Marley Mh Dimension Guide

/MH Fluid Cooler /

Engineering Data & Speciﬁcations

>ViÊ

Ê>ÊÀÞÊ}Ê

Ê>ÀiÞ

}Ê/iV}iÃ

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Table of Contents

Engineering Data

Schematic – Single-Flow Models 6

Schematic – Double-Flow Models 7

Support 8

Freeze Prevention 9

Water Quality 10

Specifications / Base

Base 11

Thermal Performance 11

Performance Warranty 11

Coil 12

Design Loading 12

Construction 12

Mechanical Equipment 13

Fill, Louvers and Drift Eliminators 14

Distribution Basin 14

Casing, Fan Deck and Fan Guard 14

Access 15

Collection Basin 15

Specifications / Options

Stainless Steel Options

Stainless Steel Collection Basin 16

Stainless Steel Distribution Basin 16

All Stainless Steel Fluid Cooler 17

Stainless Steel Coil 17

Convenience and Safety Options

Handrail and Ladder 17

Distribution Basin Access Platform 18

Ladder Extension 18

Ladder Safety Cage 18

Access Door Platform 18

Plenum Walkway 19

Interior Mechanical Equipment Access Platform 19

Control Options

Control System 19

Vibration Limit Switch 20

Basin Heater 20

Variable Speed Drive 21

Miscellaneous Options

Dampers 21

Gear Drive 22

Motor Out of the Airstream 22

High Temperature Fill 22

Air Inlet Screens 22

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /

Marley's MH Fluid Cooler is the most efficient

system on the market—and your best choice

for industrial and HVAC applications. By keeping

the process fluid in a clean, closed loop, and

combining the function of a cooling tower and

heat exchanger into one system, they provide

superior operational and maintenance benefits.

The specifications portion of this publication not

only relates the language to use in describing an

appropriate MH Fluid Cooler—but also deﬁnes

why certain items and features are important

enough to specify with the intention of insisting

upon compliance by all bidders. The left hand

column of pages 11 thru 22 provides appropriate

text for the various speciﬁcation paragraphs,

whereas the right hand column comments on the

meaning of the subject matter and explains its

value.

Pages 11 thru 15 indicate those paragraphs

which will result in the purchase of a basic ﬂuid

cooler—one that accomplishes the speciﬁed

thermal performance, but which will lack

many operation—and maintenance-enhancing

accessories and features that are usually desired

by those persons who are responsible for the

continuing operation of the system of which the

ﬂuid cooler is part. It will also incorporate those

standard materials which testing and experience

has proven to provide acceptable longevity in

normal operating conditions.

Pages 16 thru 22 provide paragraphs intended to

add those features, components, and materials

that will customize the ﬂuid cooler to meet the

user‘s requirements.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Engineering Data : Schematic 6

(

).34!,,%$

(%)'(4

&,5)$).

!##%33

$//2

g

05-0

&,5)$/54

0,!.6)%7

3)$%%,%6!4)/. !)2).,%4%,%6!4)/.

Model

Dimensions Shipping Weight lb Motor

Pump

L W H Weight Heaviest

Section

MHF702 9'-1" 8'-5" 17'-1" 9,340 5,950 7.5 - 15 2

MHF703 12'-1" 8'-5" 17'-1" 11,200 7,250 10 - 20 3

MHF704 12'-1" 12'-0" 19'-7" 17,250 11,380 15 - 30 5

MHF705 18'-1" 12'-0" 19'-7" 25,975 17,070 22.5 - 45 7.5

Use this data for preliminary layouts only.

Obtain current drawing from your Marley sales

representative.

Marley's UPDATE web-based selection software

—available at www.marleyct.com—provides

MH Fluid Cooler model recommendations based

on customer's specific design requirements.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Engineering Data : Schematic 7

(

).34!,,%$

(%)'(4

&,5)$).

!##%33

$//2

&,5)$/54

0,!.6)%7

3)$%%,%6!4)/. !)2).,%4%,%6!4)/.

Model

Dimensions Shipping Weight lb Motor

Pump

L W H Weight Heaviest

Section

MHF706 11'-11" 23'-6" 22'-0" 35,890 24,110 20 - 75 2@7.5

MHF707 13'-11" 26'-0" 22'-0" 41,310 28,040 30 - 75 2@7.5

Use this data for preliminary layouts only.

Obtain current drawing from your Marley sales

representative.

Marley's UPDATE web-based selection software

—available at www.marleyct.com—provides

MH Fluid Cooler model recommendations based

on customer's specific design requirements.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Engineering Data: Support 8

!)2).,%4

&! # %

-/$%,3-(&4(25-(& -/$%,3-(&!.$-(&

Model D Maximum

Deflection

MHF702 8'-3" 6QE"

MHF703 8'-3" 6"

MHF704 11'-10" 6"

MHF705 11'-10" 6"

MHF706 23'-10" 56O"

MHF707 25'-10" 56O"

Use this data for preliminary layouts only. Obtain

detailed support drawings from your Marley sales

representative.

Primary support consists of parallel I-beams running

the full length of the unit.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Engineering Data: Freeze Prevention 9

Fluid Cooler Coil

When the ambient temperature falls below 32°F, heat

loss from the coil be substantial even without recirculating

water flowing over the coil. The process fluid, without an

applied heat load, may be prone to freezing. There are

various methods to protect against coil freezing.

Ethylene and propylene glycol solutions are the

best means to protect against coil freezing and are

recommended for most installations. The appropriate

concentration of ethylene or propylene glycol should be

determined based on the required protection from low

ambient temperatures.

If the use of an industrial antifreeze solution is not

compatible with the system, another accepted method

of preventing coil freezing is to maintain a sufficient flow

rate and heat load on the process fluid. The fluid exiting

the coil must be maintained at or above 45°F at the full

process flow rate. If the process load does not yield such

a heat load, it may be necessary to apply a supplementary

heat load to the process fluid.

Draining the coil is not considered to be an acceptable

means of protection against freezing. Introducing air to

the interior of the bundle will promote corrosion of the

heat exchanger coil. In an emergency, this alternative can

be used in the event that the process fluid drops below

45°F, the ambient temperature is below freezing and the

coils are not protected with industrial antifreeze.

Cycling of the recirculating water pumps should not be

used to control process flow temperatures. Coils may be

used for seasonal dry operation followed by seasonal wet

operation, but not for frequent cycling of the recirculating

water pump. Such operation may lead to an excessive

scale buildup resulting in a decrease in efficiency.

Fluid Cooling Recirculating Water

When the ambient air temperature falls below 32°F,

the recirculating water within the fluid cooler can freeze.

Marley Technical Report #H-003 “Operating Cooling

Towers in Freezing Weather” describes how to

prevent freezing during operation. Ask your Marley sales

representative for a copy or download a copy at

marleyct.com.

During shutdown, water collects in the basin and may

freeze solid. You can prevent freezing by adding heat to

the water left in the basin—or, you can drain the tower

and all exposed pipework at shutdown.

Electric Basin Heaters

Marley offers an automatic basin water heater system,

consisting of the following components:

• Stainless steel electric immersion heater(s).

Threaded couplings are provided in the side of

the collection basin.

• NEMA 4 enclosure containing:

Magnetic contactor to energize heater.

Transformer to convert power supply to 24 volts

for control circuit.

Solid state circuit board for temperature and

low-water cutoff.

The enclosure may be mounted on the side of the

fluid cooler.

• Control probe in the collection basin to monitor

water temperature and level.

• Heat tracing for recirculating water pump.

The basin heater option is only for freeze protection

of the recirculation water in collection basin. The basin

heater option does not protect the coil during freezing

weather.

Heater components are normally shipped separately

for installation by others.

Indoor Storage Tank

With this type of system, water flows from an

indoor tank and back to the tower where it is cooled

and recirculated. The water flows by gravity from the

fluid cooler to the tank located in a heated space. At

shutdown, all exposed water drains into the tank where it

is safe from freezing.

The amount of water needed to successfully operate

the system depends on the fluid cooler size and GPM

and on the volume of water contained in the piping

system to and from the tower. You must select a tank

large enough to contain those combined volumes—plus

a level sufficient to maintain a flooded suction on your

pump. Control makeup water according to the level where

the tank stabilizes during operation.

CAUTION

Freezing ambient conditions could cause significant

damage to the heat exchanger coil of the MH Fluid

Cooler. To avoid possible damage, it is imperative to

provide for adequate freeze protection.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Engineering Data: Water Quality 10

The MH Fluid Cooler can be a very effective air

washer. Atmospheric dust able to pass through the

relatively small louver openings will enter the recirculating

water system. Increased concentrations can intensify

systems maintenance by clogging screens and strainers—

and smaller particulates can coat system heat transfer

surfaces. In areas of low flow velocity—such as the

collection basin—sedimentary deposits can provide a

breeding ground for bacteria.

In areas prone to dust and sedimentation, you should

consider installing some means for keeping the collection

basin clean. Typical devices include side stream filters and

a variety of filtration media.

Blowdown

Blowdown or Bleedoff is the continuous removal of

a small portion of the water from the open recirculating

system. Blowdown is used to prevent the dissolved solids

from concentrating to the point where they will form

scale. The amount of blowdown required depends on

the cooling range—the difference between the hot and

cold water temperatures of the closed circuit— and the

composition of the makeup water. The MH Fluid Cooler

is equipped with a blowdown line with metering valve

connected directly to the overflow. Specific blowdown

adjustment instructions and additional blowdown

information can be found in the MH Fluid Cooler

User Manual .

CAUTION

The fluid cooler must be located at such distance

and direction to avoid the possibility of contaminated

discharge air being 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

compliance with applicable air pollution, fire and clean

air codes.

Water Treatment

To control the buildup of dissolved solids resulting

from water evaporation, as well as airborne impurities and

biological contaminants including Legionella, an effective

consistent water treatment program is required. Simple

blowdown may be adequate to control corrosion and

scale, but biological contamination can only be controlled

with biocides.

An acceptable water treatment program must be

compatible with the variety of materials incorporated in

a fluid cooler—ideally the pH of the recirculating water

should fall between 6.5 and 9.0. Batch feeding of the

chemicals directly into the fluid cooler is not a good

practice since localized damage to the fluid cooler is

possible. Specific startup instructions and additional

water quality recommendations can be found in the

MH Fluid Cooler User Manual which accompanies the

fluid cooler and also is available from your local Marley

sales representative. For complete water treatment

recommendations and services contact Marley Water

Resources, toll free at 877 800 0929 or contact your local

Marley sales representative.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Specifications: Base

Specifications Specification Value

1.0 Base:

1.1 Furnish and install an induced-draft,

crossflow-type, factory assembled,

galvanized steel, closed circuit fluid

cooler. Unit shall consist of _____

cell(s), as shown on plans. The limiting

overall dimensions of the tower shall

be _____ wide, _____ long, and _____

high to the top of the fan guard. Total

operating horsepower of all fans shall

not exceed _____ hp, consisting of

_____ @ _____ hp motor(s). Tower

shall be similar and equal in all

respects to Marley Model _______.

2.0 Thermal Performance:

2.1 Water as the heat transfer fluid.

The fluid cooler shall be capable of

cooling _____ GPM (L/s) of water

from _____ °F(°C) to _____ °F(°C) at a

design entering air wet-bulb tempera-

ture of _____ °F(°C). Coil pressure drop

shall not exceed _____ psi(kPa). The

thermal performance rating shall be

Certified by the Cooling Technology

Institute.

2.1 Aqueous glycol solution as the heat

transfer fluid.

The fluid cooler shall be capable of

cooling _____ GPM (L/s) of water

from _____ °F(°C) to _____ °F(°C) at

a design entering air wet-bulb tem-

perature of _____ °F(°C). Coil pressure

drop shall not exceed _____ psi(kPa).

The thermal performance rating shall

be based on the Cooling Technology

Institute certified performance rating

adjusted for the thermal properties of

the aqueous glycol solution used.

3.0 Performance Warranty:

3.1 CTI Certification notwithstanding, the

cooling tower manufacturer shall guar-

antee that the fluid cooler supplied

will meet the specified performance

conditions when the tower is installed

according to plans. If, because of a

suspected thermal performance defi-

ciency, the owner chooses to conduct

an on-site thermal performance test

under the supervision of a qualified,

QYour specification base establishes the type, configuration, base

material, and physical limitations of the fluid cooler to be quoted.

During the planning and layout stages of your project, you will

have focused your attention on a fluid cooler selection that fits

your space allotment, and whose power usage is acceptable.

Limitations on physical size and total operating horsepower

avoid the introduction of unforeseen operational and site-related

influences. Specifying the number of cells, and the maximum fan

hp/cell will work to your advantage.

The benefit of crossflow fluid coolers is that they are inherently

easy to operate, access, and maintain. Unlike counterflow fluid

coolers, crossflow fluid coolers have a spacious plenum between

banks of fill for easy access to all of the tower’s internal compo-

nents, and the water distribution system is adjacent to the fan deck.

QCTI Certification means that

the fluid cooler has been tested

under operating conditions and

found to perform as rated by the

manufacturer under those cir-

cumstances. It assures the buyer

that the tower is not intentionally

or inadvertently undersized by

the manufacturer.

QHowever, CTI certification alone is not sufficient to assure you

that the fluid cooler will perform satisfactorily in your situation.

Certification is established under relatively controlled conditions,

and fluid coolers seldom operate under such ideal circumstances.

They are affected by nearby structures, machinery, enclosures,

effluent from other sources, etc. Responsible and knowledge-

able bidders will take such site-specific effects into consideration

in selecting the fluid cooler—but the specifier must insist by the

written specification that the designer/manufacturer guarantee

this “real world” performance. Any reluctance on the part of the

bidder should cause you some concern.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Specifications: Base

Specifications Specification Value

disinterested third party in accordance

with CTI or ASME standards during

the first year of operation; and if the

tower fails to perform within the limits

of test tolerance; then the fluid cooler

manufacturer will pay for the cost of

the test and will make such corrections

as are appropriate and agreeable to the

owner to compensate for the perfor-

mance deficiency.

4.0 Coil:

4.1 Coil(s) shall consist of fully welded box

headers with serpentine coils and hot-dip

galvanized after fabrication. Coils shall

be tested to 400 psi(2757 kPa) air pres-

sure while immersed in water. Maximum

operating design pressure shall be 225

psi(1551 kPa). The coil shall be designed

for free drainages of fluid at shutdown.

5.0 Design Loading:

5.1 The structure and anchorage shall be

designed to withstand a wind load of

20 psf (960 Pa) on single-flow models

and 30 psf (1440 Pa) on double-flow

models, as well as .4g seismic load

while operating. The fluid cooler shall

be designed to withstand shipping and

hoisting loads of 2g horizontal or 3g

vertical. The fan deck and hot water

basin covers on double-flow models

shall be designed for 50 psf(2.42 kPa)

live load or a 200 lb(91 kg) concen-

trated load. Handrails, where specified,

shall be capable of withstanding a 200

lb(890N) concentrated live load in any

direction, and shall be designed in

accordance with OSHA guidelines.

6.0 Construction:

6.1 Except where otherwise specified, all

components of the fluid cooler shall

be fabricated of heavy-gauge steel,

protected against corrosion by G-235

galvanizing. After passivation of the

galvanized steel (8 weeks at pH 7-8,

and calcium hardness and alkalinity at

100-300 ppm each), the fluid cooler

shall be capable of withstanding water

having a pH of 6.5 to 9.0; a chloride

content up to 500 ppm as NaCl (300

QThe MH Fluid Cooler coil

is suitable for cooling

water, oils, and other

fluids compatible with

carbon steel in a closed,

pressurized system. Each

coil is constructed of all-

prime surface, continu-

ous steel tubing, formed

into a serpentine shape

and welded into an

assembly. The complete

assembly is then hot-

dip galvanized after fabrication. Design pressure is 225 psig, and

each coil is tested to 400 psig air pressure under water. Tubes are

sloped to provide free drainage when vented.

QThe indicated design values are the minimum allowables under

accepted design standards. They give you assurance that the

fluid cooler can be shipped, handled, hoisted—and ultimately

operated in a normal cooling tower environment. Most MH Fluid

Cooler models will withstand significantly higher wind and seis-

mic loads. If your geographic location dictates higher wind load

or seismic load values, please make the appropriate changes,

after discussion with your Marley sales representative.

QIn the history of fluid coolers, no other coating for carbon steel

has exhibited the success and longevity of galvanization in

exposure to the normal cooling tower water quality defined at

left. No paints or electrostatically-applied coatings, however

exotic they may be, can approach galvanization's history of suc-

cess.

If extended longevity of the fluid cooler is required—or unusu-

ally harsh operating conditions are expected—consider specify-

ing stainless steel as either the base construction material, or

the material utilized for specific components of your choice. See

Stainless Steel Options on page 12.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Specifications: Base

Specifications Specification Value

ppm as Cl-); a sulfate content (as SO4)

up to 250 ppm; a calcium content (as

CaCO3) up to 500 ppm; silica (as SiO2)

up to 150 ppm; and design operat-

ing ranges up to 50°F (27.8°C). The

circulating water shall contain no oil,

grease, fatty acids, or organic solvents.

6.2 The specifications, as written, are

intended to indicate those materials

that will be capable of withstanding the

above water quality in continuing ser-

vice, as well as the loads described in

paragraph 6.1. They are to be regarded

as minimum requirements. Where

component materials unique to indi-

vidual tower designs are not specified,

the manufacturers shall take the above

water quality and load carrying capabili-

ties into account in the selection of

their materials of manufacture.

7.0 Mechanical Equipment:

7.1 Fan(s) shall be heavy-duty, axial flow

design. Fan(s) shall be driven through

an industrial grade system of V-belts,

pulleys, and tapered roller bearings.

Bearings shall be rated at an L10 life of

40,000 hours, or greater.

7.2 Motor(s) shall be ____ hp maximum,

Totally Enclosed, 1.15 service factor,

variable torque, and specially insu-

lated for cooling tower duty. Speed

and electrical characteristics shall be

______ RPM, single-winding, 3 phase,

60 hertz, ____ volts.

7.3 The fan and fan drive assembly for

each cell shall be supported by a rigid,

galvanized steel structural support that

resists misalignment. The mechanical

equipment assembly shall be war-

ranted against any failure caused by

defects in materials and workmanship

for no less than five (5) years following

the date of tower shipment. This war-

ranty is limited to the fan, fan shaft,

bearings, sheaves and mechanical

equipment support. The motor, motor

components, pumps and belt(s) are

warranted by their manufacturer.

QPropeller-type fans require

only half the operating hp

of blower-type fans. The

Marley drive system fea-

tures all-aluminum sheaves,

matched belts, and long-life

bearings for dependable

service.

To reduce cost, some manufacturers may use TEAO motors,

whose only source of cooling is the flow of air produced by the

cooling tower fan. They are sometimes applied at horsepowers

significantly beyond their nameplate rating.

Unless otherwise specified, motor speed will be 1800 RPM, 60

Hertz on standard models. If you prefer the operating flexibility

of two-speed operation, please specify two-speed, single-wind-

ing motors which offer full and half speeds for maximum energy

savings. Incidentally, two speed motors are a far better choice

than separate “pony” motors which simply double the problems

indicated above.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Specifications: Base

Specifications Specification Value

8.0 Fill, Louvers and Drift Eliminators:

8.1 Fill shall be film-type, thermoformed of

15 mil (0.38 mm) thick PVC, with lou-

vers and eliminators formed as part of

each fill sheet. Fill shall be suspended

from galvanized structural tubing sup-

ported from the tower structure.

8.2 Coil louvers and eliminators shall be

film-type, thermoformed of 17 mil

(0.43mm) thick PVC and shall be easily

removable for access to tube bundle

8.3 Fill and coil drift eliminators shall be

triple-pass, and shall limit drift losses

to no more than 0.005% of the design

GPM flow rate of the recirculating

water. The air inlet face of the tower

shall be free of water splash-out.

9.0 Distribution Basins:

9.1 An open basin above the fill with

removable interchangeable polypro-

pylene nozzles installed in the floor of

the basin shall provide full coverage of

the fill by gravity flow. Basin shall be

installed and sealed at the factory and

shall be equipped with removable, gal-

vanized steel covers.

9.2 A redistribution basin below the fill

with polypropylene nozzles installed in

the floor of the basin shall provide full

coverage of the coil at a flow rate suf-

ficient to ensure complete wetting of

the coil at all times.

10.0 Casing, Fan Deck and Fan Guard:

10.1 The casing and fan deck shall be heavy

gauge G-235 galvanized steel panels.

The top of the fan cylinder(s) shall be

equipped with a conical, non-sagging,

removable fan guard, fabricated of

welded 5/16" (8mm) and 7 gauge rods

and hot-dip galvanized after fabrication.

QLouvers integral with the fill keep

the flowing water within the

confines of the fill. The separate

external louvers used by others

permit water to escape the fill and

form ice or produce an unsightly

situation adjacent to the tower. If

you plan to use your tower in the

wintertime, particularly for free

cooling, integral louvers will put

your operating concerns to rest.

QDrift rate varies with design water

loading and air rate, as well as

drift eliminator depth and num-

ber of directional changes. The

indicated rate of 0.005% is eas-

ily achievable without premium cost. If a lower rate is required,

please discuss with your Marley office or representative.

QGravity-flow distribution basins are a feature of the MH Fluid

Cooler resulting in operating pump heads less than that encoun-

tered in fluid coolers with pressurized spray systems. Also, these

basins are out where they can be easily inspected—even main-

tained—while the fluid cooler is in operation. Spray systems are

extremely awkward to access and maintain.

Also, the plastic basin covers offered by some manufacturers are

incapable of supporting the loads imposed in maintenance. They

will, therefore, tell you that it is really unnecessary for you to

ever go to the top of their towers and—if you do have to—that it

is better for you to work from the top of a portable ladder!

QManufacturers who use materials other than heavy-gauge steel

for fan decks may be unable to meet your specified loading

requirements. Fan decks on the larger models—MHF706 and

MHF707—are designed to be used as a working platform.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Specifications: Base

Specifications Specification Value

11.0 Access:

11.1 A large galvanized, hinged, steel

access door 24" (711mm) wide and

42" (1066mm) high shall be located

on both endwalls for entry into the

cold water basin and fan plenum area.

Access doors shall be operable from

inside as well as outside the tower.

12.0 Collection Basin:

12.1 The collection basin shall be heavy-

gauge galvanized steel. Suction

connections shall be equipped with

galvanized debris screens. A factory-

installed, float-operated, mechani-

cal makeup valve and waste water

blowdown line shall be included. A 4"

(101.7 mm) diameter PVC drain and

overflow shall be provided in each cell

of the tower. The basin shall include

a depressed section into which accu-

mulated silt can be flushed to permit

cleaning. The basin floor adjacent to

the depressed section shall slope

toward the depressed section to pre-

vent buildup of silt under the coil area.

12.2 Recirculation pump(s) shall be

mounted to the collection basin in

conjunction with a suction assembly.

Recirculation piping shall be schedule

40 PVC. A blowdown line with meter-

ing valve shall be connected directly to

the tower overflow.

13.0 Warranty:

13.1 The fluid cooler shall be free from

defects in materials and workmanship

for a period of eighteen (18) months

from the date of shipment.

QAccess doors on other manufacturer’s towers may be 18" wide

or smaller, which is unreasonably small for a human being.

Specifying the size of the door will cause those bidders to take

exception, alerting you to a potential maintenance headache. Two

doors are standard on all MH Fluid Coolers—one in each endwall.

The removable-standpipe type of overflow is valuable because

it provides a way to achieve flush-out cleanability. Other drains

may be as little as 1" (25mm) diameter, making flush-out cleaning

impractical at best.

Location of the coil in the lower portion of the MH Fluid Cooler

makes it much easier to access for cleaning and inspection.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Specifications: Options

Specifications Specification Value

Stainless Steel Options

Stainless Steel Collection Basin:

12.1: Replace paragraph 12.1 with the fol-

lowing: The cold water basin shall be

heavy-guage series 300 welded stain-

less steel. Suction connections shall

be equipped with stainless steel debris

screens. A factory-installed, float-oper-

ated, mechanical makeup valve and

waste water blowdown line shall be

included. A 4" (101.7 mm) diameter

PVC drain and overflow shall be provid-

ed in each cell of the tower. The basin

shall include a depressed section into

which accumulated silt can be flushed

to permit cleaning. The basin floor

adjacent to the depressed section shall

slope toward the depressed section to

prevent buildup of silt under the coil

area. All steel items which project into

the basin (coil supports, anchor clips,

etc) shall also be made of stainless

steel.

Stainless Steel Distribution Basin:

9.1 Replace paragraph 9.1 with the

following: An open stainless steel

basin above the fill with removable

interchangeable polypropylene nozzles

installed in the floor of the basin shall

provide full coverage of the fill by

gravity flow. Basin shall be installed

and sealed at the factory and shall be

equipped with removable, stainless

steel covers capable of withstanding

the loads described in paragraph 5.1.

All components of these basins with

the exception of the nozzles and redis-

tribution piping shall be stainless steel.

9.2 Replace paragraph 9.2 with the fol-

lowing: A redistribution basin below

the fill with removable interchange-

able polypropylene nozzles installed

in the floor of the basin shall provide

full coverage of the coil at a flow rate

sufficient to ensure complete wetting

of the coil at all times. All components

of the basin with the exception of the

nozzles and ABS redistribution cover

shall be stainless steel.

QThe cold water basin is the only part of the tower that is subject

to periods of stagnant water, concentrated with treatment chemi-

cals and customary contaminants. It is also the most expensive

and difficult part of any tower to repair or replace. For these

reasons, many customers—particularly those who are replacing

older towers—choose to specify stainless steel cold water basins.

QIt would also be advisable to change the fill support tubes in

Paragraph 8.1 from galvanized structural tubing to 300 stainless

steel structural tubing.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Specifications: Options

Specifications Specification Value

All Stainless Fluid Cooler

6.1 Replace paragraph 6.1 with the fol-

lowing: Except where otherwise spec-

ified, all components of the fluid cooler

shall be fabricated of heavy-gauge,

series 300 stainless steel. The tower

shall be capable of withstanding water

having a chloride content (NaCl) up to

750 ppm; a sulfate content (SO4) up to

1200 ppm; a calcium content (CaCO3)

up to 800 ppm; silica (SiO2) up to 150

ppm; and design operating ranges up

to 50°F (27.8°C). The circulating water

shall contain no oil, grease, fatty acids,

or organic solvents.

Stainless Steel Coil:

4.1 Replace paragraph 4.1 with the fol-

lowing: Coil(s) shall consist of fully

welded box headers with serpentine

coils. All coil components shall be

assembled from series 300 stain-

less steel. Coils shall be tested to

400 psi(2757 kPa) air pressure while

immersed in water. Maximum oper-

ating design pressure shall be 225

psi(1551 kPa). The coil shall be designed

for free drainages of fluid at shutdown.

Convenience and Safety Options

Handrail and Ladder: MHF706 and

MHF707 models only

11.2 Add the following paragraph in the

Access section: The top of the fluid

cooler shall be equipped with a sturdy

handrail, complete with kneerail and

toeboard, designed according to OSHA

guidelines. Handrails and kneerails

shall consist of 1.66" (42mm) O.D. x

15 gauge galvanized structural tubing,

the handrail of which shall be capable

of withstanding a 200 pound (890N)

concentrated live load in any direc-

tion. Posts are 2" x 2" (51mm x 51mm)

square structural tubing and shall be

spaced on centers of 8'-0"

(2438mm) or less. A 1'-6" (457mm)

wide aluminum ladder with 3"(76mm)

I-beam side rails and 1.25" (32mm)

diameter rungs shall be permanently

attached to the endwall casing of the

fluid cooler, rising from the base of the

fluid cooler to the top of the handrail.

QFor pure resistance to corrosion—coupled with the capability to

meet stringent fire and building codes—there is no substitute

for stainless steel. No paints or electostatically-applied coatings,

however exotic they may be, can match stainless steel's ability to

withstand adverse operating conditions.

QFor process fluids that are not compatible with the standard gal-

vanized steel construction, stainless steel offers you the ultimate

in corrosion resistance and long life. The thermal performance

rating shall be based on the Cooling Technology Institute certified

performance rating adjusted for the thermal properties of stain-

less steel.

QGood maintenance practice requires periodic access to the top of

the fluid cooler to inspect the distribution basins as well as the

structural integrity of the fan deck, fan guard, fan cylinder and

fan—especially the fan blade securing hardware. These models

are large enough to accommodate this convenience.

For the comfort and safety of your operating personnel, we rec-

ommend that you specify a ladder and handrail on these models

Portable ladders and other “make-do” access means are inap-

propriate for equipment of this size and complexity. Also, fixed

ladders without fan deck handrails invite unsafe maintenance

practices and must not be allowed.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Specifications: Options

Specifications Specification Value

Distribution Basin Access Platform:

11.2 Add the following paragraph in the

Access section: Provide an external

platform near the top of the louver

face for access to the hot water dis-

tribution system. The platform shall

be heavy gauge galvanized steel with

safety grip perforations, supported by

galvanized steel framework attached

to the fluid cooler. The platform shall

be surrounded by a handrail, kneerail,

and toeboard. A permanently attached

1'-6" (457.2 mm) wide aluminum lad-

der with 3" (76.2 mm) I-beam side rails

and 1.25" (31.8 mm) diameter serrated

rungs shall extend from the base of

the tower to the top of the handrail.

Ladder Extension:

11.2 Add the following to the end of para-

graph 11.2: Provide a ladder extension

for connection to the foot of the ladder.

This extension shall be long enough to

rise from the roof (grade) level to the

base of the fluid cooler. The installing

contractor shall be responsible for cut-

ting the ladder to length; attaching it to

the foot of the fluid cooler ladder; and

anchoring it at its base.

Ladder Safety Cage:

11.3 Add the following paragraph in the

Access section: An aluminum safety

cage shall surround the ladder, extend-

ing from a point approximately 7'-0"

(2.134m) above the foot of the ladder

to the top of the handrail surrounding

the fan deck or platform.

Access Door Platform:

11.4 Add the following paragraph in the

Access section: There shall be an

access platform at the base of the fluid

cooler extending from the vertical lad-

der to the endwall access door. The

platform shall be galvanized steel bar

grating, supported by galvanized steel

framework attached to the fluid cooler.

The platform shall be surrounded by a

handrail, kneerail, and toeboard.

QPeriodic inspection and maintenance of a fluid cooler distribution

system is fundamental to preserving maximum cooling system

efficiency. All fluid coolers—crossflow or counterflow—are sub-

ject to clogging to varying degrees by waterborne contaminants

such as pipe scale and sediment. Therefore, safe and easy access

to these components is of significant value to the operator.

Access can be provided in a number of ways, including portable

ladders or scaffolding, but for maximum safety and convenience,

Marley offers a field installed access platform with guardrails to

make this task as safe and user-friendly as possible. Further, its

location on the side of the tower does not add to the height of

the unit, preserving architectural integrity. It also saves the owner

time and money, in that maintenance personnel may devote their

time to inspection rather than searching for ladders or erection of

portable scaffolding.

QMany fluid coolers are installed such that the base of the unit is

2v-0w(610 mm) or more above the roof or grade level. This makes

it difficult to get up to the foot of the attached ladder. The ladder

extension alleviates this problem. Marley's ladder extensions are

available in standard 5v-0w(1.524m) and 11v-0w(3.353m) lengths.

QTo meet OSHA guidelines, towers whose fan decks are 20'-0"

(6.096m) or more above roof or grade, and which are equipped

with ladders, should have safety cages surrounding the ladders,

but with approximately 7'-0" (2.134m) clear headroom.

QWhere fluid coolers are installed on an elevated grillage or piers,

it is often difficult to get to—and through—the access door con-

veniently. This platform provides easy, safe, and comfortable

access to that door. It also extends beyond the door to provide

ready access to the optional Control System.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Specifications: Options

Specifications Specification Value

Plenum Walkway: MHF706 and

MHF707 models—standard on others.

11.5 Add the following paragraph in the

Access section: Provide a factory-

installed, heavy gauge galvanized steel

walkway with safety grip perforations,

extending from one endwall access

door to the other endwall access door.

This walkway shall be supported by a

galvanized steel framework, and the

top to the walkway shall be at or above

the cold water basin overflow level.

Interior Mechanical Equipment

Access Platform: MHF706 and

MHF707 models require plenum

walkway option.

11.6 Add the following paragraph in the

Access section: An internal ladder

shall extend upward from the plenum

walkway to an elevated fiberglass bar

grating platform convenient to the care

and maintenance of the fluid cooler's

mechanical equipment. The platform

shall be surrounded by a sturdy hand-

rail and kneerail system.

Control Options

Control System:

6.4 Add the following paragraph in the

Mechanical Equipment section: The

fluid cooler shall be equipped with a

UL 508 control system in a NEMA 3R

or 4X outdoor enclosure capable of

controlling single-speed or two-speed

motors as required, and designed

specifically for fluid cooler applications.

The panel shall include a main fused

disconnect with an external operating

handle, lockable in the off position for

safety. Across-the-line magnetic start-

ers as required shall be controlled with

a solid state temperature controller.

Door mounted selector switches shall

be provided to enable automatic or

manual control and wired for 120VAC

control. Control circuit to be wired out

to terminal blocks for field connection

to remote vibration switches. The tem-

perature controller shall be adjustable

for the required process temperature.

QA galvanized steel walkway enables easy access to inspect col-

lection basin items such as the coil, coil eliminators, sump screen

and make-up valve and provides a dry working area to view and

access the drive system.

QAn elevated fiberglass bar grating service platform with alumi-

num ladder provides a permanent working surface to inspect and

maintain the mechanical equipment components.

QIf it is your opinion that the control system for the fluid cooler be

part of the fluid cooler manufacturer’s responsibility, we are in

wholehearted agreement with you. Who better to determine the

most efficient mode and

manner of a fluid cooler’s

operation—and to apply a

system most compatible

with it—than the designer

and manufacturer of the

fluid cooler?

Marley variable speed

drives are also available

for the ultimate in temper-

ature control, energy man-

agement, and mechanical

equipment longevity.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Marley /MH Fluid Cooler /Specifications: Options

Specifications Specification Value

The temperature controller will display

two temperatures, one for process

temperature at the coil and the other

for set point. Process temperature

input shall be obtained using a thermal

sensing device on the process coil and

wired back to the solid state tempera-

ture controller in the control panel.

Staging of multiple motors and speeds

will be accomplished with an integral

PLC.

Vibration Limit Switch:

6.5 Add the following paragraph in the

Mechanical Equipment section: A

single-pole, double-throw vibration limit

switch in a NEMA 4 housing shall be

installed on the mechanical equipment

support for wiring into the owner’s

control panel. The purpose of this

switch will be to interrupt power to the

motor in the event of excessive vibra-

tion. It shall be adjustable for sensitiv-

ity, and shall require manual reset.

Basin Heater:

11.2 Add the following paragraph in the

Cold Water Basin section: Provide a

system of electric immersion heaters

and controls for each cell of the tower

to prevent freezing of water in the

collection basin during periods of shut-

down. The system shall consist of one

or more stainless steel electric immer-

sion heaters installed in threaded cou-

plings provided in the side of the basin.

A NEMA 4 enclosure shall house a

magnetic contactor to energize heat-

ers; a transformer to provide 24 volt

control circuit power; and a solid state

circuit board for temperature and low

water cut-off. A control probe shall be

located in the basin to monitor water

level and temperature. The system

shall be capable of maintaining 40°F

(4.4°C) water temperature at an ambi-

ent air temperature of

_____ °F ( ____ °C).

QUnless specified otherwise, a Metrix

switch will be provided. A double-pole,

double-throw model is also available.

If purchased in conjunction with the

Control System, it is also factory-wired.

The requirement for manual reset

assures that the tower will be visited to

determine the cause of excess vibration.

QThe basin heater components described at left represent Marley's

recommendation for a reliable automatic system for the preven-

tion of basin freezing. They are normally shipped separately for

installation at the jobsite by the installing contractor. When pur-

chased in conjunction with the enhanced Control System option,

however, they are customarily factory-mounted and tested.

Submerged in basin water, in which zinc ions are present, copper

immersion heaters must not be used. Insist upon stainless steel.

The ambient air temperature that you insert in the specifications

should be the lowest 1% level of winter temperature prevalent at

site.

MULTICHILL Refrigeration Products

SPX Cooling Technologies - Marley Cooling Towers

Cooke Industries - Phone: +64-9-579 2185 Fax: +64-9-579 2181 Email: [email protected] Web: www.cookeindustries.co.nz

Table of contents

Other Marley Air Conditioner manuals

Marley

Marley E3606-1125HFD Parts list manual

Marley

Marley MD5016 User manual

Marley

Marley MD Series User manual

Marley

Marley Series 500 User manual

Popular Air Conditioner manuals by other brands

Ameristar

Ameristar M4MHW15-A installation instructions

Frigidaire

Frigidaire FAC064K7A2 Factory parts catalog

Mitsubishi Electric

Mitsubishi Electric PUHZ-RP50VHA4 Service manual

Frigidaire

Frigidaire FFRE103WA1 use & care

Daikin

Daikin FTXS50EV1B installation manual

Daikin

Daikin Split Sensira R32 Service manual

Panasonic

Panasonic CS-CZ25WKE Service manual

Samsung

Samsung AJ NBNDEH Series user manual

Haier

Haier HC1891VAR Installation & operation manual

Carrier

Carrier ASBFE600BA owner's manual

Friedrich

Friedrich CCW06B10B operating instructions

air choice

air choice TY-EA-03 user manual

Hitachi

Hitachi RA-13JF1 Operation and installation manual

Daikin

Daikin RZQSG-LV1 Technical data

Daikin

Daikin Comfort Flex CLIV Series Installation, operation and maintenance manual

Mitsubishi

Mitsubishi PQHY-P200YGM-A installation manual

LG LSN-HSV2 owner's manual

Daikin

Daikin EWLD120MBYNN Installation instruction

Marley MH Dimension Guide

Popular Air Conditioner manuals by other brands