XLP2 Evaporative Condensers

Transcription

Form 140.920 SED (NOV 2009)
SPECIFICATIONS - ENGINEERING DATA - DIMENSIONS
File:
Replaces:
Dist:
EQUIPMENT MANUAL - Section 140
140.920 SED (JUL 2009)
1, 1a, 1b, 1c, 4, 4b, 4c
XLP2 Evaporative
Condensers
A Reliable, Premium Quality Product
with Long-Term Low Cost of Ownership
Please check www.johnsoncontrols.com for the latest version of this publication.
140.920-SED (NOV 09)
Page 2
XLP2 EVAPORATIVE CONDENSERS
SPECIFICATIONS - ENGINEERING DATA - DIMENSIONS
Contents
Low Energy Consumption............................................ 3
Low Installed Cost....................................................... 3
UniLink™ System..................................................................3
Easy Maintenance....................................................... 3
1 - Heavy Duty Construction.......................................4
2 - Water Distribution System....................................4
3 - Coil........................................................................4
4 - Drift Eliminators....................................................4
5 - Independent Fan Drive System ............................4
6 - Low Horsepower Axial Fan(s)................................4
7 - Recirculating Spray Pump......................................4
8 - Access Door..........................................................4
9 - Strainer (Not Shown)............................................4
Long Service Life.........................................................4
Reliable Year Round Operation...................................4
Construction Details.................................................... 5
Custom Features and Options..................................... 6
Construction Options.................................................. 6
Optional TripleGuard™ Corrosion Protection System:.........6
Optional DuraTest™ Construction: . ....................................6
Thermosetting Hybrid Polymer:............................................6
Optional Water-Contact Stainless Steel Cold Water Basin:.6
Optional Water-Contact Stainless Steel Construction:.........6
Optional All Stainless Steel Construction:............................6
Coil Configurations...................................................... 6
Standard Serpentine Coil:.....................................................6
Optional Extended Surface Coil:...........................................6
Optional Stainless Steel Coil:...............................................6
Optional ASME “U” Stamp Coil:...........................................6
Independent Drive System.......................................... 7
Extended Lubrication Lines......................................... 7
Multiple Refrigerant Circuit Coils (Option).................. 7
Auxiliary Water or Glycol Circuit (Option)................... 7
Copper Sweat Fittings (Option)................................... 7
Accessories................................................................. 8
Pre-Assembled Platforms, Ladders, & Safety Cages
(Option)....................................................................... 8
Vibration Cutout Switch (Option)................................ 8
Single-Point Wiring (Option)....................................... 8
Electric Water Level Control Package (Option)........... 8
Basin Heaters (Option)................................................ 8
Basin Sweeper Piping (Option).................................... 8
Solid Bottom Panels (Option)...................................... 8
Steel Eliminators (Option)........................................... 8
Table 1: Heater kW Data............................................. 9
Premium Efficient Motors............................................ 9
Structural Support....................................................... 9
Beam Size and Length................................................. 9
Table 2: Beam Data................................................... 10
Table 3: Heat Rejection Capacity Factors – R-717 ... 10
Selection................................................................... 10
Heat Rejection Method............................................. 10
Selection Procedure.................................................. 10
Table 4: Base Heat Rejection.................................... 11
Selection Example..................................................... 12
Solution:.................................................................... 12
Table 5: Heat Rejection Capacity Factors – R-134a... 12
Evaporator Ton Method............................................ 12
Selection Procedure.................................................. 12
Selection Example: Screw Compressor..................... 12
Table 6: Base Corrected Evaporator Tons . ............. 13
Table 7: Evaporator Capacity Factors – R-717 ......... 14
Table 8: Evaporator Capacity Factors – R-134a........ 14
Table 9: Suction Temperature Factors – R-717 ........ 14
Table 10: Suction Temperature Factors – R-134a..... 14
Engineering Data/Dimensions.................................... 15
Engineering Specifications........................................ 24
1.0 Evaporative Condenser........................................ 24
2.0 Construction Details . ......................................... 24
3.0 Mechanical Equipment........................................ 25
4.0 Sound.................................................................. 25
5.0 Accessories........................................................ 25
SPECIFICATIONS
•
Full Size, Hinged Access Doors
•
Pre-Assembled Platforms, Ladders & Safety
Cages
•
Premium Efficient Inverter Duty Motors
•
IBC Compliant
•
Independent Drive System
•
TripleGuard™ Corrosion Protection System Option
•
UniLink™ System
140.920-SED (NOV 09)
Page 3
Modular Design — Large models ship in multiple sections to
minimize the size and weight of the heaviest lift, allowing for
the use of smaller, less costly cranes.
Single-Point Wiring (Optional) — Single-point wiring
decreases installation time by routing wires, from motors
(fan and pump) and options such as Vibration Cutout Switch
(VCOS), Electric Water Level Control (EWLC) and basin heaters,
in UL-listed conduit to a stainless steel NEMA 3R electrical box.
Easy Maintenance
Evaporative condensers minimize the energy consumption of
the entire system by providing lower condensing temperatures.
Owners save money while conserving natural resources and
reducing environmental impact.
Access Doors — Two 30” x 42” access doors are standard
on side blow units and one on end blow units. This allows
the interior of the unit to be easily accessed for adjusting the
float valve, cleaning the strainer or flushing the basin. A large
hinged internal partition door and an external door step are
standard on all side blow units.
XLP2 Evaporative Condensers provide the heat rejection
required at the lowest possible energy via:
Harmony™ Removal System — Water distribution branch
removal system that requires no tools.
Low Energy Consumption
• High efficient, low horsepower axial fans
• Premium efficient/VFD duty motors (standard)
• Variable Frequency Drives (Optional)
• Multiple fan models allow for capacity staging
Low Installed Cost
UniLink™ System — The coil section self aligns with the basin
section. This feature significantly reduces the time required to
rig the XLP2. Newly designed rigging ears allow for use of a
single spreader bar per lift.
Full Size Access Door(s) as Standard
Hygienic Cold Water Basin — The cold water basin is sloped
to eliminate stagnant water and reduce biological growth.
Additionally, the suction strainer is easily removed to simplify
maintenance.
UniLink™ System
Support — All models mount directly on twoparallel I-beams
and ship complete with motors and drives factory-installed
and aligned.
Fan Motors — The fan motors for the XLP2 are mounted
in a horizontal position on an adjustable base. To aid belt
tensioning and changing, the base is easily adjusted by turning
one large nut.
140.920-SED (NOV 09)
Page 4
SPECIFICATIONS
Long Service Life
Materials of Construction — Various materials are available to
meet the corrosion resistance and budgetary requirements
of any project (see Construction Options section).
IBC Compliance — XLP2 Evaporative Condensers are designed
to meet requirements of the 2006 International Building
Code (IBC). Specifically, a unit was shake table tested at
an independent lab in accordance with AC 156. Tests were
conducted before and after testing to verify functionality and
certify the use of XLP2 Evaporative Condensers in applications
where the Component Importance Factor is 1.5. The standard
unit can be verified up to an SDS of 1.4g which covers most US
seismic applications. In addition, XLP2 Evaporative Condensers
have been designed to withstand wind loads of 30 psf or higher.
1 - Heavy Duty Construction
• G-235 (Z700 metric) hot-dip galvanized steel
panels
2 - Water Distribution System
• Schedule 40 PVC spray branches
• Large orifice, 360° nonclog nozzles
• Nozzles and spray branches grommetted for easy
maintenance
3 - Coil
• Continuous serpentine, steel tubing
• Hot-dip galvanized after fabrication (HDGAF)
• Pneumatically tested at 375 psig
• Sloped tubes for free drainage of fluid
• ASME B31.5 compliant
• Orders shipping into Canada are supplied with
a CRN
4 - Drift Eliminators
• Polyvinyl chloride (PVC)
• Impervious to rot, decay, and biological attack
• Flame spread rating of 5 per ASTM E84
• Assembled in easy to handle sections
IBC Compliant XLP2 Evaporative Condenser
Reliable Year Round Operation
Powerband Belts — The fans, motor, and drive system are
located outside of the moist discharge airstream, protecting
them from moisture, condensation and icing. Backed by a
5-year fan drive and motor warranty, these units are suitable
for year round operation.
5 - Independent Fan Drive System
• Premium quality, solid-backed, multigroove belt
• Heavy-duty bearings L10 94,000 hours
• Extended lubrication lines
• Premium efficient/VFD Duty fan motors are
standard
• 5-year motor and drive warranty
Bearings — Minimum L10 bearing life of 94,000 hours delivers
years of trouble-free service.
6 - Low Horsepower Axial Fan(s)
Nozzles — The nozzle design ensures the coil is completely
wetted thereby delivering optimum heat transfer.
7 - Recirculating Spray Pump
• Corrosion resistant
• Close coupled, bronze, fitted centrifugal pump
• Totally enclosed fan cooled (TEFC) motor
• Bleed line with metering valve installed from
pump discharge to overflow
8 - Access Door
• Interior of unit is easily accessible
• Two 30” x 42” access doors are standard on side
blow units
• One 30” x 42” access door is standard on end
blow units
9 - Strainer (Not Shown)
• Antivortexing design to prevent air entrainment
SPECIFICATIONS
140.920-SED (NOV 09)
Page 5
Construction Details
4
1
2
3
6
Upper Section
8
9
5
7
Lower Section:
XLP2 Side Discharge Models
8
6
5
XLP2 End Discharge Models
140.920-SED (NOV 09)
Page 6
SPECIFICATIONS
Custom Features and Options
Construction Options
Standard Construction:
Steel panels and structural elements are constructed of G-235
(Z700 metric) hot-dip galvanized steel.
Optional TripleGuard™ Corrosion Protection System:
The cold water basin is constructed of the TripleGuard™
Corrosion Protection System. The system consists of a heavygauge G-235 galvanized steel substrate, fully encapsulated by
a thermosetting hybrid polymer and further protected by a
polyurethane barrier applied to all submerged surfaces of the
cold water basin. The basin is leak tested at the factory and
warranted against leaks and corrosion for 5 years.
Optional DuraTest™ Construction:
DuraTest™ Construction combines the most corrosion resistant
materials to provide the best value in corrosion protection for
most water chemistries. Specifically, the following materials
are used:
• The cold water basin is constructed with the TripleGuard™
Corrosion Protection System. The basin is leak tested at
the factory and warranted against leaks and corrosion for 5
years.
• Designated steel components above the cold water basin
are constructed of heavy-gauge G-235 galvanized steel and
further protected with a thermosetting hybrid polymer.
Thermosetting Hybrid Polymer:
A thermosetting hybrid polymer coating used to extend
equipment life, is applied to select hot-dip galvanized steel
components of the condenser. The thermosetting hybrid
polymer has been tested to withstand 6000 hours in a 5% salt
spray without blistering, chipping, or loss of adhesion.
Optional Water-Contact Stainless Steel Cold Water Basin:
A cost effective alternative to an all stainless steel cold water
basin, all critical components in the cold water basin are
provided in Type 304 stainless steel. The remaining components
are constructed of the base material of construction (galvanized
steel or a thermosetting hybrid polymer). Seams between the
panels inside the cold water basin are welded. The basin is
leak tested at the factory and welded seams are provided with
a 5-year leak-proof warranty.
Serpentine Coil
Coil Configurations
Standard Serpentine Coil:
The standard refrigerant coil is constructed of continuous
lengths of all prime surface steel, hot-dip galvanized a f t e r
fabrication (HDGAF). The galvanizing is on the outside surface
of the coil. The coil is designed for low pressure drop
with sloping tubes for free drainage of fluid. Each coil is
pneumatically tested at 375 psig (2,586 kPa) and is ASME B31.5
compliant.
Optional Extended Surface Coil:
Coils are available with finning at 5 fins per inch for seasonal
wet/dry operation. The coil is hot-dip galvanized after
fabrication (HDGAF). The galvanizing is on the outside
surface of the coil. The coil is designed for low pressure
drop with sloping tubes for free drainage of fluid. Each coil is
compliant.
Optional Stainless Steel Coil:
Coils are available in Type 304 stainless steel for specialized
applications. The coil is designed for low pressure drop
with sloping tubes for free drainage of fluid. Each coil is
compliant.
Optional Water-Contact Stainless Steel Construction:
Optional ASME “U” Stamp Coil:
A cost effective alternative to all stainless steel construction,
all components that are exposed to the recirculating water are
provided in Type 304 stainless steel. The remaining components
are constructed of the base material of construction (galvanized
steel, or a thermosetting hybrid polymer).
This coil is manufactured and tested in accordance with the
ASME Boiler and Pressure Vessel Code, Section VIII, Division
1, and bears the ASME “U” stamp. ASME coils are hot-dip
galvanized (outside surface) after fabrication (HDGAF). The
coil is designed for low pressure drop with sloping tubes for
free drainage of fluid. Each coil is pneumatically tested at 335
psig (2,310 kPa).
Optional All Stainless Steel Construction:
Steel panels and structural elements are constructed of Type
304 stainless steel.
When required, orders shipping into Canada are supplied with
a CRN. Other coil configurations are available for specific
applications. Contact your local Frick Representative for
details.
SPECIFICATIONS
The fans, motors, and drive system of the XLP2 are located
outside of the moist discharge air stream, protecting them
from moisture and icing, while facilitating maintenance.
• Fans are supplied with dedicated motors
• Minimum L10 bearing life is 94,000 hours
• Premium efficient/inverter duty motors are standard
• Motors meet NEMA Standard MG 31, Section IV, Part 31
• Dual drive option is available for retrofit applications to
avoid costly rewiring
Extended Lubrication Lines
Extended lubrication lines with grease fittings located outside
the fan section for lubrication of the fan shaft bearings are
standard on XLP2 Evaporative Condensers.
Multiple Refrigerant Circuit Coils (Option)
Multiple circuit coils are generally required on halocarbon
refrigerant systems, where it is common practice to maintain
individual compressor systems. The quantity of circuits,
capacity per circuit, and desired connection size should be
specified when requesting this option.
Auxiliary Water or Glycol Circuit (Option)
A circuit can be isolated to provide cooling of a water or
glycol loop for compressor jacket cooling. The flow rate and
entering temperature should be specified when requesting this
option. The leaving temperature should be the same as the
condensing temperature.
Copper Sweat Fittings (Option)
Optional copper sweat fittings are available to simplify field
piping for halocarbon based systems.
Extended Lubrication Lines
140.920-SED (NOV 09)
Page 7
140.920-SED (NOV 09)
Page 8
SPECIFICATIONS
Accessories
Pre-Assembled Platforms, Ladders, & Safety Cages
(Option)
Modular external platforms are pre-assembled at the factory
to ensure that every component will fit and function exactly
as described. The platform will attach quickly in the field with
minimal fasteners. Platforms can be added at the time of order
or as an aftermarket item. Safety gates are available for all
handrail openings. All components are designed to meet OSHA
requirements.
Vibration Cutout Switch (Option)
A factory-mounted vibration cutout switch is available to
effectively protect against equipment failure due to excessive
vibration of the mechanical equipment system. Frick can
provide either a mechanical or solid-state electronic vibration
cutout switch in a NEMA 4 enclosure to ensure reliable
protection. Additional contacts can be provided to activate
an alarm.
Pre-Assembled External Platform Sections
Single-Point Wiring (Option)
Frick offers the option for Single-point Wiring on XLP2
condensers. Single-point wiring decreases installation time by
routing wires, from motors (fan and pump) and options such
as VCOS, EWLC and basin heaters, in UL-listed conduit to a
stainless steel NEMA 3R electrical box.
Electric Water Level Control Package (Option)
The electric water level control replaces the standard
mechanical makeup valve when a more precise water level
control is required. This package consists of a conductanceactuated level control mounted in the basin and a solenoid
activated valve in the makeup water line. The valve is slow
closing to minimize water hammer.
Basin Heaters (Option)
XLP2 Evaporative Condensers exposed to below freezing
ambient temperatures require protection to prevent freezing
of the water in the cold water basin when the unit is idle.
Factory installed electric immersion heaters, which maintain
+40°F (4.4°C) water temperature, are a simple and inexpensive
way of providing such protection.
Variable Frequency Drive
Basin Sweeper Piping (Option)
Basin sweeper piping is an effective method of eliminating
sediment that may collect in the cold water basin of the unit.
A piping system is provided for connection to side stream
filtration equipment (by others).
Solid Bottom Panels (Option)
Factory-installed bottom panels are required when intake air
is ducted to the unit.
Steel Eliminators (Option)
Steel eliminators are available as an option.
Basin Heater
SPECIFICATIONS
140.920-SED (NOV 09)
Page 9
Table 1: Heater kW Data
0°F (-17.8°C) Ambient Heaters
Model Numbers
XLP2-512-130 thru 512-203
No. of Heaters
1
kW per Heater
6
-20°F (-28.9°C) Ambient Heaters
No. of Heaters
1
kW per Heater
8
10
XLP2-712-164 thru 712-276
1
8
1
XLP2-812-235 thru 812-343
1
8
1
12
XLP2-818-320 thru 818-474
1
12
1
18
10
XLP2-1012-282 thru 1012-545
1
8
1
XLP2-1018-433 thru 1018-729
1
12
1
15
XLP2-1024-564 thru 1024-1089
2
8
2
10
15
XLP2-1036-866 thru 1036-1658
2
12
2
XLP2-1212-321 thru 1212-703
1
10
1
15
XLP2-1218-495 thru 1218-1075
1
15
1
18
XLP2-1224-644 thru 1224-1405
2
10
2
15
XLP2-1236-989 thru 1236-2148
2
15
2
18
Basin Sweeper Piping
Premium Efficient Motors
Premium Efficient Motors
Federal and state regulations have been mandating minimum
energy efficiencies for quite some time. The Energy
Independence and Security Act of 2007, regulates most type
of electric motors used in the industry which were previously
excluded from minimum efficiency requirements.
To ensure our customers receive equipment compliant with
the Energy Independence and Security Act of 2007, effective
on December 19th, 2010, Energy Policy Act, and NEMA
Standard MG 31, Section IV, Part 31, Frick will provide
premium efficient fan motors ranging from 2 to 100 HP as
standard on all products.
Motors are offered in both TEFC and TEAO configuration with
a full range of voltages and orientations and a 5 year warranty.
Premium efficient motors are inverter duty, therefore VFD
ready. With premium efficiency motors as standard, a VFD can
be added at a later time without having to upgrade the motors.
The use of premium efficient motors provides an opportunity
for significant monetary savings through the equipment’s life
span due to average 8% higher operating efficiency and helps
conserve natural resources, preserving the environment.
Structural Support
The recommended support arrangement for the XLP2
Evaporative Condenser consists of parallel I-beams running
the full length of the unit. Besides providing adequate
support, the steel also serves to raise the unit above any
solid foundation which might restrict air movement or prevent
access to the unit. The steel support beam must be level at
the top. Support beams and anchor bolts are to be selected
and installed by others. Refer to the Frick unit certified print
for bolt hole location.
Beam Size and Length
Beam size should be calculated in accordance with accepted
structural practice. Use 65 percent of the operating weight as a
uniform load on each beam. The length of the beam must be at
least equal to the length of the basin. Refer to the Engineering
Data/Dimensions section for basin dimensions.
Maximum permissible beam deflection and center line distances
between bolt holes are tabulated in the Table 2.
140.920-SED (NOV 09)
Page 10
ENGINEERING DATA
Table 2: Beam Data
• Halocarbon evaporative condensers with subcooling
Model Number
XLP2-512-130 thru 512-203
XLP2-712-164 thru 712-276
XLP2-812-235 thru 812-343
XLP2-818-320 thru 818-474
XLP2-1012-282 thru 1012-545
XLP2-1018-433 thru 1036-1658
XLP2-1212-321 thru 1212-703
XLP2-1218-495 thru 1236-2148
D
Max Deflection
4’ 11½”
6’ 4¼”
7’ 8”
7’ 8”
9’ 7½”
9’ 7½”
11’ 7¼”
11’ 7¼”
3/8”
3/8”
3/8”
1/2”
3/8”
1/2”
3/8”
1/2”
Heat Rejection Method
In a mechanical refrigeration system, the function of an
evaporative condenser is to reject heat to the environment.
The heat to be rejected is the sum of the heat input at the
evaporator and the energy input at the compressor. For a
given set of operating conditions, the energy input through
the compression process can vary. Therefore, in order
to accurately determine the proper evaporative condenser
required, it is necessary to establish the compressor energy
input as well as the heat absorbed in the evaporator.
Selection Procedure
D
The Base Heat Rejection of the XLP2 Evaporative Condenser
is shown in Table 3. Tables 4 and 5 present capacity factors to
be applied to the system heat rejection for various condensing
temperatures, entering wet-bulbs, and refrigerants.
1. Establish total heat rejection required in thousands of BTU
per hour (MBH): Total heat rejection = compressor evaporator
capacity (MBH) + compressor BHP x 2,545.
Selection
2. Determine the refrigerant and design conditions for
condensing temperature and entering wet-bulb temperature.
Two methods of unit selection are provided on the following
pages. The heat rejection method is always recommended and
the selection can be made via Frick’s free product selection
software, or manually as described below.
3. Using the appropriate table for the system refrigerant
and model (Tables 4 or 5), determine the capacity factor for
the design condensing temperature and entering wet-bulb
temperature.
NOTE: Consult your local Frick Representative for evaporative
condenser selections for systems utilizing the following:
4. Multiply the total heat rejection by the capacity factor
determined in Step 3.
• Hydrocarbon refrigerants such as propane, butane, or
propylene
• Rotary screw compressors with water cooled oil coolers
5. From Table 3, select the evaporative condenser whose
Base Heat Rejection equals or exceeds the corrected heat
rejection calculated in Step 4.
• Ammonia evaporative condensers with desuperheaters
Download free selection software at www.johnsoncontrols.com.
• Centrifugal compressors
Table 3: Heat Rejection Capacity Factors – R-717 (Ammonia)
Condensing
Pressure
(psig)
Entering Wet-Bulb Temperature (°F)
R-717
Condensing
Temp (°F)
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
151.3
154.1
156.9
159.8
162.6
165.5
168.5
171.5
174.5
177.6
180.7
185.0
187.0
190.2
193.4
196.7
213.7
231.8
85
86
87
88
89
90
91
92
93
94
95
96.3
97
98
99
100
105
110
0.97
0.94
0.91
0.88
0.85
0.83
0.80
0.78
0.76
0.74
0.72
0.69
0.68
0.66
0.65
0.63
0.56
0.50
1.01
0.98
0.95
0.91
0.89
0.86
0.83
0.81
0.78
0.76
0.74
0.71
0.70
0.68
0.66
0.65
0.57
0.51
1.06
1.02
0.99
0.95
0.92
0.89
0.86
0.83
0.81
0.79
0.76
0.73
0.72
0.70
0.68
0.66
0.58
0.52
1.11
1.07
1.03
0.99
0.96
0.93
0.90
0.87
0.84
0.81
0.79
0.76
0.74
0.72
0.70
0.68
0.60
0.53
1.17
1.13
1.08
1.04
1.00
0.97
0.93
0.90
0.87
0.84
0.82
0.78
0.77
0.74
0.72
0.70
0.61
0.54
1.25
1.19
1.14
1.10
1.05
1.01
0.98
0.94
0.91
0.88
0.85
0.81
0.79
0.77
0.75
0.72
0.63
0.55
1.33
1.27
1.21
1.16
1.11
1.07
1.02
0.99
0.95
0.92
0.88
0.84
0.83
0.80
0.77
0.75
0.65
0.57
1.43
1.36
1.29
1.23
1.18
1.13
1.08
1.04
1.00
0.96
0.92
0.88
0.86
0.83
0.80
0.78
0.67
0.58
1.55
1.46
1.39
1.32
1.26
1.20
1.14
1.10
1.05
1.01
0.97
0.92
0.90
0.87
0.84
0.81
0.69
0.60
1.70
1.60
1.51
1.42
1.35
1.28
1.22
1.17
1.11
1.07
1.02
0.97
0.94
0.91
0.87
0.84
0.71
0.62
1.89
1.76
1.65
1.55
1.46
1.38
1.31
1.25
1.19
1.13
1.08
1.02
0.99
0.96
0.92
0.88
0.74
0.64
2.14
1.97
1.83
1.71
1.60
1.51
1.42
1.35
1.28
1.21
1.16
1.09
1.05
1.01
0.97
0.93
0.77
0.66
2.47
2.26
2.08
1.92
1.78
1.67
1.56
1.47
1.38
1.31
1.24
1.16
1.13
1.07
1.03
0.98
0.81
0.68
2.97
2.66
2.40
2.20
2.02
1.87
1.73
1.62
1.52
1.43
1.35
1.25
1.21
1.15
1.10
1.05
0.85
0.71
3.73
3.26
2.88
2.58
2.34
2.13
1.96
1.82
1.69
1.58
1.48
1.36
1.31
1.24
1.18
1.12
0.89
0.74
4.25
3.63
3.16
2.80
2.51
2.27
2.08
1.91
1.77
1.64
1.51
1.44
1.35
1.28
1.21
0.95
0.78
4.13
3.53
3.08
2.72
2.44
2.21
2.02
1.86
1.68
1.60
1.49
1.40
1.32
1.01
0.82
ENGINEERING DATA
140.920-SED (NOV 09)
Page 11
Table 4: Base Heat Rejection
Model
Number
XLP2-512-130
XLP2-512-145
XLP2-512-147
XLP2-512-152
XLP2-512-160
XLP2-512-164
XLP2-512-171
XLP2-512-172
XLP2-512-181
XLP2-512-189
XLP2-512-194
XLP2-512-203
XLP2-712-164
XLP2-712-183
XLP2-712-185
XLP2-712-204
XLP2-712-207
XLP2-712-219
XLP2-712-229
XLP2-712-242
XLP2-712-250
XLP2-712-276
XLP2-812-235
XLP2-812-246
XLP2-812-260
XLP2-812-271
XLP2-812-278
XLP2-812-290
XLP2-812-306
XLP2-812-320
XLP2-812-328
XLP2-812-343
XLP2-818-320
XLP2-818-344
XLP2-818-356
XLP2-818-374
XLP2-818-379
XLP2-818-382
XLP2-818-401
XLP2-818-405
XLP2-818-421
XLP2-818-443
XLP2-818-451
XLP2-818-474
XLP2-1012-282
XLP2-1012-319
XLP2-1012-320
XLP2-1012-324
XLP2-1012-343
XLP2-1012-352
XLP2-1012-362
XLP2-1012-367
XLP2-1012-369
XLP2-1012-387
XLP2-1012-399
XLP2-1012-404
XLP2-1012-418
XLP2-1012-427
XLP2-1012-428
XLP2-1012-433
XLP2-1012-456
XLP2-1012-457
XLP2-1012-461
Base
Heat
Rejection
1,793
1,999
2,029
2,102
2,205
2,264
2,367
2,382
2,499
2,617
2,676
2,808
2,264
2,528
2,558
2,823
2,867
3,028
3,161
3,337
3,455
3,807
3,249
3,396
3,587
3,749
3,837
4,013
4,234
4,425
4,528
4,734
4,425
4,748
4,925
5,175
5,233
5,278
5,542
5,601
5,821
6,115
6,233
6,556
3,896
4,410
4,425
4,484
4,734
4,866
4,998
5,072
5,101
5,351
5,513
5,586
5,777
5,895
5,910
5,983
6,306
6,321
6,365
Model
Number
XLP2-1012-482
XLP2-1012-494
XLP2-1012-503
XLP2-1012-521
XLP2-1012-545
XLP2-1018-433
XLP2-1018-480
XLP2-1018-489
XLP2-1018-500
XLP2-1018-519
XLP2-1018-539
XLP2-1018-543
XLP2-1018-564
XLP2-1018-565
XLP2-1018-578
XLP2-1018-587
XLP2-1018-596
XLP2-1018-622
XLP2-1018-637
XLP2-1018-638
XLP2-1018-648
XLP2-1018-660
XLP2-1018-695
XLP2-1018-696
XLP2-1018-702
XLP2-1018-733
XLP2-1018-752
XLP2-1018-793
XLP2-1018-829
XLP2-1024-564
XLP2-1024-638
XLP2-1024-640
XLP2-1024-649
XLP2-1024-660
XLP2-1024-668
XLP2-1024-685
XLP2-1024-704
XLP2-1024-706
XLP2-1024-723
XLP2-1024-734
XLP2-1024-738
XLP2-1024-745
XLP2-1024-756
XLP2-1024-775
XLP2-1024-798
XLP2-1024-799
XLP2-1024-809
XLP2-1024-822
XLP2-1024-833
XLP2-1024-836
XLP2-1024-853
XLP2-1024-855
XLP2-1024-866
XLP2-1024-879
XLP2-1024-881
XLP2-1024-892
XLP2-1024-913
XLP2-1024-915
XLP2-1024-921
XLP2-1024-940
XLP2-1024-964
XLP2-1024-987
XLP2-1024-1006
Base
Heat
Rejection
6,659
6,821
6,953
7,203
7,527
5,983
6,630
6,762
6,909
7,174
7,453
7,497
7,791
7,806
7,982
8,115
8,232
8,600
8,806
8,820
8,953
9,114
9,600
9,614
9,702
10,129
10,393
10,944
11,452
7,791
8,820
8,850
8,967
9,115
9,236
9,467
9,732
9,751
9,996
10,143
10,202
10,296
10,448
10,702
11,025
11,023
11,172
11,356
11,508
11,555
11,790
11,819
11,966
12,144
12,174
12,325
12,613
12,643
12,731
12,991
13,319
13,642
13,907
Model
Number
XLP2-1024-1043
XLP2-1024-1089
XLP2-1036-866
XLP2-1036-960
XLP2-1036-979
XLP2-1036-1000
XLP2-1036-1038
XLP2-1036-1079
XLP2-1036-1085
XLP2-1036-1128
XLP2-1036-1130
XLP2-1036-1155
XLP2-1036-1175
XLP2-1036-1192
XLP2-1036-1245
XLP2-1036-1275
XLP2-1036-1277
XLP2-1036-1296
XLP2-1036-1319
XLP2-1036-1389
XLP2-1036-1392
XLP2-1036-1404
XLP2-1036-1466
XLP2-1036-1504
XLP2-1036-1587
XLP2-1036-1658
XLP2-1212-321
XLP2-1212-359
XLP2-1212-364
XLP2-1212-376
XLP2-1212-390
XLP2-1212-401
XLP2-1212-405
XLP2-1212-424
XLP2-1212-427
XLP2-1212-430
XLP2-1212-442
XLP2-1212-447
XLP2-1212-453
XLP2-1212-468
XLP2-1212-480
XLP2-1212-483
XLP2-1212-487
XLP2-1212-501
XLP2-1212-506
XLP2-1212-522
XLP2-1212-523
XLP2-1212-533
XLP2-1212-546
XLP2-1212-551
XLP2-1212-571
XLP2-1212-576
XLP2-1212-597
XLP2-1212-617
XLP2-1212-622
XLP2-1212-666
XLP2-1212-703
XLP2-1218-495
XLP2-1218-548
XLP2-1218-560
XLP2-1218-566
XLP2-1218-597
XLP2-1218-618
Base
Heat
Rejection
14,407
15,053
11,966
13,260
13,525
13,819
14,348
14,906
14,995
15,583
15,612
15,965
16,229
16,465
17,200
17,611
17,641
17,905
18,229
19,199
19,228
19,405
20,257
20,787
21,933
22,904
4,440
4,954
5,028
5,189
5,395
5,542
5,601
5,865
5,895
5,939
6,101
6,174
6,262
6,468
6,630
6,674
6,733
6,924
6,997
7,218
7,226
7,365
7,541
7,615
7,894
7,953
8,247
8,526
8,600
9,203
9,717
6,836
7,571
7,733
7,821
8,247
8,541
Model
Number
XLP2-1218-619
XLP2-1218-640
XLP2-1218-648
XLP2-1218-663
XLP2-1218-676
XLP2-1218-683
XLP2-1218-699
XLP2-1218-706
XLP2-1218-732
XLP2-1218-733
XLP2-1218-745
XLP2-1218-756
XLP2-1218-772
XLP2-1218-798
XLP2-1218-800
XLP2-1218-809
XLP2-1218-835
XLP2-1218-843
XLP2-1218-867
XLP2-1218-880
XLP2-1218-915
XLP2-1218-944
XLP2-1218-952
XLP2-1218-1018
XLP2-1218-1075
XLP2-1224-644
XLP2-1224-717
XLP2-1224-728
XLP2-1224-743
XLP2-1224-751
XLP2-1224-775
XLP2-1224-782
XLP2-1224-802
XLP2-1224-811
XLP2-1224-812
XLP2-1224-839
XLP2-1224-849
XLP2-1224-856
XLP2-1224-860
XLP2-1224-876
XLP2-1224-884
XLP2-1224-894
XLP2-1224-906
XLP2-1224-917
XLP2-1224-926
XLP2-1224-935
XLP2-1224-960
XLP2-1224-965
XLP2-1224-968
XLP2-1224-975
XLP2-1224-992
XLP2-1224-1002
XLP2-1224-1012
XLP2-1224-1013
XLP2-1224-1034
XLP2-1224-1045
XLP2-1224-1046
XLP2-1224-1064
XLP2-1224-1067
XLP2-1224-1084
XLP2-1224-1090
XLP2-1224-1092
XLP2-1224-1102
Base
Heat
Rejection
8,556
8,850
8,953
9,158
9,335
9,438
9,658
9,761
10,114
10,129
10,290
10,452
10,673
11,025
11,055
11,172
11,540
11,643
11,981
12,157
12,643
13,039
13,157
14,068
14,848
8,894
9,908
10,055
10,261
10,379
10,702
10,805
11,084
11,202
11,218
11,599
11,731
11,834
11,878
12,099
12,216
12,348
12,525
12,672
12,789
12,922
13,260
13,333
13,378
13,466
13,701
13,848
13,980
13,995
14,289
14,436
14,448
14,701
14,745
14,980
15,068
15,083
15,230
Model
Number
XLP2-1224-1139
XLP2-1224-1144
XLP2-1224-1151
XLP2-1224-1194
XLP2-1224-1196
XLP2-1224-1234
XLP2-1224-1245
XLP2-1224-1281
XLP2-1224-1332
XLP2-1224-1405
XLP2-1236-989
XLP2-1236-1096
XLP2-1236-1119
XLP2-1236-1133
XLP2-1236-1195
XLP2-1236-1236
XLP2-1236-1239
XLP2-1236-1281
XLP2-1236-1298
XLP2-1236-1326
XLP2-1236-1351
XLP2-1236-1366
XLP2-1236-1399
XLP2-1236-1412
XLP2-1236-1464
XLP2-1236-1468
XLP2-1236-1489
XLP2-1236-1513
XLP2-1236-1545
XLP2-1236-1597
XLP2-1236-1600
XLP2-1236-1619
XLP2-1236-1670
XLP2-1236-1684
XLP2-1236-1735
XLP2-1236-1760
XLP2-1236-1831
XLP2-1236-1887
XLP2-1236-1904
XLP2-1236-2036
XLP2-1236-2148
Base
Heat
Rejection
15,744
15,803
15,906
16,494
16,523
17,053
17,200
17,699
18,405
19,420
13,671
15,142
15,465
15,656
16,509
17,082
17,126
17,699
17,935
18,317
18,670
18,876
19,331
19,508
20,228
20,287
20,581
20,904
21,345
22,066
22,110
22,374
23,080
23,271
23,977
24,315
25,300
26,079
26,314
28,137
29,681
140.920-SED (NOV 09)
Page 12
ENGINEERING DATA
Selection Example
Given:
R-717 refrigerant
Compressor evaporator capacity = 550 tons
• From Table 3, the heat rejection capacity factor for
R-717 at 95°F condensing temperature and 76°F
entering wet-bulb temperature is 1.35.
Compressor BHP = 600
Condensing temperature = 95°F
600 BHP x 2,545 BTUH/BHP = 1,527,000 BTUH
Total heat rejection = 8,127,000 BTUH = 8,127 MBH
• Multiply: 8,127 MBH x 1.35 = 10,972 MBH
Entering wet-bulb temperature = 76°F
• From Table 4 select a unit with a Base Heat
Rejection equal to or greater than 10,972 MBH:
Model XLP2-1024-798.
Solution:
• Determine the total heat rejection:
Compressor evaporator capacity =
Compressor BHP input =
550 TR x 12,000 BTUH/TR = 6,600,000 BTUH
Table 5: Heat Rejection Capacity Factors – R-134a
Condensing
Pressure
(psig)
R-134a
Condensing
Temp (°F)
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
95.2
97.1
98.9
100.7
102.6
104.3
106.2
108.1
110.0
111.9
113.9
115.9
117.5
119.9
122.1
124.1
149.6
146.4
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
105
110
1.09
1.06
1.02
0.99
0.96
0.93
0.90
0.88
0.85
0.83
0.81
0.79
0.76
0.75
0.73
0.71
0.63
0.56
1.14
1.10
1.06
1.03
0.99
0.96
0.93
0.91
0.88
0.85
0.83
0.81
0.79
0.76
0.74
0.73
0.64
0.57
1.19
1.15
1.11
1.07
1.03
1.00
0.97
0.94
0.91
0.88
0.86
0.83
0.81
0.79
0.77
0.74
0.66
0.58
1.25
1.20
1.16
1.12
1.08
1.04
1.01
0.97
0.94
0.91
0.88
0.86
0.83
0.81
0.79
0.77
0.67
0.60
1.32
1.27
1.22
1.17
1.13
1.09
1.05
1.01
0.98
0.95
0.92
0.89
0.86
0.84
0.81
0.79
0.69
0.61
1.40
1.34
1.28
1.23
1.18
1.14
1.10
1.06
1.02
0.98
0.95
0.92
0.89
0.86
0.84
0.81
0.71
0.62
1.49
1.42
1.36
1.30
1.25
1.20
1.15
1.11
1.07
1.03
0.99
0.96
0.93
0.90
0.87
0.84
0.73
0.64
1.60
1.52
1.45
1.38
1.32
1.27
1.21
1.16
1.12
1.08
1.04
1.00
0.97
0.93
0.90
0.87
0.75
0.65
1.74
1.64
1.56
1.48
1.41
1.35
1.29
1.23
1.18
1.13
1.09
1.05
1.01
0.97
0.94
0.91
0.77
0.67
1.91
1.79
1.69
1.60
1.52
1.44
1.37
1.31
1.25
1.20
1.15
1.10
1.06
1.02
0.98
0.95
0.80
0.69
2.12
1.98
1.85
1.74
1.64
1.56
1.47
1.40
1.33
1.27
1.22
1.17
1.12
1.07
1.03
0.99
0.83
0.71
2.40
2.22
2.06
1.92
1.80
1.70
1.60
1.51
1.43
1.35
1.30
1.24
1.18
1.13
1.09
1.04
0.87
0.74
2.78
2.54
2.33
2.16
2.00
1.87
1.75
1.65
1.56
1.47
1.40
1.33
1.26
1.21
1.15
1.10
0.91
0.77
3.33
2.98
2.70
2.47
2.27
2.10
1.95
1.82
1.71
1.60
1.51
1.43
1.36
1.29
1.23
1.17
0.95
0.85
3.66
3.24
2.90
2.63
2.40
2.20
2.04
1.90
1.77
1.66
1.56
1.47
1.39
1.32
1.26
1.00
0.83
4.78
4.08
3.56
3.15
2.82
2.55
2.33
2.14
1.98
1.84
1.72
1.61
1.52
1.43
1.36
1.07
0.87
4.65
3.97
3.46
3.06
2.74
2.49
2.27
2.09
1.93
1.80
1.68
1.57
1.48
1.14
0.92
Evaporator Ton Method
This selection method is based on estimated horsepower
requirements for open reciprocating compressors only, and
cannot be considered to be precise. Critical selection of this
type should be checked by the heat rejection method shown
in the “Selection” section.
Selection Procedure
1. Determine the evaporator capacity in Refrigeration Tons
(one Refrigeration Ton = 12,000 BTUH)
2. Determine refrigerant and design conditions of condensing
temperature, suction temperature, and entering wet-bulb
temperature.
3. Using tables appropriate for the system refrigerant,
determine two correction factors: the Evaporator Capacity
Factor (Table 7 and 8) and the Suction Temperature Factor
(Tables 9 and 10).
4. Multiply the evaporator capacity in tons by the two
correction factors determined in Step 3.
5. From Table 6 select an evaporative condenser whose
model number equals or exceeds the product (factors x
tons) calculated in Step 4.
NOTES: Consult your Frick Representative for evaporative
condenser selections for systems utilizing refrigerants
other than R-717 or R-134a and systems requiring special
considerations, such as screw compressors with water
cooled oil coolers, evaporative condensers with ammonia
desuperheaters or halocarbon subcooling.
Selection Example:
Screw Compressor
Given: R-134a refrigerant
Evaporator capacity = 145 tons
Condensing temperature = 105°F
Suction temperature = 30°F
Entering wet-bulb temperature = 80°F
Solution:
• From Table 8, the capacity factor for R-134a at 105°F
condensing temperature and 80°F entering wet-bulb is 1.07.
• From Table 10, the capacity factor for R-134a at 30°F
suction temperature is 1.03.
• Multiply 145 x 1.07 x 1.03 = 159.8 corrected tons.
• From Table 6, select a unit with Corrected Evaporator Tons
equal or greater to 159.8: Model XLP2-512-171.
ENGINEERING DATA
140.920-SED (NOV 09)
Page 13
Table 6: Base Corrected Evaporator Tons
Model
Number
XLP2-512-130
XLP2-512-145
XLP2-512-147
XLP2-512-152
XLP2-512-160
XLP2-512-164
XLP2-512-171
XLP2-512-172
XLP2-512-181
XLP2-512-189
XLP2-512-194
XLP2-512-203
XLP2-712-164
XLP2-712-183
XLP2-712-185
XLP2-712-204
XLP2-712-207
XLP2-712-219
XLP2-712-229
XLP2-712-242
XLP2-712-250
XLP2-712-276
XLP2-812-235
XLP2-812-246
XLP2-812-260
XLP2-812-271
XLP2-812-278
XLP2-812-290
XLP2-812-306
XLP2-812-320
XLP2-812-328
XLP2-812-343
XLP2-818-320
XLP2-818-344
XLP2-818-356
XLP2-818-374
XLP2-818-379
XLP2-818-382
XLP2-818-401
XLP2-818-405
XLP2-818-421
XLP2-818-443
XLP2-818-451
XLP2-818-474
XLP2-1012-282
XLP2-1012-319
XLP2-1012-320
XLP2-1012-324
XLP2-1012-343
XLP2-1012-352
XLP2-1012-362
XLP2-1012-367
XLP2-1012-369
XLP2-1012-387
XLP2-1012-399
XLP2-1012-404
XLP2-1012-418
XLP2-1012-427
XLP2-1012-428
XLP2-1012-433
XLP2-1012-456
XLP2-1012-457
XLP2-1012-461
Corrected
Evaporator
Tons
87
98
96
106
109
114
121
101
115
126
129
135
109
123
136
122
138
146
161
152
167
184
157
173
185
164
181
194
204
213
218
228
213
229
252
270
238
255
250
267
281
295
301
316
188
213
235
213
216
228
241
245
246
258
266
270
279
284
285
289
304
305
307
Model
Number
XLP2-1012-482
XLP2-1012-494
XLP2-1012-503
XLP2-1012-521
XLP2-1012-545
XLP2-1018-433
XLP2-1018-480
XLP2-1018-489
XLP2-1018-500
XLP2-1018-519
XLP2-1018-539
XLP2-1018-543
XLP2-1018-564
XLP2-1018-565
XLP2-1018-578
XLP2-1018-587
XLP2-1018-596
XLP2-1018-622
XLP2-1018-637
XLP2-1018-638
XLP2-1018-648
XLP2-1018-660
XLP2-1018-695
XLP2-1018-696
XLP2-1018-702
XLP2-1018-733
XLP2-1018-752
XLP2-1018-793
XLP2-1018-829
XLP2-1024-564
XLP2-1024-638
XLP2-1024-640
XLP2-1024-649
XLP2-1024-660
XLP2-1024-668
XLP2-1024-685
XLP2-1024-704
XLP2-1024-706
XLP2-1024-723
XLP2-1024-734
XLP2-1024-738
XLP2-1024-745
XLP2-1024-756
XLP2-1024-775
XLP2-1024-798
XLP2-1024-799
XLP2-1024-809
XLP2-1024-822
XLP2-1024-833
XLP2-1024-836
XLP2-1024-853
XLP2-1024-855
XLP2-1024-866
XLP2-1024-879
XLP2-1024-881
XLP2-1024-892
XLP2-1024-913
XLP2-1024-915
XLP2-1024-921
XLP2-1024-940
XLP2-1024-964
XLP2-1024-987
XLP2-1024-1006
Corrected
Evaporator
Tons
321
329
335
348
363
289
320
326
333
346
360
362
376
377
385
392
397
415
425
426
432
440
463
464
468
489
501
529
553
376
426
427
433
440
446
457
470
470
482
489
492
497
504
516
532
533
539
548
555
557
569
570
577
586
587
595
609
610
614
627
643
658
671
Model
Number
XLP2-1024-1043
XLP2-1024-1089
XLP2-1036-866
XLP2-1036-960
XLP2-1036-979
XLP2-1036-1000
XLP2-1036-1038
XLP2-1036-1079
XLP2-1036-1085
XLP2-1036-1128
XLP2-1036-1130
XLP2-1036-1155
XLP2-1036-1175
XLP2-1036-1192
XLP2-1036-1245
XLP2-1036-1275
XLP2-1036-1277
XLP2-1036-1296
XLP2-1036-1319
XLP2-1036-1389
XLP2-1036-1392
XLP2-1036-1404
XLP2-1036-1466
XLP2-1036-1504
XLP2-1036-1587
XLP2-1036-1658
XLP2-1212-321
XLP2-1212-359
XLP2-1212-364
XLP2-1212-376
XLP2-1212-390
XLP2-1212-401
XLP2-1212-405
XLP2-1212-424
XLP2-1212-427
XLP2-1212-430
XLP2-1212-442
XLP2-1212-447
XLP2-1212-453
XLP2-1212-468
XLP2-1212-480
XLP2-1212-483
XLP2-1212-487
XLP2-1212-501
XLP2-1212-506
XLP2-1212-522
XLP2-1212-523
XLP2-1212-533
XLP2-1212-546
XLP2-1212-551
XLP2-1212-571
XLP2-1212-576
XLP2-1212-597
XLP2-1212-617
XLP2-1212-622
XLP2-1212-666
XLP2-1212-703
XLP2-1218-495
XLP2-1218-548
XLP2-1218-560
XLP2-1218-566
XLP2-1218-597
XLP2-1218-618
Corrected
Evaporator
Tons
695
726
577
640
653
667
692
719
723
752
753
770
783
794
830
850
851
864
879
926
928
936
977
1003
1058
1105
214
239
243
250
260
267
270
283
284
287
294
298
302
312
320
322
325
334
338
348
349
355
364
367
381
384
398
411
415
444
469
330
365
373
377
398
412
Model
Number
XLP2-1218-619
XLP2-1218-640
XLP2-1218-648
XLP2-1218-663
XLP2-1218-676
XLP2-1218-683
XLP2-1218-699
XLP2-1218-706
XLP2-1218-732
XLP2-1218-733
XLP2-1218-745
XLP2-1218-756
XLP2-1218-772
XLP2-1218-798
XLP2-1218-800
XLP2-1218-809
XLP2-1218-835
XLP2-1218-843
XLP2-1218-867
XLP2-1218-880
XLP2-1218-915
XLP2-1218-944
XLP2-1218-952
XLP2-1218-1018
XLP2-1218-1075
XLP2-1224-644
XLP2-1224-717
XLP2-1224-728
XLP2-1224-743
XLP2-1224-751
XLP2-1224-775
XLP2-1224-782
XLP2-1224-802
XLP2-1224-811
XLP2-1224-812
XLP2-1224-839
XLP2-1224-849
XLP2-1224-856
XLP2-1224-860
XLP2-1224-876
XLP2-1224-884
XLP2-1224-894
XLP2-1224-906
XLP2-1224-917
XLP2-1224-926
XLP2-1224-935
XLP2-1224-960
XLP2-1224-965
XLP2-1224-968
XLP2-1224-975
XLP2-1224-992
XLP2-1224-1002
XLP2-1224-1012
XLP2-1224-1013
XLP2-1224-1034
XLP2-1224-1045
XLP2-1224-1046
XLP2-1224-1064
XLP2-1224-1067
XLP2-1224-1084
XLP2-1224-1090
XLP2-1224-1092
XLP2-1224-1102
Corrected
Evaporator
Tons
413
427
432
442
450
455
466
471
488
489
496
504
515
532
533
539
557
562
578
587
610
629
635
679
716
429
478
485
495
501
516
521
535
540
541
560
566
571
573
584
589
596
604
611
617
623
640
643
645
650
661
668
675
675
689
696
697
709
711
723
727
728
735
Model
Number
XLP2-1224-1139
XLP2-1224-1144
XLP2-1224-1151
XLP2-1224-1194
XLP2-1224-1196
XLP2-1224-1234
XLP2-1224-1245
XLP2-1224-1281
XLP2-1224-1332
XLP2-1224-1405
XLP2-1236-989
XLP2-1236-1096
XLP2-1236-1119
XLP2-1236-1133
XLP2-1236-1195
XLP2-1236-1236
XLP2-1236-1239
XLP2-1236-1281
XLP2-1236-1298
XLP2-1236-1326
XLP2-1236-1351
XLP2-1236-1366
XLP2-1236-1399
XLP2-1236-1412
XLP2-1236-1464
XLP2-1236-1468
XLP2-1236-1489
XLP2-1236-1513
XLP2-1236-1545
XLP2-1236-1597
XLP2-1236-1600
XLP2-1236-1619
XLP2-1236-1670
XLP2-1236-1684
XLP2-1236-1735
XLP2-1236-1760
XLP2-1236-1831
XLP2-1236-1887
XLP2-1236-1904
XLP2-1236-2036
XLP2-1236-2148
Corrected
Evaporator
Tons
760
762
767
796
797
823
830
854
888
937
660
731
746
755
797
824
826
854
865
884
901
911
933
941
976
979
993
1009
1030
1065
1067
1079
1114
1123
1157
1173
1221
1258
1270
1358
1432
140.920-SED (NOV 09)
Page 14
ENGINEERING DATA
Table 7: Evaporator Capacity Factors – R-717 (Ammonia)
Condensing
Pressure
Condensing
(psig)
R-717
Temp (°F)
151.7
154.1
156.9
159.8
162.6
165.9
168.9
171.9
174.9
178.0
181.1
185.0
187.4
190.6
193.9
197.2
214.2
232.3
85
86
87
88
89
90
91
92
93
94
95
96.3
97
98
99
100
105
110
50
0.98
0.95
0.92
0.90
0.87
0.85
0.82
0.80
0.78
0.76
0.74
0.72
0.71
0.69
0.67
0.66
0.59
0.54
52
1.02
0.99
0.96
0.93
0.90
0.88
0.85
0.83
0.81
0.78
0.76
0.74
0.73
0.71
0.69
0.68
0.61
0.55
54
1.07
1.03
1.00
0.97
0.94
0.91
0.88
0.86
0.83
0.81
0.79
0.76
0.75
0.73
0.71
0.69
0.62
0.56
56
1.12
1.08
1.04
1.01
0.98
0.95
0.92
0.89
0.86
0.84
0.81
0.79
0.77
0.75
0.73
0.71
0.63
0.57
58
1.18
1.14
1.10
1.06
1.02
0.99
0.95
0.92
0.90
0.87
0.84
0.81
0.80
0.77
0.75
0.73
0.65
0.58
60
1.26
1.20
1.16
1.11
1.07
1.03
1.00
0.96
0.93
0.90
0.88
0.84
0.82
0.80
0.78
0.76
0.67
0.59
62
1.34
1.28
1.23
1.18
1.13
1.09
1.05
1.01
0.98
0.94
0.91
0.88
0.86
0.83
0.81
0.78
0.69
0.61
64
1.44
1.37
1.31
1.25
1.20
1.15
1.11
1.06
1.02
0.99
0.95
0.91
0.89
0.86
0.84
0.81
0.71
0.62
66
1.56
1.48
1.41
1.34
1.28
1.22
1.17
1.12
1.08
1.04
1.00
0.96
0.93
0.90
0.87
0.85
0.73
0.64
68
1.71
1.61
1.52
1.45
1.37
1.31
1.25
1.20
1.15
1.10
1.06
1.01
0.98
0.95
0.91
0.88
0.76
0.66
70
1.90
1.78
1.67
1.58
1.49
1.41
1.34
1.28
1.22
1.17
1.12
1.06
1.03
0.99
0.96
0.92
0.79
0.68
72
2.15
1.99
1.86
1.74
1.63
1.54
1.46
1.38
1.31
1.25
1.19
1.13
1.10
1.05
1.01
0.97
0.82
0.71
74
2.50
2.28
2.10
1.95
1.82
1.70
1.60
1.51
1.42
1.35
1.28
1.21
1.17
1.12
1.07
1.03
0.86
0.73
76
2.99
2.68
2.44
2.23
2.05
1.91
1.78
1.66
1.56
1.47
1.39
1.30
1.26
1.20
1.14
1.09
0.90
0.76
78
3.29
2.92
2.62
2.38
2.18
2.01
1.86
1.74
1.62
1.53
1.41
1.36
1.29
1.23
1.17
0.95
0.79
80
4.30
3.68
3.21
2.85
2.56
2.33
2.13
1.96
1.82
1.70
1.56
1.49
1.41
1.33
1.26
1.00
0.83
82
4.20
3.59
3.14
2.79
2.51
2.27
2.08
1.92
1.74
1.66
1.55
1.46
1.38
1.07
0.88
Table 8: Evaporator Capacity Factors – R-134a
Condensing
Pressure
Condensing
(psig)
R-134a
Temp (°F)
95.2
97.1
98.9
100.7
102.6
104.3
106.2
108.1
110.0
111.9
113.9
115.9
117.5
119.9
122.1
124.1
149.6
146.4
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
105
110
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
1.04
1.01
0.98
0.95
0.92
0.90
0.87
0.85
0.83
0.81
0.79
0.77
0.75
0.73
0.72
0.70
0.63
0.57
1.09
1.05
1.02
0.99
0.96
0.93
0.90
0.88
0.85
0.83
0.81
0.79
0.77
0.75
0.73
0.72
0.64
0.58
1.14
1.10
1.06
1.03
0.99
0.96
0.94
0.91
0.88
0.86
0.84
0.81
0.79
0.77
0.75
0.74
0.66
0.59
1.19
1.15
1.11
1.07
1.04
1.00
0.97
0.94
0.91
0.89
0.86
0.84
0.82
0.80
0.78
0.76
0.67
0.60
1.26
1.21
1.16
1.12
1.08
1.05
1.01
0.98
0.95
0.92
0.89
0.87
0.84
0.82
0.80
0.78
0.69
0.62
1.33
1.28
1.23
1.18
1.14
1.10
1.06
1.02
0.99
0.96
0.93
0.90
0.88
0.85
0.83
0.80
0.71
0.63
1.42
1.36
1.30
1.25
1.20
1.15
1.11
1.07
1.04
1.00
0.97
0.94
0.91
0.88
0.86
0.83
0.73
0.65
1.53
1.46
1.39
1.33
1.27
1.22
1.17
1.13
1.09
1.05
1.01
0.98
0.95
0.92
0.89
0.86
0.75
0.66
1.66
1.57
1.49
1.42
1.36
1.30
1.24
1.19
1.15
1.10
1.06
1.03
0.99
0.96
0.93
0.90
0.77
0.68
1.82
1.71
1.62
1.53
1.46
1.39
1.33
1.27
1.22
1.17
1.12
1.08
1.04
1.00
0.97
0.94
0.80
0.70
2.02
1.89
1.78
1.67
1.58
1.50
1.43
1.36
1.30
1.24
1.19
1.14
1.10
1.05
1.02
0.98
0.83
0.72
2.29
2.12
1.97
1.85
1.73
1.64
1.55
1.47
1.39
1.33
1.27
1.21
1.16
1.11
1.07
1.03
0.87
0.75
2.65
2.42
2.23
2.07
1.93
1.80
1.69
1.60
1.51
1.43
1.36
1.30
1.24
1.19
1.14
1.09
0.91
0.78
3.18
2.85
2.59
2.37
2.18
2.02
1.88
1.76
1.66
1.56
1.48
1.40
1.33
1.27
1.21
1.16
0.95
0.81
3.49
3.10
2.79
2.53
2.31
2.13
1.98
1.84
1.72
1.62
1.53
1.44
1.37
1.30
1.24
1.00
0.84
4.57
3.91
3.41
3.03
2.72
2.47
2.26
2.08
1.93
1.80
1.68
1.58
1.49
1.41
1.34
1.07
0.88
4.46
3.82
3.33
2.95
2.66
2.41
2.21
2.04
1.89
1.76
1.65
1.55
1.46
1.14
0.93
Table 9: Suction Temperature Factors – R-717 (Ammonia)
Suction Temperature (°F)
-20
-10
0
+10
+20
+30
+40
+50
Capacity Factor
1.14
1.11
1.07
1.04
1.00
0.98
0.95
0.93
Table 10: Suction Temperature Factors – R-134a
Suction Temperature (°F)
-20
-10
0
+10
+20
+30
+40
+50
Capacity Factor
1.20
1.16
1.13
1.09
1.06
1.03
1.00
0.98
ENGINEERING DATA - DIMENSIONS
140.920-SED (NOV 09)
Page 15
Engineering Data/Dimensions
NOTE: Do not use for construction. Refer to factory certified dimensions. This handbook includes data current at the time
of publication, which should be reconfirmed at the time of purchase. Up-to-date engineering data, free product selection
software and more can be found at www.johnsoncontrols.com.
Remote Sump
Bottom Connection
Approximate Weights (lb)
Nom
Box
Size
5
5
5
5
5
5
5
5
5
5
5
5
7
7
7
7
7
7
7
7
7
7
8
8
8
8
8
8
8
8
8
8
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
Model
Number1
MBH2
XLP2-512-130
XLP2-512-145
XLP2-512-147
XLP2-512-152
XLP2-512-160
XLP2-512-164
XLP2-512-171
XLP2-512-172
XLP2-512-181
XLP2-512-189
XLP2-512-194
XLP2-512-203
XLP2-712-164
XLP2-712-183
XLP2-712-185
XLP2-712-204
XLP2-712-207
XLP2-712-219
XLP2-712-229
XLP2-712-242
XLP2-712-250
XLP2-712-276
XLP2-812-235
XLP2-812-246
XLP2-812-260
XLP2-812-271
XLP2-812-278
XLP2-812-290
XLP2-812-306
XLP2-812-320
XLP2-812-328
XLP2-812-343
1,300
1,450
1,470
1,520
1,600
1,640
1,710
1,720
1,810
1,890
1,940
2,030
1,640
1,830
1,850
2,040
2,070
2,190
2,290
2,420
2,500
2,760
2,350
2,460
2,600
2,710
2,780
2,900
3,060
3,200
3,280
3,430
NOTES:
Fan
Evap Motor
3
Tons
(HP)
87
96
98
101
106
109
114
115
121
126
129
135
109
122
123
136
138
146
152
161
167
184
157
164
173
181
185
194
204
213
218
228
3
3
5
3
7.5
5
10
5
7.5
7.5
10
10
3
3
5
7.5
5
10
7.5
15
10
15
5
5
7.5
7.5
10
10
15
15
20
20
Airflow
Rate
(CFM)
23,800
20,700
25,900
20,100
28,300
24,500
31,100
23,800
28,000
27,300
30,800
30,100
26,500
25,800
31,400
36,000
30,600
39,650
35,050
45,400
38,750
44,400
34,400
33,600
39,400
38,500
43,400
42,400
49,700
48,550
54,700
53,400
Spray
Pump Flow
Motor Rate
(HP) (GPM)
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
2
2
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
260
260
260
260
260
260
260
260
260
260
260
260
330
330
330
330
330
330
330
330
330
330
400
400
400
400
400
400
400
400
400
400
Ship
Weight
(lb)
Heaviest
Section
(lb)5
Oper
Weight
(lb)4
6,390
7,260
6,400
8,130
6,430
7,270
6,440
8,140
7,300
8,170
7,310
8,180
8,470
9,610
8,170
8,200
9,310
8,210
9,340
8,280
9,350
9,420
11,690
13,050
11,710
13,070
11,720
13,080
11,800
13,160
11,830
13,190
4,350
5,220
4,350
6,090
4,350
5,220
4,350
6,090
5,220
6,090
5,220
6,090
5,770
6,910
5,770
5,770
6,910
5,770
6,910
5,770
6,910
6,910
8,170
9,530
8,170
9,530
8,170
9,530
8,170
9,530
8,170
9,530
9,490
10,410
9,500
11,320
9,530
10,420
9,540
11,330
10,450
11,360
10,460
11,370
12,260
13,460
11,960
11,990
13,160
12,000
13,190
12,070
13,200
13,270
16,200
17,630
16,220
17,650
16,230
17,660
16,310
17,740
16,340
17,770
1. Model number denotes condenser box size followed by nominal condenser
capacity in MBH ÷ 10 at 96.3°F condensing and 78°F wet bulb; for example:
XLP2-512-130 has 5’ x 12’ box size and 1,300 MBH.
2. MBH at 96.3°F condensing and 78°F wet bulb with R-717.
3. R-717 tons are at a 96.3°F condensing temperature, a 20°F suction temperature,
and a 78°F entering wet-bulb temperature.
R-717 Internal
Approx.
Coil
Oper
Drain Vol
Oper
Charge Volume Size Req Weight
3
7
(ft )
(lb)
(in.) (gal.)
(lb)
184
229
184
273
184
229
184
273
229
273
229
273
240
240
240
240
240
240
298
298
298
298
362
432
362
432
362
432
362
432
362
432
20
25
20
30
20
25
20
30
25
30
25
30
52
64
52
52
64
52
64
52
64
64
78
93
78
93
78
93
78
93
78
93
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
6
6
6
6
6
6
6
6
6
6
6
6
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
239
239
239
239
239
239
239
239
239
239
239
239
197
197
197
197
197
197
197
197
197
197
243
243
243
243
243
243
243
243
243
243
7,490
7,500
8,410
7,530
8,420
7,540
8,450
9,320
9,330
9,360
8,460
9,370
8,730
8,740
8,770
9,930
9,940
8,780
8,850
9,970
9,980
10,050
12,520
12,540
12,550
13,950
13,970
13,980
12,630
14,060
12,660
14,090
F
2’
3’
2’
4’
2’
3’
2’
4’
3’
4’
3’
4’
2’
2’
2’
2’
2’
2’
3’
3’
3’
3’
3’
4’
3’
4’
3’
4’
3’
4’
3’
4’
9¼”
6½”
9¼”
3¾”
9¼”
6½”
9¼”
3¾”
6½”
3¾”
6½”
3¾”
9¼”
9¼”
9¼”
9¼”
9¼”
9¼”
6½”
6½”
6½”
6½”
6½”
3¾”
6½”
3¾”
6½”
3¾”
6½”
3¾”
6½”
3¾”
H
12’ 9½
13’ 6¾
12’ 9½
14’ 4”
12’ 9½
13’ 6¾
12’ 9½
14’ 4”
13’ 6¾
14’ 4”
13’ 6¾
14’ 4”
12’ 9½
13’ 6¾
12’ 9½
12’ 9½
13’ 6¾
12’ 9½
13’ 6¾
12’ 9½
13’ 6¾
13’ 6¾
15’ 2”
15’ 11¼
15’ 2”
15’ 11¼
15’ 2”
15’ 11¼
15’ 2”
15’ 11¼
15’ 2”
15’ 11¼
4. Operating weight shown is based on total unit weight, weight of refrigerant
operating charge, and cold water basin filled to the overflow level.
5. Unless otherwise noted, the coil section is the heaviest section.
6. Standard refrigerant connection size is 4” BFW (inlet and outlet).
7. Refrigerant charge listed is R-717 operating charge. To determine operating
charge for R-134a, multiply by 1.98.
140.920-SED (NOV 09)
Page 16
Remote Sump
Bottom Connection
Nom
Box
Size
Model
Number1
MBH2
8 x 18
8 x 18
8 x 18
8 x 18
8 x 18
8 x 18
8 x 18
8 x 18
8 x 18
8 x 18
8 x 18
8 x 18
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
10 x 12
XLP2-818-320
XLP2-818-344
XLP2-818-356
XLP2-818-374
XLP2-818-379
XLP2-818-382
XLP2-818-401
XLP2-818-405
XLP2-818-421
XLP2-818-443
XLP2-818-451
XLP2-818-474
XLP2-1012-282
XLP2-1012-319
XLP2-1012-320
XLP2-1012-324
XLP2-1012-343
XLP2-1012-352
XLP2-1012-362
XLP2-1012-367
XLP2-1012-369
XLP2-1012-387
XLP2-1012-399
XLP2-1012-404
XLP2-1012-418
XLP2-1012-427
XLP2-1012-428
XLP2-1012-433
XLP2-1012-456
XLP2-1012-457
XLP2-1012-461
XLP2-1012-482
XLP2-1012-494
XLP2-1012-503
XLP2-1012-521
XLP2-1012-545
3,200
3,440
3,560
3,740
3,790
3,820
4,010
4,050
4,210
4,430
4,510
4,740
2,820
3,190
3,200
3,240
3,430
3,520
3,620
3,670
3,690
3,870
3,990
4,040
4,180
4,270
4,280
4,330
4,560
4,570
4,610
4,820
4,940
5,030
5,210
5,450
NOTES:
Fan
Evap Motor
3
Tons
(HP)
213
229
238
250
252
255
267
270
281
295
301
316
188
213
213
216
228
235
241
245
246
258
266
270
279
284
285
289
304
305
307
321
329
335
348
363
7.5
10
7.5
7.5
15
10
10
20
15
15
20
20
6
10
6
6
6
15
10
10
6
10
15
15
10
15
20
20
20
25
15
25
20
30
25
30
Airflow
Rate
(CFM)
53,700
59,100
52,200
51,000
67,650
57,400
56,100
74,500
65,700
64,200
72,300
70,650
50,400
59,800
46,700
43,800
40,100
68,500
55,400
51,900
42,100
47,600
63,400
59,400
49,900
54,500
69,800
65,400
60,000
70,500
57,100
64,600
62,800
68,600
67,700
71,900
Spray
Pump Flow
Motor Rate
(HP) (GPM)
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
600
600
600
600
600
600
600
600
600
600
600
600
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
Ship
Weight
(lb)
Heaviest
Section
(lb)5
Oper
Weight
(lb)4
14,980
14,990
16,980
18,890
15,070
16,990
18,990
15,090
17,070
19,070
17,090
19,090
12,240
12,270
13,920
15,600
16,570
12,330
13,950
15,630
18,410
16,600
14,010
15,690
18,440
16,660
14,030
15,710
16,680
15,850
18,500
16,820
18,520
16,820
18,660
18,660
9,810
9,810
11,810
13,810
9,810
11,810
13,810
9,810
11,810
13,810
11,810
13,810
8,360
8,360
10,040
11,720
12,690
8,360
10,040
11,720
14,530
12,690
10,040
11,720
14,530
12,690
10,040
11,720
12,690
11,720
14,530
12,690
14,530
12,690
14,530
14,530
21,700
21,710
23,810
25,910
21,790
23,820
25,920
21,810
23,900
26,000
23,920
26,020
18,310
18,340
20,080
21,850
22,880
18,400
20,110
21,880
24,820
22,910
20,170
21,940
24,850
22,970
20,190
21,960
22,990
22,100
24,910
23,130
24,930
23,130
25,070
25,070
R-717 Internal
Approx.
Oper
Drain Vol
Oper
Coil
3
7
(lb)
(ft )
(in.) (gal.)
(lb)
435
435
541
647
435
541
647
435
541
647
541
647
369
369
458
546
608
369
458
546
707
608
458
546
707
608
458
546
608
546
707
608
707
608
707
707
94
94
117
140
94
117
140
94
117
140
117
140
40
40
50
59
131
40
50
59
153
131
50
59
153
131
50
59
131
59
153
131
153
131
153
153
(1) 10
(1) 10
(1) 10
(1) 10
(1) 10
(1) 10
(1) 10
(1) 10
(1) 10
(1) 10
(1) 10
(1) 10
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
(1) 8
332
332
332
332
332
332
332
332
332
332
332
332
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
16,140
16,150
16,230
16,250
18,250
18,260
20,350
20,360
18,340
20,440
18,360
20,460
13,710
13,740
13,800
15,480
17,250
18,280
15,510
17,280
20,220
18,310
15,570
17,340
20,250
18,370
15,590
17,360
18,390
17,500
20,310
18,530
20,330
18,540
20,470
20,480
F
H
2’ 9¼”
2’ 9¼”
3’ 6½”
4’ 3¾”
2’ 9¼”
3’ 6½”
4’ 3¾”
2’ 9¼”
3’ 6½”
4’ 3¾”
3’ 6½”
4’ 3¾”
2’ 9¼”
2’ 9¼”
3’ 6½”
4’ 3¾”
4’ 3¾”
2’ 9¼”
3’ 6½”
4’ 3¾”
5’ 1”
4’ 3¾”
3’ 6½”
4’ 3¾”
5’ 1”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
5’ 1”
14’ 4¾”
14’ 4¾”
15’ 2”
15’ 11¼”
14’ 4¾”
15’ 2”
15’ 11¼”
14’ 4¾”
15’ 2”
15’ 11¼”
15’ 2”
15’ 11¼”
13’ 9½”
13’ 9½”
14’ 6¾”
15’ 4”
15’ 4”
13’ 9½”
14’ 6¾”
15’ 4”
16’ 1¼”
15’ 4”
14’ 6¾”
15’ 4”
16’ 1¼”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
16’ 1¼”
140.920-SED (NOV 09)
Page 17
Remote Sump
Bottom Connection
Nom
Box
Size
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
Model
Number1
MBH2
XLP2-1018-433
XLP2-1018-480
XLP2-1018-489
XLP2-1018-500
XLP2-1018-519
XLP2-1018-539
XLP2-1018-543
XLP2-1018-564
XLP2-1018-565
XLP2-1018-578
XLP2-1018-587
XLP2-1018-596
XLP2-1018-622
XLP2-1018-637
XLP2-1018-638
XLP2-1018-648
XLP2-1018-660
XLP2-1018-695
XLP2-1018-696
XLP2-1018-702
XLP2-1018-733
XLP2-1018-752
XLP2-1018-793
XLP2-1018-829
4,330
4,800
4,890
5,000
5,190
5,390
5,430
5,640
5,650
5,780
5,870
5,960
6,220
6,370
6,380
6,480
6,600
6,950
6,960
7,020
7,330
7,520
7,930
8,290
NOTES:
Fan
Evap Motor
3
Tons
(HP)
289
320
326
333
346
360
362
376
377
385
392
397
415
425
426
432
440
463
464
468
489
501
529
553
9
9
15
9
9
22.5
15
9
15
30
15
22.5
22.5
15
30
22.5
30
30
37.5
22.5
37.5
30
37.5
45
Airflow
Rate
(CFM)
85,600
73,500
87,700
69,000
60,300
100,400
87,200
63,100
81,800
110,500
71,500
95,700
93,600
74,800
105,300
81,800
100,500
90,000
108,300
85,600
97,000
94,200
101,600
107,900
Spray
Pump Flow
Motor Rate
(HP) (GPM)
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
760
760
760
760
760
760
760
760
760
760
760
760
760
760
760
760
760
760
760
760
760
760
760
760
Ship
Weight
(lb)
Heaviest
Section
(lb)5
Oper
Weight
(lb)4
17,740
20,230
17,770
22,730
24,240
17,870
20,260
26,990
22,760
17,900
24,270
20,360
22,860
27,020
20,390
24,370
22,890
24,400
23,100
27,120
24,610
27,150
27,360
27,360
12,010
14,500
12,010
17,000
18,510
12,010
14,500
21,260
17,000
12,010
18,510
14,500
17,000
21,260
14,500
18,510
17,000
18,510
17,000
21,260
18,510
21,260
21,260
21,260
26,940
29,570
26,970
32,200
33,800
27,070
29,600
36,700
32,230
27,100
33,830
29,700
32,330
36,730
29,730
33,930
32,360
33,960
32,570
36,830
24,170
36,860
37,070
37,070
R-717 Internal
Approx.
Oper
Drain Vol
Oper
Coil
3
7
(lb)
(ft )
(in.) (gal.)
(lb)
551
684
551
818
911
551
684
1,061
818
551
911
684
818
1,061
684
911
818
911
818
1,061
911
1,061
1,061
1,061
119
148
119
177
197
119
148
229
177
119
197
148
177
229
148
197
177
197
177
229
197
229
229
229
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
418
418
418
418
418
418
418
418
418
418
418
418
418
418
418
418
418
418
418
418
418
418
418
418
19,920
22,550
19,950
25,180
26,780
20,050
22,580
29,680
25,210
20,080
26,810
22,680
25,310
29,710
22,710
26,910
25,340
26,940
25,550
29,810
27,150
29,840
30,060
30,060
F
H
2’ 9¼”
3’ 6½”
2’ 9¼”
4’ 3¾”
4’ 3¾”
2’ 9¼”
3’ 6½”
5’ 1”
4’ 3¾”
2’ 9¼”
4’ 3¾”
3’ 6½”
4’ 3¾”
5’ 1”
3’ 6½”
4’ 3¾”
4’ 3¾”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
5’ 1”
5’ 1”
13’ 9½”
14’ 6¾”
13’ 9½”
15’ 4”
15’ 4”
13’ 9½”
14’ 6¾”
16’ 1¼”
15’ 4”
13’ 9½”
15’ 4”
14’ 6¾”
15’ 4”
16’ 1¼”
14’ 6¾”
15’ 4”
15’ 4”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
16’ 1¼”
16’ 1¼”
140.920-SED (NOV 09)
Page 18
Remote Sump
Bottom Connection
Nom
Box
Size
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
24
Model
Number1
MBH2
XLP2-1024-660
XLP2-1024-668
XLP2-1024-706
XLP2-1024-745
XLP2-1024-756
XLP2-1024-799
XLP2-1024-822
XLP2-1024-833
XLP2-1024-879
XLP2-1024-881
XLP2-1024-892
XLP2-1024-940
XLP2-1024-564
XLP2-1024-638
XLP2-1024-640
XLP2-1024-649
XLP2-1024-685
XLP2-1024-704
XLP2-1024-723
XLP2-1024-734
XLP2-1024-738
XLP2-1024-775
XLP2-1024-798
XLP2-1024-809
XLP2-1024-836
XLP2-1024-853
XLP2-1024-855
XLP2-1024-866
XLP2-1024-913
XLP2-1024-915
XLP2-1024-921
XLP2-1024-964
XLP2-1024-987
XLP2-1024-1006
XLP2-1024-1043
XLP2-1024-1089
6,600
6,680
7,060
7,450
7,560
7,990
8,220
8,330
8,790
8,810
8,920
9,400
5,640
6,380
6,400
6,490
6,850
7,040
7,230
7,340
7,380
7,750
7,980
8,090
8,360
8,530
8,550
8,660
9,130
9,150
9,210
9,640
9,870
10,060
10,430
10,890
NOTES:
Fan
Evap Motor
Tons3 (HP)
440
446
470
497
504
532
548
555
586
587
595
627
376
426
427
433
457
470
482
489
492
516
532
539
557
569
570
577
609
610
614
643
658
671
695
726
12
12
12
20
20
20
30
30
30
40
40
40
12
20
12
12
12
30
20
20
12
20
30
30
20
30
40
40
40
50
30
50
40
60
50
60
Airflow
Rate
(CFM)
93,400
87,600
80,200
110,800
103,800
95,200
126,800
118,800
109,000
139,600
130,800
120,000
100,800
119,600
93,400
87,600
80,200
137,000
110,800
103,800
84,200
95,200
126,800
118,800
99,800
109,000
139,600
130,800
120,000
141,000
114,200
129,200
125,600
137,200
135,400
143,800
Spray
Pump Flow
Motor Rate
(HP) (GPM)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
1020
Ship
Weight
(lb)
Heaviest
Section
(lb)5
Oper
Weight
(lb)4
27,200
30,510
32,750
27,250
30,560
32,620
27,370
30,680
32,740
27,420
30,730
32,790
24,580
24,630
27,940
31,300
33,240
24,750
27,990
31,350
36,920
33,290
28,110
31,470
36,970
33,410
28,160
31,520
33,460
31,800
37,090
33,740
37,140
33,740
37,420
37,420
19,440
22,750
24,810
19,440
22,750
24,810
19,440
22,750
24,810
19,440
22,750
24,810
8,410
8,410
10,090
11,770
12,740
8,410
10,090
11,770
14,580
12,740
10,090
11,770
14,580
12,740
10,090
11,770
12,740
11,770
14,580
12,740
14,580
12,740
14,580
14,580
39,520
43,010
45,190
39,570
43,060
45,240
39,690
43,180
45,360
39,740
43,230
45,410
36,730
36,780
40,260
43,800
45,860
36,900
40,310
43,850
49,740
45,910
40,430
43,970
49,790
46,030
40,480
44,020
46,080
44,300
49,910
46,360
49,960
46,360
50,240
50,240
Approx.
R-717 Internal
Coil
Drain Vol
Oper
Oper
(ft3)
(in.) (gal.)
(lb)
(lb)7
912
1,091
1,216
912
1,091
1,216
912
1,091
1,216
912
1,091
1,216
739
739
916
1,093
1,216
739
916
1,093
1,414
1,216
916
1,093
1,414
1,216
916
1,093
1,216
1,093
1,414
1,216
1,414
1,216
1,414
1,414
197
236
263
197
236
263
197
236
263
197
236
263
80
80
99
118
263
80
99
118
305
263
99
118
305
263
99
118
263
118
305
263
305
263
305
305
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
481
35,410
38,900
41,070
35,450
38,940
41,110
35,580
39,070
41,240
35,630
39,120
41,290
32,420
32,460
35,950
39,490
41,540
32,590
35,990
39,530
45,420
41,580
36,120
39,660
45,460
41,710
36,170
39,710
41,760
39,990
45,590
42,040
45,640
42,040
45,920
45,920
F
H
3’ 6½”
4’ 3¾”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
2’ 9¼”
2’ 9¼”
3’ 6½”
4’ 3¾”
4’ 3¾”
2’ 9¼”
3’ 6½”
4’ 3¾”
5’ 1”
4’ 3¾”
3’ 6½”
4’ 3¾”
5’ 1”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
5’ 1”
14’ 6¾”
15’ 4”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
13’ 9½”
13’ 9½”
14’ 6¾”
15’ 4”
15’ 4”
13’ 9½”
14’ 6¾”
15’ 4”
16’ 1¼”
15’ 4”
14’ 6¾”
15’ 4”
16’ 1¼”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
16’ 1¼”
140.920-SED (NOV 09)
Page 19
Remote Sump
Bottom Connection
Nom
Box
Size
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
Model
Number1
MBH2
Fan
Evap Motor
Tons3 (HP)
XLP2-1036-866
XLP2-1036-960
XLP2-1036-979
XLP2-1036-1000
XLP2-1036-1038
XLP2-1036-1079
XLP2-1036-1085
XLP2-1036-1128
XLP2-1036-1130
XLP2-1036-1155
XLP2-1036-1175
XLP2-1036-1192
XLP2-1036-1245
XLP2-1036-1275
XLP2-1036-1277
XLP2-1036-1296
XLP2-1036-1319
XLP2-1036-1389
XLP2-1036-1392
XLP2-1036-1404
XLP2-1036-1466
XLP2-1036-1504
XLP2-1036-1587
XLP2-1036-1658
8,660
9,600
9,790
10,000
10,380
10,790
10,850
11,280
11,300
11,550
11,750
11,920
12,450
12,750
12,770
12,960
13,190
13,890
13,920
14,040
14,660
15,040
15,870
16,580
577
640
653
667
692
719
723
752
753
770
783
794
830
850
851
864
879
926
928
936
977
1003
1058
1105
NOTES:
18
18
30
18
18
45
30
18
30
60
30
45
45
30
60
45
60
60
75
45
75
60
75
90
Airflow
Rate
(CFM)
Spray
Pump Flow
Motor Rate
(HP) (GPM)
171,200
147,000
175,400
138,000
120,600
200,800
174,400
126,200
163,600
221,000
143,000
191,400
187,200
149,600
210,600
163,600
201,000
180,000
216,600
171,200
194,000
188,400
203,000
215,800
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
1540
Ship
Weight
(lb)
Heaviest
Section
(lb)5
Oper
Weight
(lb)4
35,640
40,630
35,710
45,620
48,640
35,900
40,700
54,130
45,690
35,970
48,710
40,890
45,880
54,200
40,960
48,900
45,950
48,970
46,370
54,390
49,390
54,460
54,880
54,880
12,100
14,590
12,100
17,090
18,600
12,100
14,590
21,340
17,090
12,100
18,600
14,590
17,090
21,340
14,590
18,600
17,090
18,600
17,090
21,340
18,600
21,340
21,340
21,340
54,040
59,300
54,110
64,560
67,770
54,300
59,370
73,550
64,630
54,370
67,840
59,560
64,820
73,620
59,630
68,030
64,890
68,100
65,310
73,810
68,520
73,880
74,300
74,300
Approx.
R-717 Internal
Coil
Drain Vol
Oper
Oper
(ft3)
(in.) (gal.)
(lb)
(lb)7
1,102
1,369
1,102
1,637
1,823
1,102
1,369
2,122
1,637
1,102
1,823
1,369
1,637
2,122
1,369
1,823
1,637
1,823
1,637
2,122
1,823
2,122
2,122
2,122
238
296
238
354
394
238
296
458
354
238
394
296
354
458
296
394
354
394
354
458
394
458
458
458
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
835
835
835
835
835
835
835
835
835
835
835
835
835
835
835
835
835
835
835
835
835
835
835
835
50,110
55,360
50,180
60,610
63,820
50,370
55,430
69,600
60,680
50,440
63,890
55,620
60,870
69,670
55,690
64,080
60,940
64,150
61,360
69,860
64,570
69,930
70,350
70,350
F
H
2’ 9¼”
3’ 6½”
2’ 9¼”
4’ 3¾”
4’ 3¾”
2’ 9¼”
3’ 6½”
5’ 1”
4’ 3¾”
2’ 9¼”
4’ 3¾”
3’ 6½”
4’ 3¾”
5’ 1”
3’ 6½”
4’ 3¾”
4’ 3¾”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
5’ 1”
5’ 1”
13’ 9½”
14’ 6¾”
13’ 9½”
15’ 4”
15’ 4”
13’ 9½”
14’ 6¾”
16’ 1¼”
15’ 4”
13’ 9½”
15’ 4”
14’ 6¾”
15’ 4”
16’ 1¼”
14’ 6¾”
15’ 4”
15’ 4”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
16’ 1¼”
16’ 1¼”
140.920-SED (NOV 09)
Page 20
Remote Sump
Bottom Connection
Nom
Box
Size
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
Model
Number1
MBH2
XLP2-1212-321
XLP2-1212-359
XLP2-1212-364
XLP2-1212-376
XLP2-1212-390
XLP2-1212-401
XLP2-1212-405
XLP2-1212-424
XLP2-1212-427
XLP2-1212-430
XLP2-1212-442
XLP2-1212-447
XLP2-1212-453
XLP2-1212-468
XLP2-1212-480
XLP2-1212-483
XLP2-1212-487
XLP2-1212-501
XLP2-1212-506
XLP2-1212-522
XLP2-1212-523
XLP2-1212-533
XLP2-1212-546
XLP2-1212-551
XLP2-1212-571
XLP2-1212-576
XLP2-1212-597
XLP2-1212-617
XLP2-1212-622
XLP2-1212-666
XLP2-1212-703
3,210
3,590
3,640
3,760
3,900
4,010
4,050
4,240
4,270
4,300
4,420
4,470
4,530
4,680
4,800
4,830
4,870
5,010
5,060
5,220
5,230
5,330
5,460
5,510
5,710
5,760
5,970
6,170
6,220
6,660
7,030
NOTES:
Fan
Evap Motor
Tons3 (HP)
214
239
243
250
260
267
270
283
284
287
294
298
302
312
320
322
325
334
338
348
348
355
364
367
381
384
398
411
415
444
469
6
6
10
6
6
15
10
10
6
20
10
15
25
15
20
10
15
20
25
20
25
15
30
25
20
30
25
40
30
40
50
Airflow
Rate
(CFM)
50,400
50,400
59,750
47,800
47,700
68,400
59,800
56,700
45,000
75,300
56,500
68,400
81,100
64,900
73,100
53,400
64,700
71,400
78,700
71,200
76,950
61,100
81,750
76,700
67,300
81,500
72,500
89,700
77,040
85,200
91,800
Spray
Pump Flow
Motor Rate
(HP) (GPM)
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
610
Ship
Weight
(lb)
Heaviest
Section
(lb)5
Oper
Weight
(lb)4
13,900
15,850
13,920
17,870
19,110
13,880
15,860
17,880
21,230
13,900
19,120
15,890
13,970
17,910
15,910
21,240
19,150
17,930
15,980
19,170
18,000
21,270
18,000
19,240
21,290
19,240
21,360
19,480
21,360
21,460
21,600
9,880
11,890
9,880
13,910
15,150
9,880
11,890
13,910
17,270
9,880
15,150
11,890
9,880
13,910
11,890
17,270
15,150
13,910
11,890
15,150
13,910
17,270
13,910
15,150
17,270
15,150
17,270
15,150
17,270
17,270
17,270
21,620
23,680
21,640
25,800
27,120
21,600
23,690
25,810
29,360
21,620
27,130
23,720
21,690
25,840
23,740
29,370
27,160
25,860
23,810
27,180
25,930
29,400
25,930
27,250
29,420
27,250
29,490
27,490
29,490
29,590
29,730
R-717 Internal
Approx.
Oper
Coil
Drain Vol
Oper
(ft3)
(lb)7
(in.) (gal.)
(lb)
447
554
447
661
734
447
554
661
854
447
734
554
447
661
554
854
734
661
554
734
661
854
661
734
854
734
854
734
854
854
854
97
120
97
143
159
97
120
143
184
97
159
120
97
143
120
184
159
143
120
159
143
184
143
159
184
159
184
159
184
184
184
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
506
16,900
18,960
16,920
21,080
22,400
16,880
18,970
21,090
24,640
16,900
22,410
19,000
16,970
21,120
19,020
24,650
22,440
21,140
19,090
22,460
21,210
24,680
21,210
22,530
24,700
22,530
24,770
22,770
24,770
24,870
25,010
F
H
2’ 9¼”
3’ 6½”
2’ 9¼”
4’ 3¾”
4’ 3¾”
2’ 9¼”
3’ 6½”
4’ 3¾”
5’ 1”
2’ 9¼”
4’ 3¾”
3’ 6½”
2’ 9¼”
4’ 3¾”
3’ 6½”
5’ 1”
4’ 3¾”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
5’ 1”
5’ 1”
13’ 9½”
14’ 6¾”
13’ 9½”
15’ 4”
15’ 4”
13’ 9½”
14’ 6¾”
15’ 4”
16’ 1¼”
13’ 9½”
15’ 4”
14’ 6¾”
13’ 9½”
15’ 4”
14’ 6¾”
16’ 1¼”
15’ 4”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
16’ 1¼”
16’ 1¼”
140.920-SED (NOV 09)
Page 21
Remote Sump
Bottom Connection
Nom
Box
Size
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
Model
Number1
MBH2
XLP2-1218-495
XLP2-1218-548
XLP2-1218-560
XLP2-1218-566
XLP2-1218-597
XLP2-1218-618
XLP2-1218-619
XLP2-1218-640
XLP2-1218-648
XLP2-1218-663
XLP2-1218-676
XLP2-1218-683
XLP2-1218-699
XLP2-1218-706
XLP2-1218-732
XLP2-1218-733
XLP2-1218-745
XLP2-1218-756
XLP2-1218-772
XLP2-1218-798
XLP2-1218-800
XLP2-1218-809
XLP2-1218-835
XLP2-1218-843
XLP2-1218-867
XLP2-1218-880
XLP2-1218-915
XLP2-1218-944
XLP2-1218-952
XLP2-1218-1018
XLP2-1218-1075
4,950
5,480
5,600
5,660
5,970
6,180
6,190
6,400
6,480
6,630
6,760
6,830
6,990
7,060
7,320
7,330
7,450
7,560
7,720
7,980
8,000
8,090
8,350
8,430
8,670
8,800
9,150
9,440
9,520
10,180
10,750
NOTES:
Fan
Evap Motor
Tons3 (HP)
330
365
373
377
398
412
413
427
432
442
450
455
466
471
488
489
496
504
515
532
533
539
557
562
578
587
610
629
635
679
716
9
9
15
9
9
22.5
15
15
9
30
15
22.5
37.5
22.5
30
15
22.5
30
37.5
30
37.5
22.5
45
37.5
30
45
37.5
60
45
60
75
Airflow
Rate
(CFM)
75,700
73,400
89,700
71,800
71,400
102,650
87,000
85,100
67,200
113,000
84,700
99,600
121,700
97,400
109,650
79,700
97,000
107,150
118,100
106,800
115,400
91,200
122,650
115,000
100,400
122,200
108,200
134,500
115,000
126,080
135,800
Spray
Pump Flow
Motor Rate
(HP) (GPM)
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
920
Ship
Weight
(lb)
Heaviest
Section
(lb)5
Oper
Weight
(lb)4
20,010
23,000
20,030
25,990
27,880
20,060
23,020
26,010
31,090
20,070
27,900
23,050
20,150
26,040
23,060
31,110
27,930
26,050
23,140
27,940
26,130
31,140
26,130
28,020
31,150
28,020
31,230
28,160
31,230
31,370
31,500
14,360
17,350
14,360
20,340
22,230
14,360
17,350
20,340
25,440
14,360
22,230
17,350
14,360
20,340
17,350
25,440
22,230
20,340
17,350
22,230
20,340
25,440
20,340
22,230
25,440
22,230
25,440
22,230
25,440
25,440
25,440
31,710
34,860
31,730
38,010
40,010
31,760
34,880
38,030
43,400
31,770
40,030
34,910
31,850
38,060
34,920
43,420
40,060
38,070
35,000
40,070
38,150
43,450
38,150
40,150
43,460
40,150
43,540
40,290
43,540
43,680
43,810
R-717 Internal
Approx.
Oper
Coil
Drain Vol
Oper
(ft3)
(lb)7
(in.) (gal.)
(lb)
666
828
666
990
1,101
666
828
990
1,282
666
1,101
828
666
990
828
1,282
1,101
990
828
1,101
990
1,282
990
1,101
1,282
1,101
1,282
1,101
1,282
1,282
1,282
144
179
144
214
238
144
179
214
277
144
238
179
144
214
179
277
238
214
179
238
214
277
214
238
277
238
277
238
277
277
277
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
695
24,260
27,410
24,280
30,560
32,560
24,310
27,430
30,580
35,950
24,320
32,580
27,460
24,400
30,610
27,470
35,970
32,610
30,620
27,550
32,620
30,700
36,000
30,700
32,700
36,010
32,700
36,090
32,840
36,090
36,230
36,360
F
H
2’ 9¼”
3’ 6½”
2’ 9¼”
4’ 3¾”
4’ 3¾”
2’ 9¼”
3’ 6½”
4’ 3¾”
5’ 1”
2’ 9¼”
4’ 3¾”
3’ 6½”
2’ 9¼”
4’ 3¾”
3’ 6½”
5’ 1”
4’ 3¾”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
5’ 1”
5’ 1”
13’ 9½”
14’ 6¾”
13’ 9½”
15’ 4”
15’ 4”
13’ 9½”
14’ 6¾”
15’ 4”
16’ 1¼”
13’ 9½”
15’ 4”
14’ 6¾”
13’ 9½”
15’ 4”
14’ 6¾”
16’ 1¼”
15’ 4”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
16’ 1¼”
16’ 1¼”
140.920-SED (NOV 09)
Page 22
Remote Sump
Bottom Connection
Nom
Box
Size
Model
Number1
MBH2
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
12 x 24
XLP2-1224-743
XLP2-1224-775
XLP2-1224-812
XLP2-1224-839
XLP2-1224-876
XLP2-1224-917
XLP2-1224-926
XLP2-1224-965
XLP2-1224-992
XLP2-1224-1012
XLP2-1224-1034
XLP2-1224-1064
XLP2-1224-1084
XLP2-1224-1090
XLP2-1224-1139
XLP2-1224-1196
XLP2-1224-1281
XLP2-1224-644
XLP2-1224-717
XLP2-1224-728
XLP2-1224-751
XLP2-1224-782
XLP2-1224-802
XLP2-1224-811
XLP2-1224-849
XLP2-1224-856
XLP2-1224-860
XLP2-1224-884
XLP2-1224-894
XLP2-1224-906
XLP2-1224-935
XLP2-1224-960
XLP2-1224-968
XLP2-1224-975
XLP2-1224-1002
XLP2-1224-1013
XLP2-1224-1045
XLP2-1224-1046
XLP2-1224-1067
XLP2-1224-1092
XLP2-1224-1102
XLP2-1224-1144
XLP2-1224-1151
XLP2-1224-1194
XLP2-1224-1234
XLP2-1224-1245
XLP2-1224-1332
XLP2-1224-1405
7,430
7,750
8,120
8,390
8,760
9,170
9,260
9,650
9,920
10,120
10,340
10,640
10,840
10,900
11,390
11,960
12,810
6,440
7,170
7,280
7,510
7,820
8,020
8,110
8,490
8,560
8,600
8,840
8,940
9,060
9,350
9,600
9,680
9,750
10,020
10,130
10,450
10,460
10,670
10,920
11,020
11,440
11,510
11,940
12,340
12,450
13,320
14,050
NOTES: See next page.
Fan
Evap Motor
3
Tons
(HP)
495
516
540
560
584
611
617
643
661
675
689
709
723
727
760
797
854
429
478
485
501
521
535
540
566
571
573
589
596
604
623
640
645
650
668
675
696
696
711
728
735
762
767
796
823
830
888
937
12
12
12
20
20
20
30
30
40
30
40
50
40
50
60
60
80
12
12
20
12
12
30
20
20
12
40
20
30
50
30
40
20
30
40
50
40
50
30
60
50
40
60
50
80
60
80
100
Airflow
Rate
(CFM)
100,800
95,600
113,000
119,600
113,400
129,400
136,800
129,800
146,200
142,400
142,800
157,400
153,400
153,900
163,500
163,000
179,400
100,800
100,800
119,500
95,600
95,400
136,800
119,600
113,400
90,000
150,600
113,000
136,800
162,200
129,800
146,200
106,800
129,400
142,800
157,400
142,400
153,900
122,200
163,500
153,400
134,600
163,000
145,000
179,400
154,080
170,400
183,600
Spray
Pump Flow
Motor Rate
(HP) (GPM)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
1240
Ship
Weight
(lb)
Heaviest
Section
(lb)5
Oper
Weight
(lb)4
31,040
35,010
37,560
31,060
35,030
37,580
31,100
35,070
31,110
37,620
35,080
31,180
37,630
35,150
35,160
37,700
37,710
27,750
31,770
27,770
35,790
38,270
27,810
31,790
35,810
42,520
27,820
38,290
31,830
27,890
35,850
37,840
42,540
38,330
35,860
31,910
38,340
35,930
42,580
35,940
38,410
42,590
38,420
42,660
38,730
42,670
42,840
42,980
23,190
27,160
29,710
23,190
27,160
29,710
23,190
27,160
23,190
29,710
27,160
23,190
29,710
27,160
27,160
29,710
29,710
9,950
11,960
9,950
13,970
15,210
9,950
11,960
13,970
17,340
9,950
15,210
11,960
9,950
13,970
11,960
17,340
15,210
13,970
11,960
15,210
13,970
17,340
13,970
15,210
17,340
15,210
17,340
15,210
17,340
17,340
17,340
46,690
50,870
53,570
46,710
50,890
53,590
46,750
50,930
46,760
53,630
50,940
46,830
53,640
51,010
51,020
53,710
53,720
43,190
47,420
43,210
51,660
54,280
43,250
47,440
51,680
58,770
43,260
54,300
47,480
43,330
51,720
47,490
58,790
54,340
51,730
47,560
54,350
51,800
58,830
51,810
54,420
58,840
54,430
58,910
54,740
58,920
59,090
59,230
R-717 Internal
Approx.
Oper
Coil
Drain Vol
Oper
3
7
(lb)
(ft )
(in.) (gal.)
(lb)
1,103
1,319
1,469
1,103
1,319
1,469
1,103
1,319
1,103
1,469
1,319
1,103
1,469
1,319
1,319
1,469
1,469
894
1,108
894
1,322
1,469
894
1,469
1,322
1,708
894
1,469
1,108
894
1,322
1,108
1,708
1,469
1,322
1,108
1,469
1,322
1,708
1,322
1,469
1,708
1,469
1,708
1,469
1,708
1,708
1,708
238
285
317
238
285
317
238
285
238
317
285
238
317
285
285
317
317
193
239
193
286
317
193
239
286
369
193
317
239
193
286
239
369
317
286
239
317
286
369
286
317
369
317
369
317
369
369
369
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
800
42,620
46,790
49,490
42,630
46,800
49,500
42,670
46,840
42,680
49,540
46,850
42,760
49,550
46,930
46,930
49,630
49,630
38,890
43,110
38,900
47,350
49,970
38,940
43,120
47,360
54,440
38,950
49,980
43,160
39,030
47,400
43,170
54,450
50,020
47,410
43,250
50,030
47,490
54,490
47,490
50,110
54,500
50,110
54,580
50,420
54,580
54,760
54,890
F
H
3’ 6½”
4’ 3¾”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
3’ 6½”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
4’ 3¾”
4’ 3¾”
4’ 3¾”
2’ 9¼”
3’ 6½”
2’ 9¼”
4’ 3¾”
4’ 3¾”
2’ 9¼”
3’ 6½”
4’ 3¾”
5’ 1”
2’ 9¼”
4’ 3¾”
3’ 6½”
2’ 9¼”
4’ 3¾”
3’ 6½”
5’ 1”
4’ 3¾”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
5’ 1”
5’ 1”
14’ 6¾”
15’ 4”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
14’ 6¾”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
15’ 4”
15’ 4”
15’ 4”
13’ 9½”
14’ 6¾”
13’ 9½”
15’ 4”
15’ 4”
13’ 9½”
14’ 6¾”
15’ 4”
16’ 1¼”
13’ 9½”
15’ 4”
14’ 6¾”
13’ 9½”
15’ 4”
14’ 6¾”
16’ 1¼”
15’ 4”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
16’ 1¼”
16’ 1¼”
140.920-SED (NOV 09)
Page 23
Remote Sump
Bottom Connection
Nom
Box
Size
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
36
Model
Number1
MBH2
Fan
Evap Motor
3
Tons
(HP)
XLP2-1236-989
XLP2-1236-1096
XLP2-1236-1119
XLP2-1236-1133
XLP2-1236-1195
XLP2-1236-1236
XLP2-1236-1239
XLP2-1236-1281
XLP2-1236-1298
XLP2-1236-1326
XLP2-1236-1351
XLP2-1236-1366
XLP2-1236-1399
XLP2-1236-1412
XLP2-1236-1464
XLP2-1236-1468
XLP2-1236-1489
XLP2-1236-1513
XLP2-1236-1545
XLP2-1236-1597
XLP2-1236-1600
XLP2-1236-1619
XLP2-1236-1670
XLP2-1236-1684
XLP2-1236-1735
XLP2-1236-1760
XLP2-1236-1831
XLP2-1236-1887
XLP2-1236-1904
XLP2-1236-2036
XLP2-1236-2148
9,890
10,960
11,190
11,330
11,950
12,360
12,390
12,810
12,980
13,260
13,510
13,660
13,990
14,120
14,640
14,680
14,890
15,130
15,450
15,970
16,000
16,190
16,700
16,840
17,350
17,600
18,310
18,870
19,040
20,360
21,480
660
731
746
755
797
824
826
854
865
884
901
911
933
941
976
979
993
1009
1030
1065
1067
1079
1114
1123
1157
1173
1221
1258
1270
1358
1432
NOTES:
18
18
30
18
18
45
30
30
18
60
30
45
90
45
60
30
45
60
90
60
90
45
90
90
60
90
90
120
90
120
150
Airflow
Rate
(CFM)
Spray
Pump Flow
Motor Rate
(HP) (GPM)
151,400
146,800
179,400
143,600
142,800
205,300
174,000
170,200
134,400
226,000
169,400
199,200
243,400
194,800
219,300
159,400
194,000
214,300
236,200
213,600
230,800
182,400
245,300
230,000
200,800
244,400
216,400
269,000
230,000
252,160
271,600
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
(2)
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
1860
Ship
Weight
(lb)
Heaviest
Section
(lb)5
Oper
Weight
(lb)4
40,190
46,160
40,210
52,130
55,920
40,250
46,180
52,150
62,330
40,270
55,940
46,220
40,340
52,190
46,240
62,350
55,980
52,210
46,310
56,000
52,280
62,390
52,290
56,070
62,410
56,080
62,480
56,330
62,490
62,740
62,870
14,480
17,460
14,480
20,450
22,340
14,480
17,460
20,450
25,550
14,480
22,340
17,460
14,480
20,450
17,460
25,550
22,340
20,450
17,460
22,340
20,450
25,550
20,450
22,340
25,550
22,340
25,550
22,340
25,550
25,550
25,550
63,590
69,880
63,610
76,170
80,190
63,650
69,900
76,190
86,960
63,670
80,210
69,940
63,740
76,230
69,960
86,980
80,250
76,250
70,030
80,270
76,320
87,020
76,330
80,340
87,040
80,350
87,110
80,600
87,120
87,370
87,500
R-717 Internal
Approx.
Coil
Oper
Drain Vol
Oper
3
7
(ft )
(lb)
(in.) (gal.)
(lb)
1,332
1,656
1,332
1,980
2,203
1,332
1,656
1,980
2,564
1,332
2,203
1,656
1,332
1,980
1,656
2,564
2,203
1,980
1,656
2,203
1,980
2,564
1,980
2,203
2,564
2,203
2,564
2,203
2,564
2,564
2,564
288
358
288
428
476
288
358
428
554
288
476
358
288
428
358
554
476
428
358
476
428
554
428
476
554
476
554
476
554
554
554
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
1,428
49,410
55,700
49,430
62,000
66,020
49,470
55,720
62,020
72,790
49,490
66,040
55,760
49,560
62,060
55,780
72,810
66,080
62,080
55,850
66,100
62,150
72,850
62,160
66,170
72,870
66,180
72,940
66,430
72,950
73,200
73,330
F
H
2’ 9¼”
3’ 6½”
2’ 9¼”
4’ 3¾”
4’ 3¾”
2’ 9¼”
3’ 6½”
4’ 3¾”
5’ 1”
2’ 9¼”
4’ 3¾”
3’ 6½”
2’ 9¼”
4’ 3¾”
3’ 6½”
5’ 1”
4’ 3¾”
4’ 3¾”
3’ 6½”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
4’ 3¾”
5’ 1”
5’ 1”
5’ 1”
13’ 9½”
14’ 6¾”
13’ 9½”
15’ 4”
15’ 4”
13’ 9½”
14’ 6¾”
15’ 4”
16’ 1¼”
13’ 9½”
15’ 4”
14’ 6¾”
13’ 9½”
15’ 4”
14’ 6¾”
16’ 1¼”
15’ 4”
15’ 4”
14’ 6¾”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
15’ 4”
16’ 1¼”
16’ 1¼”
16’ 1¼”
140.920-SED (NOV 09)
Page 24
SPECIFICATIONS
Engineering Specifications
See our website at www.johnsoncontrols.com for an electronic copy of product engineering specifications.
1.0 Evaporative Condenser
1.1 General: Furnish and install, _____ factory assembled
evaporative condenser(s) of counterflow blow-through design,
with single side air inlet, conforming in all aspects to the
specifications and schedule as shown on the plans. The unit
shall have self-aligning pan and casing section for easy rigging
and shall have an access door(s) for easy access maintenance
and dimensions of at least 30” x 42”.
1.2 Thermal Capacity: The evaporative condenser(s) shall be
warranted by the manufacturer to have condensing capacity of
__________ BTUH (kW) heat rejection, operating with _________
refrigerant and _______°F (°C) condensing temperature and
________°F(°C) entering wet-bulb temperature.
1.3 DuraTest™ Construction: Unless otherwise noted in this
specification, all steel panels and structural members shall
be protected with the thermosetting hybrid polymer. The
corrosion resistance system shall consist of G-235 (Z700
metric) hot-dip galvanized steel prepared in a four-step
(clean, pretreat, rinse, dry) process with an electrostatically
sprayed, thermosetting hybrid polymer fuse-bonded to the
substrate during a thermally activated curing stage and
monitored by a 23-step quality assurance program. Any
other coatings must be submitted to the engineer for preapproval. The cold water basin is protected with TripleGuard™
Corrosion Protection System: The system shall consist of
G-235 galvanized steel encapsulated with a thermosetting
hybrid polymer further protected by a polyurethane liner
factory applied to all submerged surfaces. The polyurethane
barrier shall seal all factory seams in the cold water basin
to ensure a corrosion resistant and water tight construction,
and shall be warranted against leaks and corrosion for five (5)
years. A welded Type 304 or 316 stainless steel basin shall
be an acceptable alternative; provided the basin is warranted
against leaks and corrosion for a period of at least 5 years. A
bolted basin shall not be an acceptable alternative. Type 301
stainless steel is not acceptable.
1.4 Wind and Seismic Forces: The unit shall be shake table
tested at a certified independent dynamic testing laboratory
and comply with 2006 IBC code.
1.5 Quality Assurance: The manufacture shall have a
Management System certified by an accredited registrar
as complying with the requirements of ISO-9001 to ensure
consistent quality of products and services. Manufacturers
that are not ISO-9001 certified shall provide an additional
one-year warranty to the customer at no additional cost.
1.6 Warranty: The manufacturer’s standard equipment
warranty shall be for a period of one year from the date
of startup or eighteen months from the date of shipment,
whichever ends first. The manufacturer shall, in addition,
provide a 5-year mechanical drive warranty covering the fans,
fan shafts, bearings, sheaves, supports, and fan motors.
2.0 Construction Details
2.1 Corrosion Resistant Construction: Unless otherwise noted
in this specification, all steel panels and structural members
shall be constructed from heavy-gauge, G-235 (Z700 metric)
hot-dip galvanized steel, encapsulated with a thermosetting
hybrid polymer.
2.2 Casing Assembly: The evaporative condenser shall include
a coil casing section consisting of a serpentine coil, spray
water distribution system, and drift eliminators, as indicated
by the manufacturer. PVC drift eliminators shall be removable
in easily handled sections. They shall incorporate a minimum
of three changes in air direction.
2.3 Cold Water Basin: The cold water basin shall be protected
with the TripleGuard™ Corrosion Protection System. The
system shall consist of G-235 galvanized steel encapsulated
with a thermosetting hybrid polymer further protected by a
polyurethane liner factory applied to all submerged surfaces.
The polyurethane barrier shall seal all factory seams in the
cold water basin to ensure a corrosion resistant and water
tight construction, and shall be warranted against leaks
and corrosion for five (5) years. Field applied polyurethane
or polyurethane applied directly to galvanized steel is not
an acceptable alternative. Standard basin accessories shall
include: a corrosion resistant makeup valve with large
diameter polystyrene filled plastic float for easy adjustment of
the operating water level, removable anti-vortexing device to
prevent air entrainment, and large area lift out strainers with
perforated openings sized smaller than the water distribution
system nozzles. The strainer and antivortexing device shall
be constructed from Type 304 stainless steel to prevent
corrosion. A welded Type 304 or 316 stainless steel basin shall
be an acceptable alternative; provided the basin is warranted
against leaks and corrosion for a period of at least 5 years. A
bolted basin shall not be an acceptable alternative. Type 301
stainless steel is not acceptable.
2.4 Coil Assembly: The refrigerant condensing coil shall be
fabricated of continuous lengths of all prime surface steel at
the manufacturer’s own facility, and hot-dip galvanized after
fabrication (HDGAF). The refrigerant condensing coil shall be
tested at 375 psig (2,687 kPa) air pressure under water. The
refrigerant condensing coil shall be designed for low pressure
drop with sloping tubes for free drainage of liquid refrigerant.
The refrigerant condensing coil shall be ASME B31.5 compliant
and coils shipping into Canada shall be supplied with a CRN.
2.5 Water Distribution System: Water shall be distributed
evenly over the coil at a minimum flow rate of 4.5 gpm/ft2 (3.1
lps/m2) to ensure complete wetting of the coil at all times. The
water distribution system shall have an operating pressure of 2
psig (115 kPa) at the evaporative condenser spray water inlet
connection. Spray nozzles shall utilize a two-stage diffusion
pattern to provide overlapping, umbrella spray patterns.
Nozzles shall have a minimum of 0.25” (6.35 mm) protrusion
inside the spray branches to ensure unimpeded water
flow between regular cleanings. Nozzles shall be removable
without any tools for cleaning. Directional nozzles shall not
be acceptable. Spray branches shall be held in place by snapin rubber grommets, allowing quick removal of complete
branches for cleaning or flushing. Spray branches shall be
SPECIFICATIONS
removable without the use of any tools and constructed out
of Schedule 40 PVC.
2.6 Water Recirculation Pump: shall be a close-coupled,
bronze-fitted centrifugal pump equipped with a mechanical
seal, mounted on the basin and piped from the suction strainer
to the water distribution system. The pump shall have a bronze
impeller. The pump shall be installed so that it may drain freely
when the basin is drained. The pump assembly shall include
an integral metering valve and bleed line to control the bleed
rate from the pump discharge to the overflow connection. The
pump motor shall be totally enclosed fan cooled (TEFC) type
suitable for _____ V, ____ phase, ______ Hz electrical service.
2.7 Drift Eliminators: Removable PVC drift eliminators shall be
positioned to prevent moisture from leaving the evaporative
condenser and incorporate a minimum of three (3) changes in
air direction.
3.0 Mechanical Equipment
3.1 Fan(s): Air shall enter the evaporative condenser through
the axial fan assemblies and integral air plenum. Each fan
assembly shall contain two axial-flow fans mounted in series
on a common shaft with discharge guide vanes between the
fans for increased fan efficiency. Fans shall be heavy-duty,
axial flow type with aluminum alloy blades driven by a onepiece, multigroove neoprene/polyester belt designed for a
minimum of 150% of the motor nameplate horsepower. Fan
cylinders shall have curved inlets for efficient air entry. Air
inlet screens shall be OSHA compliant.
3.2 Bearings: Fan shafts shall be mounted in heavy-duty,
self aligning, grease-packed relubricatable ball bearings with
eccentric locking collars, designed for a minimum L10 life of
94,000 hours. Bearing lubrication lines shall be extended to
the exterior of the unit.
3.3 Fan Motor(s): Fan motors and drives shall be located at
the front base of the unit to facilitate access without requiring
access to the inside of the unit. Fans and motors shall be
located in the dry entering airstream to provide greater
reliability and ease of maintenance. Fan motor bases shall
be adjustable for belt tensioning by adjusting a single nut.
Fan motor(s) shall be totally enclosed fan cooled (TEFC) type,
premium efficiency/VFD ready with a 1.15 service factor,
suitable for _____ V, ____ phase, ______ Hz electrical service
and shall be mounted on an easily adjusted, heavy-duty motor
base. Fan motors shall comply with NEMA Standard MG 31,
Section IV, Part 31.
140.920-SED (NOV 09)
Page 25
4.0 Sound
4.1 Sound Level: To maintain the quality of the local
environment, the maximum sound pressure levels (dB)
measured 50 ft (15,240 mm) from the evaporative condenser
operating at full fan speed shall not exceed the sound levels
detailed below.
Location
63
125
250
500
1000
2000
4000
8000 dB(A)
Discharge
Air Inlet
Cased Face
5.0 Accessories
5.1 Basin Heater(s): Basin heater(s) shall be electric immersion
type controlled by a remote thermostat with the sensing bulb
located in the basin water. Basin heaters shall be provided
with a factory-installed low water level cutout switch to
prevent heater operation unless the heater elements are fully
submerged.
5.2 Vibration Cutout Switch: Provide an electronic remote
reset vibration switch with contact for BAS monitoring. Wiring
shall be by the installing contractor. The electronic vibration
cutout switch shall be set to trip at a point so as not to cause
damage to the unit. To ensure this, the trip point will be set in
a frequency range of ___ to ___ Hertz and a trip point of ____
in/sec (____m/sec).
5.3 External Access: Evaporative condenser shall be provided
with a factory assembled, field-installed external platform
with an access ladder and handrails complying with OSHA
standards and regulations to provide access to the top of the
evaporative condenser. External platform shall have a 24” (610
mm) wide nonskid walking surface and 42” (1,220 mm) high
safety railings. Optional safety cage shall be available to meet
OSHA requirements as necessary.
5.4 Single-point Factory Wiring: The evaporative condenser
shall be provided with a UL-Listed Stainless Steel NEMA 3R
Electrical Box and wires run in UL-Listed conduit from the
box to all electrical components on the unit, including fan(s),
pump(s), and optional VCOS, EWLC + solenoid and basin
heater.
5.5 Basin Sweeper Piping: The cold water basin of the unit shall
be equipped with PVC sump sweeper piping for a separator
(supplied by others).
140.920-SED (NOV 09)
Page 26
NOTES
NOTES
140.920-SED (NOV 09)
Page 27
Q-NET network
technology...
™
Connect Your PC
with QUANTUM™LX !
Take full advantage of Q-NET ™
technology with all Frick products!
System integration is what we do...
Q-NET ™... supports open-protocols for SCADA systems (i.e. Allen-Bradley® DF1, Modbus RTU,
Modbus ASCII, and Industrial Ethernet Protocols)
Q-NET ™... connects instantly for local or remote access; no software required
Q-NET ™... can be applied to both new and existing systems
Q-NET ™ means precise control 24 hours a day, seven days a week
Q-NET ™ distributed architecture mean faster, easier, economical installations
Q-NET ™ delivers increased operating efficiency and lowers energy costs
Available on Frick screw compressors, condensers, evaporators, AcuAir® hygienic air handlers,
and refrigerant vessels.
Form 140.920 SED (2009-11)
Supersedes: 140.920 SED (2009-07)
Subject to change without notice
Published in USA • GUI • 1109 1M
© 2009 Johnson Controls Inc. - ALL RIGHTS RESERVED
JOHNSON CONTROLS
100 CV Avenue • P.O. Box 997
Waynesboro, PA 17268-0997 USA
Phone: 717-762-2121 • FAX: 717-762-8624
www.johnsoncontrols.com

XLP2 Evaporative Condensers

Transcription

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