tended to assure that the fluid cooler serves you properly for the maximum
possible time. Since product warrantability may well depend upon your
actions, please read these instructions thoroughly prior to operation.
If you have questions about the operation and/or maintenance of this
product, and you don’t find the answers in this manual, please contact
your Marley sales representative. When writing for information, or when
ordering parts, please mention product serial number shown on the name-
plate located on the access door.
Safety First
The location and orientation of the fluid cooler can affect the safety of those
responsible for installing, operating or maintaining the fluid cooler. However,
since SPX Cooling Technologies does not determine the location or orienta-
tion of the fluid cooler, we cannot be responsible for addressing those safety
issues that are affected by the fluid cooler’s location or orientation.
Warning
WARNING
The following safety issues should be considered by those responsible
for designing the tower installation.
• access to and from the fan deck
• access to and from maintenance access doors
• the possible need for ladders (either portable or permanent) to
gain access to the fan deck or maintenance access doors
• the possible need for handrails around the fan deck
• the possible need for external access platforms
• potential access problems due to obstructions surrounding the tower
• lockout of mechanical equipment
• the possible need for safety cages around ladders
• the need to avoid exposing maintenance personnel to the potentially
unsafe environment inside the fluid cooler
4
Note
Preparation
It is not intended nor assumed that access to the fan deck on single-flow
models—Models MHF702 thru MHF705—is needed or necessary.
Those are only some of the safety issues that may arise in the design
process. SPX strongly recommends that you consult a safety engineer
to be sure that all safety considerations have been addressed.
Several options are available that may assist you in addressing some of
these personnel safety concerns, including:
• Louver face distribution basin access platform with ladder and handrail.
• Louver face redistribution basin level access platform with ladder and
handrail.
• A handrail system around the perimeter of the fan deck with either one
or two ladders for access to the deck. Double-flow models MHF706
and MHF707 only.
• Extended fan deck that provides additonal access around one end
of the fan cylinder opposite the fan deck access ladder. Double-flow
models MHF706 and MHF707 only.
• Ladder extensions—used where the base of the tower is elevated.
• Safety cages for ladders.
• External lube lines.
• Access door platform.
• Motor located outside the tower. Double-flow models MHF706 and
MHF707 with Geareducer drive only.
• External motor access platform. Double-flow models MHF706 and
MHF707 with Geareducer drive only.
• Plenum walkway. Double-flow models MHF706 and MHF707 only.
Standard on all other models.
• Mechanical equipment access platform.
Fluid Cooler Location
Space available around the fluid cooler should be as generous as possible
to promote ease of maintenance—and to permit freedom of airflow into
and through the fluid cooler. If you have questions about the adequacy
of the available space and the intended configuration of the fluid cooler,
please contact your Marley sales representative for guidance.
Prepare a stable, level support foundation for the fluid cooler, utilizing
weight, wind load, and dimensional information appearing on appropri-
ate Marley submittal drawings. Supports must be level to insure proper
operation of the fluid cooler.
➠
5
Warning
Installation
The fluid cooler must be located at such distance and direction to
avoid the possibility of contaminated fluid cooler discharge air be-
ing drawn into building fresh air intake ducts. The purchaser should
obtain the services of a Licensed Professional Engineer or Registered
Architect to certify that the location of the fluid cooler is in compli-
ance with applicable air pollution, fire and clean air codes.
Tower Shipment
Unless otherwise specified, the MH Fluid Cooler ships by truck (on flat
bed trailers), which lets you receive, hoist, and install the tower in one
continuous operation. Single-cell single-flow fluid coolers ship on one
truck. Double-flow and multicell fluid coolers, depending on their size,
may require more than one truck.
Responsibility for the condition of the fluid cooler upon its arrival belongs to
the trucker—as does the coordination of multiple shipments, if required.
Receiving Fluid Cooler
Prior to unloading the fluid cooler from the delivering carrier, inspect the
shipment for evidence of damage in transit. If damage is apparent, note
the freight bill accordingly. This will support your future recovery claim.
Find and remove the installation instruction drawings and bills of mate-
rial located in a plastic bag in the water collection basin. This information
should be kept for future reference and maintenance purposes.
Hoisting Fluid Cooler
All MH Fluid Cooler models must use hoist clips and overhead lifting for
handling assembled fluid cooler. Forklifting from base of fluid cooler
is not permitted. The clips for the top modules are located at the fan
deck level. The clips for the lower modules are located at the bottom of
the modules at the water collection basin. A Hoisting-Installation label
which has hoisting dimensional information is located on the side casing
near the tower centerline. Remove tower from the carrier and hoist into
place according to the instructions on the label.
6
Warning
Note
Installation
Hoisting clips are provided for ease of unloading and positioning the
fluid cooler. For overhead lifts or where additional safety is required,
safety slings should also be placed under the fluid cooler modules.
Under no circumstances should you combine the top and bottom
modules of modular models and attempt to hoist them at the same
time by utilizing the hoisting clips alone!
Fluid Cooler Installation
These installation instructions are intended to help you prepare be-
fore your fluid cooler arrives. If discrepancies exist between these
instructions and those shipped with the fluid cooler, the instructions
shipped with the fluid cooler will govern.
1. Prior to placement of the fluid cooler, confirm that the supporting
platform is level, and that the anchor bolt holes are correctly located
in accordance with Marley drawings.
2. Place bottom module on your prepared supports, aligning anchor bolt
holes with those in your supporting steel. Make sure that the orienta-
tion agrees with your intended piping arrangement. Attach fluid cooler
to supporting steel with 19mm diameter bolts and flat washers (by
others). See support drawing for location and quantity. Position flat
washers between the bolt head and the fluid cooler basin flange.
3. Before setting top module in place on bottom module, clean any
debris from the underside of the top module fill, skid and beams and
from the top of the bottom module and remove shipping cover from
bottom of top module—replace fasteners at side of module to prevent
leaks. Place top module on the top peripheral bearing surface (fac-
tory-installed gasket) of bottom module, aligning mating holes as it
is set in place. Attach top module to bottom module with fasteners
provided according to drawings shipped with your fluid cooler.
4. Connect the recirculation piping with rubber boot shipped with the
bottom module piping according to drawings shipped with you fluid
cooler.
5. Attach makeup water supply piping to appropriately-sized float valve
connection located in collection water basin side wall. Install the drain
and overflow according to drawings shipped with your fluid cooler.
If you wish to pipe overflow and drain water to a remote discharge
point, make those connections at this time also.
➠
7
Note
Caution
Warning
Installation
Fasteners and components provided by others that are to be at-
tached to the tower must be compatible with the cooling tower
materials—i.e. fasteners in a stainless steel cold water basin must
be stainless steel.
6. Attach process fluid supply and return piping to the coil. Field piping
connection is an NPT male connection at the coil. A welded connec-
tion requires removing the threaded portion of the coil.
For welded connections protect adjacent areas from excessive heat
and sparks or damage may occur.
7. Wire motor(s) and recirculation pump(s) in accordance with wiring
diagram.
For maintenance/safety purposes, SPX Cooling Technologies recom-
mends a lockout type disconnect switch for all mechanical equipment.
In addition to a disconnect switch, the motor should be wired to main
power supply through short circuit protection, and a magnetic starter
with overload protection.
Motor Wiring
Wire motor leads as shown on the motor nameplate matching the supply
voltage. Do not deviate from the motor nameplate wiring.
Either of following symbols may be shown on the motor nameplate –
Δ, Δ Δ
, Y, or YY. These symbols represent how the motor is constructed on
the inside and in no way have anything to do with a Delta or Wye electrical
distribution system serving the motor.
When using a starter:
• Set motor overload protection to 110% of motor nameplate amps.
This setting allows the fan motor to operate during cooler weather.
During cooler weather it is common for the motor to draw 6 to
10% higher than nameplate amps. High amps are common during
tower commissioning when the tower is dry and the ambient air
temperature is cool.
8
Note
Installation
• Do not start the motor more than six times per hour. Short cycling
the tower will cause fuses, breakers or O.L.s to operate and will
decrease motor life.
When using a two-speed starter:
• Motor rotation must be the same at slow speed and high speed.
• Single winding motor requires a starter with a shorting contactor.
• Two-winding motor requires a starter with out a shorting
contactor.
• All two-speed starters must have a 20 second time delay relay
when switching from high speed to low speed.
• Do not start the motor more than six times per hour (each low
speed start and each high speed start count as one start).
When using a VFD:
Before beginning, ensure that the motor is rated for “Inverter Duty”
per NEMA MG-1, part 31.
• Set the VFD solid state overload protection to 119% of motor
nameplate amps and set “maximum current parameter” in the
VFD to motor nameplate amps. “Maximum current parameter” will
reduce fan speed and limit amp draw to nameplate amps during
cold weather operation. If furnished with a mechanical O.L. set this
at 110% over motor nameplate amps.
• Motor rotation must be the same in both VFD mode and By-pass
mode.
• If cable distance between the VFD and motor is greater than 31m
feet a DV/DT output filter is recommended to avoid damage to the
motor. 31mº distance is based on our field experience, the VFD
manufacture may state different distances and distance does vary
depending on the VFD manufacture.
• Program the VFD for variable torque output. Flux vector and con-
stant torque modes may damage the gearbox.
• Do not start and stop the motor using the safety switch at the motor.
If the drive is being commanded to run and the load side is cycled
ON and OFF with the safety switch this may damage the VFD.
Using a VFD in cooling applications has advantages over traditional single
or two speed motor control. A VFD can reduce the cost of electrical en-
ergy being used and provide better temperature control. In addition, it
reduces the mechanical and electrical stress on the motor and mechanical
➠
9
Warning
Installation
equipment. Electrical savings can be large during periods of low ambient
temperature when the cooling requirement can be satisfied at reduced
speeds. To benefit from these advantages, it is important that the drive
be installed correctly.
Marley supplies VFD and VFD controls specifically designed for our cooling
products. If you have purchased a Marley VFD and/or controls package,
please follow the instructions in the User Manual for that system. Most
VFD problems can be avoided by purchasing the Marley drive system. If
you are installing a VFD other than the Marley drive, please refer to that
drives installation manual.
Improper use of a VFD may cause damage to equipment or personal
injury. Failure to correctly install the VFD drive will automatically void
all warranties associated with the motor and any equipment that is
either electrically or mechanically (directly) attached to the VFD drive
system. The length of this warranty avoidance will be contingent on
properly installing the VFD system and repairing any damage that
may have occurred during its operation. SPX Cooling Technologies
does not assume responsibility for any technical support or damages
for problems associate with non-Marley brand VFD systems.
Warning
Changing the operational fan speed from the factory settings could
cause the fan to operate in an unstable region which may result in
damage to the equipment and possible injury.
10
Warning
Warning
Installation
Mechanical Equipment:
The fluid cooler is designed to operate at full speed and half speed.
Warranty is void if the tower is operated at speeds which cause
damaging vibrations to the tower and associated equipment. When
utilizing a variable frequency drive, the tower must be tested across
the full range of speeds and checked against CTI guidelines for ex-
cessive vibration. Speed ranges not meeting these guidelines must
be locked out in the VFD.
Always shut off electrical power to the tower fan motor prior to
performing any maintenance on the tower. Any electrical switches
should be locked out and tagged out to prevent others from turning
the power back on.
1. If equipped, check oil level in accordance with the Geareducer User
Manual for the Geareducer. (Although the Geareducer was filled to the
proper level at the factory, tipping during shipment and hoisting may
have caused some loss of oil.) If oil is required, fill Geareducer to the
proper level with approved lubricant. (See Geareducer User Manual )
Check oil level at the Geareducer or dipstick (standpipe located on fan
deck, if so equipped) to confirm that the proper level is indicated.
Warning
2. On double-flow models—MHF706 and MHF707—install fan cylinder
and two-piece fan guard according to the installation drawing shipped
with the fluid cooler.
Improper installation of the fan cylinder and fan guard will destroy the
structural integrity of the fan guard. Failure of the fan guard could allow
operating or maintenance personnel to fall into the rotating fan.
3. Spin the fan(s) manually to assure that all fan blades properly clear
the inside of the fan cylinder. If equipped, observe the action of the
coupling (or drive shaft couplings) to be sure that the motor and
Geareducer are properly aligned. If necessary, correct the alignment
in accordance with the included manual.
For belt drive equipped models observe the action of the sheaves and
belts to be sure that the motor is properly aligned with the fan sheave.
See Belt Tensioning and Sheave Alignment on pages 22 thru 24.
➠
11
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