such hazards. You can then take appropriate action either to design them out or to manage their consequences and so ensure that the likelihood of major incidents in the future can be reduced or minimised. What does the course cover? The PHA approach and its application The incorporation of checklists within PHA Preparing for the PHA study sessions Recording the study sessions Producing the final report We encourage interaction and delegate participation throughout the course, and group exercises ensure that you come away with practical experience of actually applying PHA techniques. Price: please contact us for details 4 Introduction to FMEA and Human Error Identification 2 Day Course Proposed Course Dates: In-company course only This course is run jointly with Liv Systems, specialists in human factors. Who should attend? If your role involves responsibility for reliability and human factors issues, in either a technical or non-technical capacity, then this introductory course has been designed for you. Why attend? FMEA is one of the most established methods for identifying hazards associated with equipment faults and failures in new products and systems. SHERPA is a widely used technique for recognising ways in which human error may impact on product or system performance. Used together, FMEA and SHERPA provide a powerful combination for analysing new product and system designs to identify the ways in which failures or errors may occur and to improve the design in the light of this revealed information. What does the course cover? Introduction to FMEA o Explanation of terms, including “Failure Mode”, “Failure Cause” and “Failure Effect” o The principles of FMEA o The FMEA methodology and its application Introduction to SHERPA o Definition and explanation of the term “Human Error” o The principles of Human Error Identification o The SHERPA methodology o The basic principles of Human Error Reduction Engineering applications and examples are provided throughout. Price: please contact us for details 5 Failure Modes and Effects Analysis (FMEA) 2 Day Course Proposed Course Dates: 11 - 12 May 2015 9 - 10 November 2015 16 - 17 May 2016 14 - 15 November 2016 Who should attend? If you're a manager or engineer looking for an overview of the FMEA technique and an insight into how FMEA information is used, then this course is for you. Why attend? FMEA is one of the most established methods for identifying hazards in new plant. It also forms the first stage of more recently developed techniques such as Reliability Centred Maintenance (RCM) making it one of the most widely used analysis tools for reliability or availability improvement and cost reduction. What does the course cover? Failure Modes and Effects Analysis (FMEA) methodology Breaking down the system into sub-systems Functional FMEA Hardware FMEA Reporting and documentation Engineering applications and examples are provided throughout. If, in addition to FMEA, you'd also like to learn about risk considerations and specialist techniques for determining the impact of failure modes, our 4 day course in FMECA covers these (see page 7). Price: £695 + VAT 6 Failure Modes, Effects and Criticality Analysis (FMECA) 4 Day Course Proposed Course Dates: 11 - 14 May 2015 9 - 12 November 2015 16 - 19 May 2016 14 - 17 November 2016 Who should attend? If you're a reliability or safety engineer, or a specialist who is responsible for the design of systems that require demonstrably high safety, reliability or availability, then this course is for you. Why attend? FMECA is one of the most established and powerful methods for identifying hazards in new plant and ranking them according to the frequency and impact of their occurrence - it has a fundamental role in any safety or reliability study. FMECA gives organisations the ability to improve performance, demonstrate safety integrity and reduce costs. An understanding of FMECA is essential if you're involved in the design, construction or operation of high capital value plant. What does the course cover? Failure Modes and Effects Analysis (FMEA) methodology Breaking down the system into sub-systems Functional FMEA Hardware FMEA Rapid Ranking Criticality Analysis Parts Count Variants of the FMEA process Reliability Centred Maintenance (RCM) Reporting and documentation Engineering applications and examples are provided throughout. Price: £1295 + VAT 7 Fault Tree and Event Tree Analysis (FTA and ETA) 5 Day Course Proposed Course Dates: 2 - 6 February 2015 25 - 29 January 2016 Who should attend? If you have recently moved into the field of reliability or safety engineering, or you’re a specialist who is responsible for the design, construction, operation or assessment of systems that require demonstrably high reliability or availability, then this course is for you. Why attend? Fault Tree Analysis and Event Tree Analysis (FTA and ETA) are two of the most widely used techniques in reliability and safety assessment. They will give you a powerful problem-solving methodology, their results providing important feedback for designers and management regarding the strengths and weaknesses of proposed designs. You’ll come away with a sound understanding of how FTA and ETA can be applied and the principles that lie behind the techniques. This course is therefore relevant regardless of the software system your organisation uses. What does the course cover? Introduction to Fault Tree Analysis Fault Tree symbols and methodology Fault Tree construction Fault Tree reduction Fault Tree quantification Human Factors Dependent Failures Event Tree Analysis Engineering applications and examples are provided throughout. Price: £1495 + VAT 8 Availability, Reliability and Maintainability (ARM) Studies 5 Day Course Proposed Course Dates: In-company course only Who should attend? If your role involves responsibility for reliability issues, either in a technical or nontechnical capacity, then this introductory course is for you. Why attend? Availability, Reliability and Maintainability (ARM) Studies, also known as R&M, RAM or RAMS, have a philosophy of progressive assurance, enabling reliability engineering techniques to be implemented throughout the life of an asset, from conception to disposal, more effectively than has been achieved in the past. This course will introduce the ARM philosophy and the techniques that it uses, as well as giving you a basic knowledge of ARM and how to integrate it into a project life-cycle. The emphasis is on determining what analysis work needs to be done, when to do it, and how much detail to go into. What does the course cover? ARM philosophy and terminology The ARM Plan Reliability Block Diagrams Failure Modes and Effects Analysis Fault Tree Analysis Maintainability issues Communication and coordination Reporting and documentation Engineering applications and examples are provided throughout. Price: please contact us for details 9 Vital Statistics for Safety and Reliability Engineers 4 Day Course Proposed Course Dates: 22 - 25 June 2015 20 - 23 June 2016 Who should attend? If you want to gain an understanding of the statistical and probabilistic techniques that are applied in safety and reliability analysis (including ILS), then this course is for you. It is also suitable if you’re already familiar with the basic concepts but are now looking to consolidate and enhance your safety and reliability expertise. Why attend? As practitioners rather than purely trainers or academics, we offer a unique perspective on how statistical analysis is applied in practice. Statistical and probabilistic techniques are widely used in safety and reliability work and are an essential part of any quantitative analysis in these fields of engineering. This course will remove the mystique that often surrounds the use of these techniques and will explain how they are applied in practice. By the end of this course you will have gained a good understanding of these techniques and developed new confidence in applying them. Full practical illustrations are given throughout the course using the wide range of statistical functions available within Microsoft Excel. What does the course cover? Statistics and probability – their meaning and relevance Probability and statistical measures - mean and standard deviation Probability distributions and their applications Estimation, hypothesis testing and confidence intervals Analysing data and quantifying uncertainty Fitting a distribution, probability plotting, and goodness-of-fit The Weibull distribution and why it is important Regression analysis – estimating how cause and effect are related Models in safety and reliability – FTA, Monte Carlo, Markov, etc. Spares holding – how to calculate the number needed Other useful techniques – cusum charts, extreme value distributions, nonparametric statistics, Bayesian methods, the Duane model Engineering applications and examples are provided throughout. Price: £1295 + VAT 10 Proposed Schedule of Open Courses 2015/16 Here is our proposed programme of Open Courses for 2015/16. Please check our website www.egertonconsulting.com prior to booking as occasionally we may need to change some of these dates. Once we have accepted a booking for a course, you can rest assured, except in circumstances beyond our control, we will not cancel or change the date without your agreement. Date Price1 2 – 6 February £1495 Introduction to Reliability Engineering 2 – 6 March £1495 Failure Modes and Effects Analysis 11 – 12 May £695 Failure Modes, Effects and Criticality Analysis 11 – 14 May £1295 Vital Statistics for Safety and Reliability Engineers 22 – 25 June £1295 28 Sept – 2 Oct £1495 Failure Modes and Effects Analysis 9 – 10 November £695 Failure Modes, Effects and Criticality Analysis 9 – 12 November £1295 25 – 29 January £1495 29 Feb – 4 March £1495 Failure Modes and Effects Analysis 16 – 17 May £695 Failure Modes, Effects and Criticality Analysis 16 – 19 May £1295 Vital Statistics for Safety and Reliability Engineers 20 – 23 June £1295 Introduction to Reliability Engineering 26 – 30 September £1495 Failure Modes and Effects Analysis 14 – 15 November £695 Failure Modes, Effects and Criticality Analysis 14 – 17 November £1295 Course Title 2015 Fault Tree and Event Tree Analysis Introduction to Reliability Engineering 2016 Fault Tree and Event Tree Analysis Introduction to Reliability Engineering 1 Prices quoted exclude UK Value Added Tax (currently 20%) 11 Booking Form I wish to book a place on the course ......................................................................................... to be held on [date] ............................................................................................................... Delegate Details Name Job title and department Company name Company address Contact tel. no. Email address Payment Details A cheque for the Total Payment is enclosed, made payable to Egerton Consulting Ltd. A bank transfer for the Total Payment has been made to Nationwide Building Society Account Name Egerton Consulting Ltd, Sort Code 07-00-55, Account No. 78465726. Please ensure that your name or your company name is given as the payment reference Raise an invoice based on Purchase Order reference ________________ Documentation You will be sent full details of the course venue and directions four weeks before the start of your course. You will also be given comprehensive course notes for each session on arrival. Cancellation Policy A 75% refund will be given on any cancellation made in writing or by email at least 28 days prior to the commencement date of the course, and otherwise at our discretion. No charge will be made for substitutions, although please inform us of any changes. Our policy is to run any course for which we have accepted a booking, but we must reserve the right to cancel or reschedule any course or to change its venue if necessary. In this event our liability will be limited to a 100% refund of the course fee. Signature: Date: 12 FOUR ways to book your Training Course with Egerton Consulting: 1. Telephone +44 (0)1666 860993 2. Website: www.egertonconsulting.com/training/ 3. Email [email protected] 4. Post your Booking Form to: Egerton Consulting Ltd The Green Minety Malmesbury Wiltshire SN16 9PL United Kingdom How to Pay Payment can be made by Internet Banking or Cheque. Alternatively, to be invoiced, please quote a Purchase Order reference. 13