EVAPCO LPT Series User manual
LPT SERIES FORCED DRAFT COOLING TOWERS
LRW SERIES FORCED DRAFT CLOSED CIRCUIT COOLERS
LRC SERIES FORCED DRAFT EVAPORATIVE CONDENSERS
Bulletin 123-E Metric
Rigging and
Installation Manual
For EVAPCO Authorized Parts and Service,
Contact Your Local Mr. GoodTower®Service Provider
or the EVAPCO Plant Nearest You
Visit EVAPCO’s Websites at:
www.evapco.eu
www.mrgoodtower.eu
EVAPCO...
SPECiAliStS in HEAt trAnSfEr
PrOduCtS And SErViCES.
EVAPCO, Inc.
World Headquarters
P.O. Box 1300
Westminster, MD 21158 USA
Phone: 410-756-2600
Fax: 410-756-6450
E-mail: [email protected]
EVAPCO Asia/Pacific
EVAPCO Asia/Pacific Headq.
1159 Luoning Rd. Baoshan Ind. Zone
Shanghai, P. R. China,
Postal Code: 200949
Phone: (86) 21-6687-7786
Fax: (86) 21-6687-7008
E-mail:
EVAPCO Europe
EVAPCO Europe, N.V.
European Headquarters
Industrieterrein Oost 4010
3700 Tongeren, Belgium
Phone: (32) 12-395029
Fax: (32) 12-238527
E-mail:
EVAPCO East
5151 Allendale Lane
Taneytown, MD 21787 USA
Phone: 410-756-2600
Fax: 410-756-6450
E-mail: [email protected]
EVAPCO Midwest
1723 York Road
Greenup, IL 62428 USA
Phone: 217-923-3431
Fax: 217-923-3300
E-mail: evapcomw@evapcomw.com
EVAPCO West
1900 West Almond Avenue
Madera, CA 93637 USA
Phone: 559-673-2207
Fax: 559-673-2378
E-mail: [email protected]
EVAPCO Iowa
925 Quality Drive
Lake View, IA 51450 USA
Phone: 712-657-3223
Fax: 712-657-3226
EVAPCO Iowa
Sales & Engineering
215 1st Street, NE
P.O. Box 88
Medford, MN 55049 USA
Phone: 507-446-8005
Fax: 507-446-8239
E-mail: [email protected]
Refrigeration Valves &
Systems Corporation
A wholly owned subsidiary of EVAPCO, Inc.
1520 Crosswind Dr.
Bryan, TX 77808 USA
Phone: 979-778-0095
Fax: 979-778-0030
E-mail: [email protected]
McCormack Coil Company, Inc.
A wholly owned subsidiary of EVAPCO, Inc.
P.O. Box 1727
6333 S.W. Lakeview Boulevard
Lake Oswego, OR 97035 USA
Phone: 503-639-2137
Fax: 503-639-1800
E-mail: [email protected]
EvapTech, Inc.
A wholly owned subsidiary of EVAPCO, Inc.
8331 Nieman Road
Lenexa, KS 66214 USA
Phone: 913-322-5165
Fax: 913-322-5166
E-mail: [email protected]
Tower Components, Inc.
A wholly owned subsidiary of EVAPCO, Inc.
5960 US HWY 64E
Ramseur, NC 27316
Phone: 336-824-2102
Fax: 336-824-2190
E-mail:
EVAPCO Newton
701 East Jourdan Street
Newton, IL 62448 USA
Phone: 618-783-3433
Fax: 618-783-3499
E-mail: evapcomw@evapcomw.com
EVAPCO Europe, S.r.l.
Via Ciro Menotti 10
I-20017 Passirana di Rho
Milan, Italy
Phone: (39) 02-939-9041
Fax: (39) 02-935-00840
E-mail: [email protected]
EVAPCO Europe, S.r.l.
Via Dosso 2
23020 Piateda Sondrio, Italy
EVAPCO Europe, GmbH
Bovert 22
D-40670 Meerbusch, Germany
Phone: (49) 2159-69560
Fax: (49) 2159-695611
E-mail: [email protected]
EVAPCO Middle East DMCC
Reef Tower, 29th Level, Cluster O,
Jumeirah Lake Towers, P.O. Box 5003310
Dubai, U.A.E.
Ph: (971) 4-448 7242 - Fx: (971) 4-448 7112
EVAPCO Air Solutions a/s
A wholly owned subsidiary of
EVAPCO
, Inc.
Knøsgårdvej 115
DK-9440 Aabybro Denmark
Phone: (45) 9824 4999
Fax: (45) 9824 4990
E-mail: [email protected]
EVAPCO S.A. (Pty.) Ltd.
A licensed manufacturer of
EVAPCO
, Inc.
18 Quality Road
Isando 1600
Republic of South Africa
Phone: (27) 11-392-6630
Fax: (27) 11-392-6615
E-mail: [email protected]
Evap Egypt Engineering Industries Co.
A licensed manufacturer of
EVAPCO
, Inc.
5 El Nasr Road
Nasr City, Cairo, Egypt
Phone: 2 02 24022866
/2 02 24044997
Fax: 2 02 24044667
/
2 02 24044668
EVAPCO (Shanghai) Refrigeration
Equipment Co., Ltd.
1159 Louning Rd., Baoshan Industrial Zone
Shanghai, P.R. China, Postal Code: 200949
Phone: (86) 21-6687-7786
Fax: (86) 21-6687-7008
E-mail:
marketing
@evapcochina.com
Beijing EVAPCO Refrigeration
Equipment Co., Ltd.
Yan Qi Industrial Development District
Huai Rou County
Beijing, P.R. China, Postal Code: 101407
Phone: (86) 10 6166-7238
Fax: (86) 10 6166-7395
E-mail: [email protected]
EVAPCO Australia (Pty.) Ltd.
34-42 Melbourne Road
P.O. Box 436
Riverstone, N.S.W. Australia 2765
Phone: (61) 2 9627-3322
Fax: (61) 2 9627-1715
E-mail: [email protected]
EvapTech Asia Pacific Sdn. Bhd
A wholly owned subsidiary of EvapTech,
Inc.
IOI Business Park, 2/F Unit 20
Persiaran Puchong Jaya Selatan
Bandar Puchong Jaya,
47170 Puchong, Selangor, Malaysia
Phone: (60-3) 8070 7255
Fax: (60-3) 8070 5731
E-mail: [email protected]
EVAPCO North America
EVAPCO, Inc. — World Headquarters & Research/Development Center
EVAPCO, Inc. • P.O. Box 1300 • Westminster, MD 21158 USA
2
Low Profile Forced Draft Towers, Coolers and Condensers
Method of Shipment
LP/LR forced draft units are shipped fully assembled. Miscellaneous items, such as sealer, self-tapping screws and any other re-
quired materials, are packaged and placed inside the pan for shipment.
NOTE: All hoods and attenuation packages are factory inspected prior to shipment to verify proper t for rigging. Please take extra
care to handle and rig unit section per the instructions of this manual to avoid possible distortion and poor casing alignment. It is
advisable to check each section upon receipt and during each lift to ensure that the factory alignment has not been altered. Should
the eld inspection indicate the section alignment (“square”) has been altered, please contact the factory or your local EVAPCO
representative for additional instructions to obtain proper section t.
Storage
Do not place tarps or other coverings over the top of the units if the units are to be stored before installation. Excessive heat can
build up if the units are covered causing possible damage to the PVC eliminators. For extended storage beyond six months rotate
the fans and fan motor shaft(s) monthly. Also, the fan shaft bearings should be purged and regreased prior to start-up.
General
For extended lifts, or where hazards may exist, it is recommended that safety slings and spreaders be employed for safety. Refer to
the extended lift information in this bulletin.
International Building Code Provisions
The International Building Code (IBC) is a comprehensive set of regulations addressing the structural design and installation
requirements for building systems- including HVAC and industrial refrigeration equipment. As of June 2008, all 50 states plus
Washington D.C. have adopted the International Building Code. The code provisions require that evaporative cooling equipment
and all other components permanently installed on a structure must meet the same seismic design criteria as the building.
The LPT Series Cooling Towers, LR Series Coolers and Condensers are IBC 2012 compliant up to 1g with standard construction
and up to 5.12g with additional structural modications.
All items attached to the EVAPCO LPT Cooling Tower, Evapco LR Closed Circuit Cooler or LR Evaporative Condenser must be
independently reviewed and isolated to meet applicable wind and seismic loads. This includes piping, ductwork, conduit, and
electrical connections. These items must be exibly attached to the Evapco unit so as not to transmit additional loads to the
equipment as a result of seismic or wind forces.
Structural Steel Support
Two structural “I” beams running the length of the unit are required for supporting the unit. These beams should be located
underneath the outer anges of the unit as shown in Figure 1. See Table 1 for Steel Support Dimensions. Table 1 lists units
according to the nominal plan area of their heat transfer section. Overall dimensions will be different.
Mounting holes, 3/4” (19 mm) in diameter, are located in the bottom ange for bolting to the structural steel. Refer to the recommended
structural steel support drawing and certied print for exact bolt hole location. Bolt the bottom section to the steel support before
rigging any hoods or attenuation.
Beams should be sized in accordance with accepted structural practices. Maximum deection of the beam under the unit should
be 1/360 of the unit length, not to exceed 1/2” (13 mm). Deection may be calculated by using 55% of the operating weight as a
uniform load on each beam (see certied print for operating weight).
3
Low Profile Forced Draft Towers, Coolers and Condensers
The supporting “I” beams should be level to within 1/8” (3 mm) in 6’ (2 m) before setting the unit. Do not level the unit by shimming
between the bottom ange and the beams as this will not provide proper longitudinal support.
NOTE: Consult IBC 2012 for required steel support layout and structural design.
Rigging the Main Unit
Lifting devices are located on the sides of the unit near the bottom as shown in Figure 2a. It is recommended that units be lifted
using a boom oriented along the length of the unit with the cables straddling the unit at the lift points (Figure 2a). An alternative
method is to lift the unit with a single hook, lashing the cables to the lift points on the unit directly (Figure 2b). Spreader bars are
necessary in both cases to prevent damage to the sides of the unit.
When a boom is used, the distance “A” between the lift points on the boom should be set equal to the distance between the lift points
on the unit and the crane hook must be located a minimum distance “H1” above the top of the unit as shown in Figure 2a.
When no boom is used, the crane hook must be a minimum distance “H2” above the lifting points on the unit as shown in Figure 2b.
Figure 2a – Recommended Rigging - LP/LR Main Unit Figure 2b – Alternate Rigging - LP/LR Main Unit
Plan View End Elevation
LP/LR
SOUND
ATTENUATION
Coil/Casing
Footprint A1 A2 B1
3’ x 6’ (0.9 x 1.8 m) 10' 1-7/8" (3,099 mm) 13' 9-5/8" (4,207 mm) 3' 4-1/2" (1,029 mm)
5’ x 6’ (1.5 x 1.8 m) 12' 2-7/8" (3,734 mm) 15' 10-5/8" (4,839 mm) 5' 5/8" (1,540 mm)
5’ x 9’ (1.5 x 2.7 m) 15' 2-1/4" (4,632 mm) 18' 10" (5,740 mm) 5' 5/8" (1,540 mm)
5’ x 12’ (1.5 x 3.6 m) 18' 2-5/8" (5,556 mm) 21' 10-3/8" (6,664 mm) 5' 5/8" (1,540 mm)
8’ x 9’ (2.4 x 2.7 m) 15' 2-1/4" (4,632 mm) 18' 10" (5,740 mm) 7' 10" (2,388 mm)
8’ x 12’ (2.4 x 3.6 m) 18' 2-5/8" (5,556 mm) 21' 10-3/8" (6,664 mm) 7' 10" (2,388 mm)
Table 1 –Steel Support Dimensions
H1
A
H2
SPREADER BAR
SPREADER
BAR
SPREADER BAR
SPREADER BAR
Figure 1 – Structural Steel Support
4
Low Profile Forced Draft Towers, Coolers and Condensers
Table 2 shows minimum “H” dimensions and gives “A” dimensions for the different unit sizes.
Extended Lifts
The recommended method for extended lifts is to use slings under the unit (Figures 3a and 3b). Safety slings, spreaders and skids
should be removed before nal positioning of the unit.
NOTE: Always use safety slings for extended lifts or where any safety hazard exists.
Applying Sealer Tape
If the unit was shipped with optional discharge attenuation or discharge hoods sealer tape must be applied prior installation of
the section. Once the unit has been set on the supporting steel and bolted in place, wipe the top anges to remove any dirt or
moisture. Place sealer tape over the mounting hole centerline on the side anges. Apply two strips of sealer tape, one partially
overlapping the other, on the end anges.
Coil/Casing
Footprint
A
Towers
A
Coolers
Condensers
H1 H2
3’ x 6’ (0.9 x 1.8 m) 86” (2,185 mm) 86” (2,185 mm) 3’ (915 mm) 10’ (3,050 mm)
5’ x 6’ (1.5 x 1.8 m) 102” (2,590 mm) 102” (2,590 mm) 5’ (1,525 mm) 12’ (3,660 mm)
5’ x 9’ (1.5 x 2.7 m) 137” (3,480 mm) 137” (3,480 mm) 5’ (1,525 mm) 13’ (3,960 mm)
5’ x 12’ (1.5 x 3.6 m) 174” (4,420 mm) 174” (4,420 mm) 5’ (1,525 mm) 14’ (4,270 mm)
8’ x 9’ (2.4 x 2.7 m) 138” (3,505 mm) 133” (3,380 mm) 7’ (2,135 mm) 17’ (5,180 mm)
8’ x 12’ (2.4 x 3.6 m) 174” (4,420 mm) 169” (4,290 mm) 7’ (2,135 mm) 20’ (6,100 mm)
Table 2 –Dimensional Guidelines for Lift Cables.
Dimensions Refer to Drawings in Figure 2a and 2b.
SPREADER
BAR
SPREADER
BARS
SPREADER
BAR
Figure 3a – Recommended Safety Sling Rigging Figure 3b – Alternative Safety Sling Rigging
5
Low Profile Forced Draft Towers, Coolers and Condensers
The sealer tape should overlap on the corners as shown in Figure 4. Do not splice the sealer tape along the end anges and
preferably not on the side anges if it can be avoided. Always remove the paper backing from the sealer tape.
Rigging and Assembling Discharge and Intake Accessories
Intake sound attenuators and discharge hoods/discharge attenuators are not assembled to the main unit when shipped and must
be separately rigged and assembled in the eld. Four accessories fall into this group - discharge hood (may be straight or tapered),
discharge attenuation, fan-end sound attenuator and fan side attenuators. These are shown mounted in Figure 5 and construction
details are referenced to Figures 7, 9 and 11 respectively.
2 OVERLAPPING
LAYERS OF SEALER
ON THE ENDS
END
1 LAYER OF SEALER
CENTERED OVER THE
MOUNTING HOLES
SIDE
Figure 4 – Proper Sealer Tape Application
Hood or attenuation only
Figure 5 – Discharge and Intake Accessory Rigging
FIG. 7
FIG. 11
FIG. 9
6
Low Profile Forced Draft Towers, Coolers and Condensers
Rigging Discharge Hoods and Discharge Attenuators
Discharge Hoods may be either straight or tapered. Discharge Attenuators will be straight-sided. Both must be rigged with a
separate lift after the main unit has been secured to the structural supports. The rigging for both types of accessories is shown in
Figures 6a and 6b. The lifting cables must be long enough to allow the crane hook to be a minimum dimension “H” above the top
of the assembly. These “H” values are given in Table 3.
HH
Figure 6a – Rigging Straight Discharge Hood or
Discharge Attenuation
Figure 6b – Rigging Tapered Discharge Hood
Coil/Casing
Footprint H
3’ x 6’ (0.9 x 1.8 m) 8’ (2,440 mm)
5’ x 6’ (1.5 x 1.8 m) 8’ (2,440 mm)
5’ x 9’ (1.5 x 2.7 m) 10’ (3,050 mm)
5’ x 12’ (1.5 x 3.6 m) 15’ (4,570 mm)
8’ x 9’ (2.4 x 2.7 m) 10’ (3,050 mm)
8’ x 12’ (2.4 x 3.6 m) 15’ (4,570 mm)
Table 3 –“H” Dimensions for Discharge Hoods
7
Low Profile Forced Draft Towers, Coolers and Condensers
On galvanized and stainless steel units use 5/16” (M8) nuts and bolts to secure the hood or attenuation to the casing. Con-
struction details referenced in Figure 5 are shown in Figure 7 below.
Rigging Fan End Sound Attenuation
Fan end sound attenuators must be rigged with a separate lift after the main unit has been secured to the structural supports. The
rigging for the fan-end sound attenuator assembly is shown in Figure 8. The lifting cables must be long enough to allow the crane
hook to be a minimum dimension “H” above the top of the assembly. These “H” values are given in Table 4.
Figure 7 – Discharge Hood or Attenuation Assembly Details
Figure 8 – Rigging Fan-End Sound Attenuator Assembly
H
8
Low Profile Forced Draft Towers, Coolers and Condensers
Coil/Casing
Footprint H
3’ x 6’ (0.9 x 1.8 m) 4’ (1,220 mm)
5’ x 6’ (1.5 x 1.8 m) 5’ (1,525 mm)
5’ x 9’ (1.5 x 2.7 m) 5’ (1,525 mm)
5’ x 12’ (1.5 x 3.6 m) 5’ (1,525 mm)
8’ x 9’ (2.4 x 2.7 m) 8’ (2,440 mm)
8’ x 12’ (2.4 x 3.6 m) 8’ (2,440 mm)
Table 4 – “H” Dimensions for Fan-End Sound Attenuator Assembly
On galvanized units, the fan-end sound attenuator housing is secured on the sides and top with 5/16” (M8) self-tapping bolts. On
stainless steel units, the fan-end sound attenuator housing is secured on the sides using 1/4” (M6) threaded machine bolts that are
set into rivnuts located in the side panel of the main unit and on the top using 5/16” (M8) stainless steel nuts and bolts. Construction
details referenced in Figure 5 are shown in Figure 9. At the time the fan-side attenuator is tted to the main unit, be sure that the fan
belt adjustment extension tube at the base of the fan-end sound attenuator assembly is properly mated with the hex head tting at
the main unit.
Figure 9 – Fan-End Sound Attenuator Assembly Details
9
Low Profile Forced Draft Towers, Coolers and Condensers
Rigging Fan-Side Attenuators
On galvanized units, the fan-side sound attenuators are secured to the main unit using 5/16” (M8) self-tapping bolts. On stainless
steel units, it is secured using 1/4” (M6) threaded machine bolts which are set into rivnuts located in the side panel of the unit.
Assembly is shown in Figure 10 and construction details referenced in Figure 5 are shown in Figure 11 below.
Figure 10 – Rigging Fan-Side Sound Attenuator Assembly
Figure 11 – Fan-Side Sound Attenuator Assembly Details
10
Low Profile Forced Draft Towers, Coolers and Condensers
Final Assembly and Start-up Details
Shipping Materials - Remove any wood chocks, spare parts, or miscellaneous items that have been placed inside the unit for
shipping purposes. Clean all debris from the basin.
Pump Discharge Line - Connect the riser pipe from the pump discharge on the pan-fan section to the riser pipe on the coil section
using the exible connection and hose clamps provided.
Bleed-off Line - A bleed-off line and valve are installed on the unit when shipped with a pump. On units shipped without a pump
(remote sump applications) make sure a bleed-off line and valve are properly sized and installed on the discharge side of the pump
and connected to a convenient drain. In either case, the bleed-off valve should be fully open.
Strainer - Check the strainer in the basin to ensure that it is in its proper location over the pump suction as shown in Figures 12a
and 12b.
Screens - Protective air inlet screens are provided across the front of the fan section of all models. Screens or panels are provided
on the bottom of the fan section.
Float Valve Adjustment - The oat valve is pre-set at the factory, however adjustment should be checked after rigging. The
oat valve should be adjusted so that the center of the oat is 1” (1-2 cm) below the center of the overow connections when
the valve is in the fully closed position. Raise or lower the oat by using the wing nuts on the vertical threaded rod. Do not
adjust the horizontal rod. During normal operation, the water level will drop 3” to 4” (8-10 cm) below the overow in condensers
and coolers; and to approximately 5” to 6”( 12-15 cm) below the overow in cooling towers.
See Table 5 for normal operating level for the LR and LP style units.
Fan Rotation - Bump start and check the fans for proper rotation. Directional arrows are placed on the outside of centrifugal fan
housings or on the inside of axial fan cylinders.
Pump Rotation - Bump start and check the pump for proper rotation. Directional arrows are found on the pump impeller housing.
STRAINER
STRAINER
SUCTION PIPE
SUCTION PIPE
Figure 12a – Strainer Location on 3’ (1 m) and 5’ (1.5 m)
Wide Units
Figure 12b – Strainer Location on 8’ (2.4 m) Wide Units
Coil/Casing
Footprint Min. Operating Level
3’ x 6’ (0.9 x 1.8 m) 8" (200 mm)
5’ x 6’ (1.5 x 1.8 m) 8" (200 mm)
5’ x 9’ (1.5 x 2.7 m) 8" (200 mm)
5’ x 12’ (1.5 x 3.6 m) 8" (200 mm)
8’ x 9’ (2.4 x 2.7 m) 8" (200 mm)
8’ x 12’ (2.4 x 3.6 m) 8" (200 mm)
Table 5 – Minimum Operating Level
11
Low Profile Forced Draft Towers, Coolers and Condensers
Freeze Protection
The simplest and most effective way of keeping the recirculated water from freezing is to use a remote sump. With a remote sump,
when the recirculating water pump is shut off all recirculating water drains back to the sump.
If a remote sump is not being used, pan heaters are available. However, the basin heater will not prevent the external water lines,
pump or pump piping from freezing. For installations where water will be left in the basin during freezing conditions, the make-up
water supply, overow and drain lines, as well as the pump and pump piping up to the overow level must be heat traced and
insulated to protect them from damage. Any other connections or accessories at or below the water level must also be heat traced
and insulated.
The pan heaters are designed to prevent pan water from freezing when the unit is idle (no fan). If the unit will be operated
dry (no water over coil) but will not be completely drained, please consult EVAPCO marketing to upsize the heaters.
Maintenance
Once the installation is complete and the unit is turned on, it is important that it be properly maintained. Maintenance is not difcult
or time-consuming but must be done regularly to assure full performance of the unit. Refer to the operation and maintenance
instructions supplied with the unit for proper maintenance procedures.
Water Treatment
Proper water treatment is an essential part of the maintenance required for evaporative cooling equipment. Galvanized equipment
should be passivated prior to equipment startup to avoid the formation of white rust. For more information on passivation and white
rust, please download a copy of EVAPCO’s Engineering Bulletin 36 at www.evapco.com / www.evapco.eu. The spray water and
the uid inside the heat transfer coil should both be maintained with a water treatment program to ensure efcient system operation
while maximizing the equipments service life. For more information on recommended water chemistry for EVAPCO equipment, see
the Operation and Maintenance Instructions for this equipment.
Rigging Hardware Parts List
Table 6 lists those parts which are shipped together with the unit(s) for eld assembly and/or spare parts. These parts will be
found in a cardboard box wrapped in plastic and secured in the basin of the unit.
Nominal Plan
Area of Heat
Transfer Section
Extra
Nozzles
5/16” x 1” (M8 x 25)
Bolt
5/16” (M8)
Hex Nut
5/16” (M8)
Flat Washer
5/16” (M8)
Lock Washer
Sealer
Tape
3’ x 6’ (0.9 x 1.8 m) 1 14 14 28 14 2
5’ x 6’ (1.5 x 1.8 m) 1 14 14 28 14 2
5’ x 9’ (1.5 x 2.7 m) 1 22 22 44 22 3
5’ x 12’ (1.5 x 3.6 m) 1 26 26 52 26 3
8’ x 9’ (2.4 x 2.7 m) 2 22 22 44 22 3
8’ x 12’ (2.4 x 3.6 m) 2 26 26 52 26 3
Table 6 –LP Tower and LR Cooler and Condenser Attenuation and Discharge Hood Rigging Box Parts List
(galvanized and stainless steel construction)
EVAPCO Europe bvba •Industriezone, Tongeren-Oost 4010 • 3700 Tongeren, Belgium
Phone: (32) 12 395029 • Fax: (32) 12 238527 • E-mail: evapco.europe@ evapco.be
EVAPCO Europe Srl •Via Ciro Menotti 10 • I-20017 Passirana di Rho, Milano, Italy
EVAPCO Europe GmbH •Meerbuscher Str. 64-78, Haus 5 • D-40670 Meerbusch, Germany
©2013 EVAPCO Europe
Bulletin 123-E Metric 0519
Accessory Location Checklist
Accessories can ship in a variety of locations depending on the type of accessory, the size of the unit and the accessories
purchased with the unit. See Table 7 for a guide to accessory location.
Low Profile Forced Draft Towers, Coolers and Condensers
Unit Accessories Shipping Location
Aluminum Ladder Shipped Separately on Truck Bed
Discharge Attenuation Shipping Location is Unit Dependent
- If Space is Available: Loosely Mounted on Unit
- If No Space is Available: Shipped Separately on Truck Bed
Discharge Hood with Dampers Shipping Location is Unit Dependent
- If Space is Available: Loosely Mounted on Unit
- If No Space is Available: Shipped Separately on Truck Bed
Electric Basin Heater Shipping Location is Unit Dependent
- End Mounted Heater: Installed in Unit Basin
- Side Mounted Heater: Strapped Inside Unit Basin
Electric Basin Heater Low Water Cutout Shipped in Rigging Box Strapped Inside Unit Basin
Electric Basin Heater Thermostat Shipping Location is Unit Dependent
- End Mounted Thermostat: Mounted on Unit Basin
- Side Mounted Thermostat: Shipped in Rigging Box
Electronic Water Level Control Probes Mounted in PVC standpipe
Electronic Water Level Control PVC Standpipe Strapped Inside Unit Basin
Factory Mounted Crossover Piping Welded to Coil Connections
Fan Screens (If not mounted) Shipping Location is Unit and Accessory Dependent
- If Space is Available: Strapped Inside Unit Basin
- If No Space is Available: Crated and Shipped Separately on Truck Bed
Hot Water or Steam Coil Installed in Unit Basin
Inlet Attenuation Shipping Location is Unit Dependent
- If Space is Available: Loosely Mounted on Unit
- If No Space is Available: Shipped Separately on Truck Bed
Remote Sump Trash Screen Installed In Unit Basin
Rigging Hardware Shipped in Rigging Box Strapped Inside Unit Basin
Safety Cage Attached to the Ladder
Sealer Tape Shipped in Rigging Box Strapped Inside Unit Basin
Sump Sweeper Piping with and without
High Flow Eductors
Installed in Unit Basin
Vibration Switch Mounted in Fan Section
Water Silencers Installed in Unit Basin
Table 7 –Unit Accessory Shipping Location
This manual suits for next models
2
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