SPX Cooling Technologies Humidifier FSIG TS 08A User Manual

Marley Sigma F Series CoolingTower  
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Engineering Data & Specifications  
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Marley Sigma F Series CoolingTower  
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3
Pages 12 through 19 indicate those paragraphs which  
he Sigma F Series is a field-erected, crossflow,  
Tfiberglass-structure cooling tower designed  
to serve normal air conditioning and refrigeration  
systems as well as medium sized industrial loads.  
Evolving from the crossflow concept of cooling tower  
pioneered by Marley in 1938, and incorporating over  
65 years of design advancements, the Sigma F Series  
represents the current state of the art in this cooling  
tower category.  
will result in the purchase of a cooling tower which  
will not only accomplish the specified thermal  
performance, but which will include normal operation  
and maintenance-enhancing accessories and features.  
It will also incorporate those standard materials which  
testing and experience has proven to provide best  
results in normal operating conditions.  
Pages 20 through 27 provide some paragraphs  
intended to add those features, components, and  
materials that will customize the tower to meet the  
user's requirements.  
This booklet not only relates the language to use  
in describing an appropriate Sigma F Series cooling  
tower—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 12 through 27  
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.  
Space does not permit definition and explanation of  
all of the possible options that can be applied to the  
Sigma F Series. SPX CoolingTechnologies realizes  
that you, the purchaser, must be happy with the  
tower's characteristics, and we are prepared to  
provide—or provide for—any reasonable enhancement  
that you are willing to define and purchase.  
Your needs will become part of the continuing  
improvement of this product line.  
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Marley Sigma F Series CoolingTower Engineering Data : Schematic  
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4
C
C
C
L COLUMN  
L COLUMN  
A BAYS AT 4'-0" = LCOLUMNL  
C DIAMETER FAN  
3"  
3"  
TOWER PLAN  
TOP OF  
FAN CYLINDER  
B
FAN DECK  
Use this data for preliminary layouts only.  
Obtain current drawing from your Marley sales  
representative.  
H
The UPDATE web-based selection software  
— available at spxcooling.com — provides  
Sigma F Series model recommendations based  
on customer's specific design requirements.  
13'-6"  
BASE OF  
TOWER COLUMNS  
ENDWALL ELAVATION  
Dimensions  
Tower  
Model  
W
L
H
A
4
4
5
6
6
7
B
C
F1211  
F1221  
F1231  
F1241  
F1251  
F1261  
29'-2"  
31'-2"  
31'-2"  
31'-2"  
35'-2"  
35'-2"  
16'-0"  
16'-0"  
20'-0"  
24'-0"  
24'-0"  
28'-0"  
19'-6"  
20'-6"  
20'-6"  
20'-6"  
20'-6"  
20'-6"  
6'-0"  
7'-0"  
7'-0"  
7'-0"  
7'-0"  
7'-0"  
144"  
168"  
168"  
168"  
216"  
216"  
NOTE  
1 Use this bulletin for preliminary layouts only. Obtain current  
drawings from your Marley representative.  
columns on applications with a stainless steel cold water basin.  
Ladder stops at top of basin curb wall on applications with a  
concrete basin.  
2 All table data is per cell.  
3 All tower installations require a minimum of 4'-0" from cen-  
terline of tower endwall column to any vertical obstruction at  
tower ladder location. Ladder can be located at any corner of  
the fan deck. Ladder extends 838" below the base of tower  
Tower installations with an elevation 20'-0" or more from the top  
of the fan deck to grade or roof level require a safety cage on  
the tower ladder in compliance with OSHA standards. Marley  
ladder safety cages are available as an option.  
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Marley Sigma F Series CoolingTower Engineering Data : Support  
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5
A
SPACES AT 4'-0" =  
L
INTERMEDIATE BEAM  
AIR INLET FACE  
MAKEUP  
VALVE  
SUMP  
OVERFLOW  
AIR INLET FACE  
PRIMARY SUPPORT  
BEAM  
C
L
COL. & ANCH. BOLT  
PLAN  
1
2 /4" MAX.  
NORMAL  
GAGE  
ELEVATION  
SECTION  
Tower  
Model  
Note 4  
Dimensions  
Operating Weight lb  
A
W
L
Single Fan Cell  
Each Cell Add  
F1211  
F1221  
F1231  
F1241  
F1251  
F1261  
4
4
5
6
6
7
26'-6"  
28'-6"  
28'-6"  
28'-6"  
32'-6"  
32'-6"  
16'-0"  
16'-0"  
20'-0"  
24'-0"  
24'-0"  
28'-0"  
55810  
59300  
70180  
81410  
91070  
102800  
51510  
54920  
65760  
77020  
86450  
98090  
NOTE  
1 Use this bulletin for preliminary layouts only. Do not use  
for construction. Obtain current drawings from your Marley  
representative.  
4 Last number of model indicates number of cells. Change as ap-  
propriate for your selection. Primary engineering data is per cell.  
5 Maintain no less than 2'-0" of clear space at tower endwalls for  
construction purposes. Louvered faces must have unobstruct-  
ed air supply. If obstructions exist nearby, consult your Marley  
representative.  
2 Operating weight is total wet weight including stainless steel  
collection basin with 6" (recommended operating water level)  
of water.  
3 Purchaser to design, construct and furnish supporting steel  
complete with 1316" diameter holes for anchor bolts to suit the  
general dimensions of current Marley drawings.  
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Marley Sigma F Series CoolingTower Engineering Data : Support  
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6
OPTIONAL PARTITION WALL  
FOR INDIVIDUAL CELL OPERATION  
6" MIN  
TYP  
A
B
SPACES AT 4'-0" =  
L
AIR INLET FACE  
P
AIR INLET FACE  
B
SUMP  
SEE NOTE 7  
TOP OF BASIN CURB  
TOP OF PARTITION WALL  
1'-4"  
PLAN  
TOP OF BASIN CURB  
OPERATING WATER  
LEVEL RECOMMENDED  
1'-6"  
1'-0"  
6" MIN  
1'-6"  
SECTION P  
SECTION B  
Tower  
Model  
Note 4  
Dimensions  
W
Operating Weight lb  
A
L
Single Fan Cell  
Each Cell Add  
F1211  
F1221  
F1231  
F1241  
F1251  
F1261  
4
4
5
6
6
7
26'-4"  
28'-4"  
28'-4"  
28'-4"  
32'-4"  
32'-4"  
16'-0"  
16'-0"  
20'-0"  
24'-0"  
24'-0"  
28'-0"  
39220  
41460  
48200  
55300  
61260  
68280  
35920  
38160  
44860  
51980  
57880  
64800  
NOTE  
1 Use this bulletin for preliminary layouts only. Do not use  
for construction. Obtain current drawings from your Marley  
representative.  
5 All anchor bolts complete with nut and washer will be furnished  
by others. Bolts are 34" diameter with 112" all thread projection.  
Material should be stainless steel.  
6 Maintain no less than 2'-0" of clear space at tower endwalls for  
construction purposes. Louvered faces must have unobstruct-  
ed air supply. If obstructions exist nearby, consult your Marley  
representative.  
7 Purchaser must design, construct, and furnish sump(s) and  
overflow(s) to suit requirements. The sump should be designed  
according to the pump manufacturer's recommendations.  
2 Tower weight is total wet operating weight of tower only ex-  
cluding water in the concrete basin.  
3 Purchaser to design, construct and furnish concrete basin  
complete to suit the general dimensions of current Marley  
drawings.  
4 Last number of model indicates number of cells. Change as ap-  
propriate for your selection. Primary engineering data is per cell.  
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Marley Sigma F Series CoolingTower Engineering Data : Piping Plan 2  
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7
TYP. SINGCLE CELL  
D
C
C
C
L FAN  
L FAN  
TYP. MULTICELL  
C
C
L INLET  
L INLET  
C
C
L COLUMN AND  
L COLUMN AND  
ANCHOR BOLT  
ANCHOR BOLT  
F
MOTOR  
PIPING  
PIPING  
LOADS SUPPORTED  
BY TOWER  
PLAN  
LOADS SUPPORTED  
BY OTHERS  
C
FAN L TOWER  
B
DIAMETER  
CROSSOVER PIPE  
F
C
L INLET  
MOTOR  
FACE OF  
A
DIA. GALVANIZED FLANGE  
3
/
FLANGE IS  
4" THICK. BOLT  
CIRCLE CONFORMS TO 125 LB.  
ANSI SPECIFICATIONS  
BASE OF  
TOWER COLUMNS  
E
NOTE  
1 Use this bulletin for preliminary layouts only. Obtain current  
drawings from your Marley representative.  
2 Pumping head contributed by the tower is static lift E. Actual  
pumping head will vary according to tower circulating GPM.  
Total pumping head will be furnished at time of proposal.  
3 If your application requires a bypass system, recommended  
location is through the tower endwall into the plenum area.  
Review of the system by SPX engineering is required.  
4 All header and riser piping to be furnished by others.  
A corrosion-resistant material or coating for piping is  
recommended. All inlet piping loads, including thrust and  
seismic, outside of tower plan area must be supported by  
others.  
STAINLESS  
CONCRETE  
BASIN OPTION  
STEEL BASIN  
OPTION  
END ELEVATION  
Dimensions  
Tower  
Model  
Flow/Cell  
GPM  
A
B
C
D
E
F
F1210  
F1220  
F1230  
F1240  
F1250  
F1260  
1050-5750  
1050-5750  
1320-7200  
1500-8650  
1500-8650  
1850-10100  
12"  
14"  
14"  
14"  
16"  
16"  
10"  
12"  
12"  
12"  
14"  
14"  
8'-0"  
8'-0"  
16'-0"  
16'-0"  
20'-0"  
24'-0"  
24'-0"  
28'-0"  
15'-1078  
"
7'-6"  
8'-6"  
15'-1178  
15'-1178  
15'-1178  
"
"
"
10'-0"  
12'-0"  
12'-0"  
14'-0"  
8'-6"  
8'-6"  
16'-078  
16'-078  
"
10'-6"  
10'-6"  
"
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Marley Sigma F Series CoolingTower Engineering Data : Piping Plan 3  
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8
C
D
C
C
C
L FAN  
L FAN  
TYP. SINGLE CELL  
TYP. MULTICELL  
H
C
C
C
L COLUMN AND  
L RISER  
L COLUMN AND  
ANCHOR BOLT  
ANCHOR BOLT  
F
MOTOR  
PLAN  
H
C
FAN L TOWER  
FACE OF  
FAN  
A
DIA. GALVANIZED FLANGE  
G
F
C
L
C
L
3
/
RISER  
C
FLANGE IS  
4" THICK. BOLT  
L INLET RISER  
B
DIAMETER  
MOTOR  
CIRCLE CONFORMS TO 125 LB.  
ANSI SPECIFICATIONS  
CROSSOVER PIPE  
1
/
10  
8"  
26" x 26" INTERNAL  
RISER SLEEVE / AIR  
SEAL (SS BASIN)  
E
CONCRETE  
BASIN OPTION  
BASE OF  
TOWER COLUMNS  
STAINLESS  
STEEL BASIN  
OPTION  
END ELEVATION  
SIDE ELEVATION  
Dimensions  
Tower  
Model  
Flow/Cell  
GPM  
A
B
C
D
E
F
G
H
F1210  
F1220  
F1230  
F1240  
F1250  
F1260  
1050-5750  
1050-5750  
1320-7200  
1500-8650  
1500-8650  
1850-10100  
12"  
14"  
14"  
14"  
16"  
16"  
10"  
12"  
12"  
12"  
14"  
14"  
8'-0"  
8'-0"  
16'-0"  
16'-0"  
20'-0"  
24'-0"  
24'-0"  
28'-0"  
15'-034  
15'-134  
15'-134  
15'-134  
15'-234  
"
"
"
"
"
3'-3"  
3'-6"  
3'-6"  
3'-6"  
3'-9"  
3'-9"  
1'-778  
1'-778  
2'-778  
1'-778  
1'-778  
3'-178  
"
"
"
"
"
"
2'-6"  
2'-6"  
3'-6"  
2'-6"  
2'-6"  
3'-9"  
10'-0"  
12'-0"  
12'-0"  
14'-0"  
15'234  
"
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Marley Sigma F Series CoolingTower Engineering Data : Piping Plan 4  
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9
C
D
C
C
C
L FAN  
L FAN  
TYP. SINGLE CELL  
TYP. MULTICELL  
H
C
C
C
L COLUMN AND  
L RISER  
L COLUMN AND  
ANCHOR BOLT  
ANCHOR BOLT  
F
MOTOR  
PLAN  
H
C
FAN L TOWER  
FACE OF  
FAN  
A
DIA. GALVANIZED FLANGE  
G
F
C
L
C
L
3
/
RISER  
FLANGE IS  
4" THICK. BOLT  
C
L INLET RISER  
CIRCLE CONFORMS TO 125 LB.  
ANSI SPECIFICATIONS  
B
DIAMETER  
MOTOR  
1
10  
/8"  
CROSSOVER PIPE  
E
CONCRETE  
BASIN OPTION  
BASE OF  
TOWER COLUMNS  
1'-7"  
STAINLESS  
STEEL BASIN  
OPTION  
END ELEVATION  
SIDE ELEVATION  
NOTE  
4 All header and riser piping to be furnished by others. A corrosion-  
resistant material or coating for piping is recommended. Do not  
support riser dead load or operating load from inlet connection or  
tower structure.  
1 Use this bulletin for preliminary layouts only. Obtain current  
drawings from your Marley representative.  
2 Pumping head contributed by the tower is static lift E. Actual  
pumping head will vary according to tower circulating GPM. Total  
pumping head will be furnished at time of proposal.  
3 If your application requires a bypass system, recommended location  
is through the tower endwall into the plenum area. Review of the  
system by SPX engineering is required.  
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Marley Sigma F Series CoolingTower Engineering Data: Energy Management  
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10  
Variable Speed Fan  
Cooling towers are usually selected to produce a specific  
cold water temperature at the higher summertime wet-bulb  
temperatures. During the remainder of the year, the cooling  
tower is capable of producing much colder water. Unless your  
system will benefit from the coldest possible water tempera-  
ture, you should consider controlling cold water temperatures  
to higher levels. You’ll also save energy by using such control.  
For greater insight on cold water temperature control, please  
read “CoolingTower Energy and its Management, Techni-  
cal Report #H-001A, available from your Marley sales represen-  
tative or on the web at spxcooling.com.  
Frequency modulation devices work well on induced draft,  
propeller fan cooling towers such as the Sigma. However, their  
design must include the capability to lock out any critical fan  
speeds and the very low fan speed ranges.  
Marley VFD drive systems are designed to combine abso-  
lute temperature control with ideal energy management. The  
cooling tower user selects a cold water temperature and the  
drive system will vary the fan speed to maintain that tempera-  
ture. Precise temperature control is accomplished with far  
less stress to the mechanical equipment components. The  
improved energy management provides fast payback. Indeed,  
many utilities offer generous rebates for users having installed  
VFD drives.  
Always control leaving water temperature by manipulating  
the quantity of air that the fan moves through the tower. Vary-  
ing the quantity of water flow is not normally recommended  
and can be harmful in freezing weather. You can alternately  
start and stop single-speed motors to maintain water tempera-  
tures within an acceptable range. However, exceeding a total  
acceleration time of 30 seconds per hour can overheat the mo-  
tor, causing the insulation to fail. Limiting the number of motor  
starts, on the other hand, can produce significant variations in  
the temperature of the water delivered to the process.  
Increased flexibility can simplify your operating procedures  
and save you money in the long run, both on operation and on  
maintenance. Here are two of the more popular options.  
CAUTION  
The cooling tower must be located at such distance and  
direction to avoid the possibility of contaminated tower  
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 tower is in compliance with  
applicable air pollution, fire, and clean air codes.  
Two-Speed Motors  
Two-speed motors improve operating flexibility by increas-  
ing the number of potential operating modes. Users in northern  
climates will find that the tower can carry winter loads at  
half-speed; reducing fan power requirements by 85+% during  
that time. Two-speed motors also help to control icing during  
wintertime operation. See Marley Technical Report #H-003,  
Operating CoolingTowers During Freezing Weather,”  
available from your Marley sales representative or on the web  
at spxcooling.com.  
Normally, two-speed motors are provided in 1800/900 RPM,  
single winding configuration, which is the least expensive two-  
speed option. They are also available in other combinations  
including the more expensive double winding.  
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Marley Sigma F Series CoolingTower Engineering Data: Environmental  
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11  
Sound Control  
Keeping It Clean  
Sound produced by a Sigma tower operating in an unobstructed  
environment will meet all but the most restrictive noise limita-  
tions—and will react favorably to natural attenuation. Where the  
tower has been sized to operate within an enclosure, the enclosure  
Cooling towers are very effective air washers. Atmospheric  
dust able to pass through the relatively small louver openings will  
enter the circulating water system. Increased concentrations can  
intensify system maintenance by clogging screens and strainers—  
itself will have a damping effect on sound. Sound also declines with and smaller particulates can coat system heat transfer surfaces. In  
distance—by about 5 dBA each time the distance doubles. Where  
noise at a critical point is likely to exceed an acceptable limit, sev-  
eral options are available—listed below in ascending order of cost  
impact:  
areas of low flow velocity—such as the cold water basin—sedimen-  
tary deposits can provide a breeding ground for bacteria.  
In areas prone to dust and sedimentation, you should consider  
installing some means for keeping the cold water basin clean.  
Typical devices include side stream filters and a variety of filtration  
media.  
In many cases, noise concerns are limited to nighttime,  
when ambient noise levels are lower and neighbors are  
trying to sleep. You can usually resolve these situations by  
using two-speed motors in either 1800/900 or 1800/1200  
RPM configuration—operating the fans at reduced speed  
without cycling “after hours. The natural nighttime reduc-  
tion in wet-bulb temperature makes this a very feasible  
solution in most areas of the world, but the need to avoid  
cycling may cause the cold water temperature to vary signifi-  
cantly.  
WaterTreatment  
To control the buildup of dissolved solids resulting from water  
evaporation, as well as airborne impurities and biological contami-  
nants 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 con-  
trolled with biocides.  
The Marley Variable Frequency Drive automatically mini-  
mizes the towers noise level during periods of reduced load  
and/or reduced ambient temperature without sacrificing the  
systems ability to maintain a constant cold water tempera-  
ture. This is a relatively inexpensive solution, and can pay for  
itself quickly in reduced energy costs.  
An acceptable water treatment program must be compatible  
with the variety of materials incorporated in a cooling tower—ide-  
ally the pH of the circulating water should fall between 6.5 and 8.0.  
Batch feeding of chemicals directly into the cooling tower is not  
a good practice since localized damage to the tower is possible.  
Specific startup instructions and additional water quality recom-  
mendations can be found in the Sigma User Manual which accom-  
panies the tower and also is available from your local Marley sales  
representative. For complete water treatment recommendations  
and services, contact your local Marley sales representative.  
Where noise is a concern at all times—for example, near a  
hospital—the best solution is to oversize the tower so it can  
operate continuously at reduced (1200 or 900 RPM) motor  
speed. Typical sound reductions are 7 dBA at 23" fan speed  
or 10 dBA at 12" fan speed.  
Extreme cases may require inlet and discharge sound attenu-  
ator sections—however, the static pressure loss imposed  
by attenuators may necessitate an increase in tower size.  
This is the least desirable approach because of the signifi-  
cant cost impact—and because of the obstruction to normal  
maintenance procedures.  
Your Marley representative will help you meet your sound  
requirements.  
Enclosures  
Occasionally, cooling towers are located inside architectural  
enclosures for aesthetic reasons. Although Sigma towers adapt  
well to enclosures, the designer must realize the potential impact  
of a poorly arranged enclosure on the towers performance and  
operation. The designer must take care to provide generous air inlet  
paths, and the towers fan cylinder discharge height should not be  
lower than the elevation of the top of the enclosure. Obtain a copy  
of Marley Technical Report #H-004, “External Influences on Cool-  
ingTower Performance” from your Marley sales representative or  
on the web at spxcooling.com..  
As suggested in the aforementionedTechnical Report, it may  
also be advisable to specify a design wet-bulb temperature 1°F  
higher than normal to compensate for potential recirculation initi-  
ated by the enclosure. You’ll benefit from discussing your project  
with your Marley representative.  
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Marley Sigma F Series CoolingTower Specifications: Base  
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12  
Specifications  
Specification Value  
1.0  
1.1  
Base:  
Your specification base establishes the type, configuration, base  
material, and physical limitations of the cooling tower to be  
quoted. During the planning and layout stages of your project,  
you will have focused your attention on a cooling tower selection  
that fits your space allotment, and whose power usage is accept-  
able. 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.  
Furnish and install an induced-draft,  
crossflow-type, field-erected, structural  
fiberglass-framed, PVC film-fill, industrial-  
duty cooling tower 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 cylinder. Total operating  
horsepower of all fans shall not exceed  
____ hp, driven by ___ @ _____ hp  
motor(s). Pump head, including static lift  
above top of cold water basin curb (or  
top of supporting steel), shall not exceed  
____ feet of water. Tower shall be simi-  
lar and equal in all respects to Marley  
Sigma F Series, Model _______.  
Your reason for specifying a crossflow type is that crossflow tow-  
ers are noted for the accessibility and maintainability of all oper-  
ating components.The spacious interior provides easy access  
to fill, drift eliminators, all basin accessories—and is one of two  
primary accessways to the fan, Geareducer, and other mechani-  
cal components.  
At the fan deck level, the hot water distribution basins are easily  
inspected and cleaned—while the tower is operating, if neces-  
sary.The mechanical equipment can also be readily accessed  
from this level.  
Except for the cold water basin, no counterflow tower component  
requiring routine maintenance is as easily accessed.The confined  
areas that typify counterflow designs, particularly of forced draft  
configuration can make difficult work for maintenance personnel!  
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Marley Sigma F Series CoolingTower Specifications: Base  
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13  
Specifications  
Specification Value  
2.0  
2.1  
Thermal Performance:  
Your reason for purchasing a cooling tower is to obtain a con-  
tinuing flow of cooled water as defined in the first paragraph at  
left. If the tower that you purchase is incapable of performing  
as specified, then you will not have received full value for your  
money.  
The tower shall be capable of cooling  
_____ GPM of water from ____ °F to  
_____ °F at a design entering air wet-  
bulb temperature of _____ °F. The cool-  
ing tower manufacturer shall guarantee  
that the tower supplied will meet  
the specified performance conditions  
when the tower is installed according  
to plans.  
Bear in mind that the size—and cost—of a cooling tower var-  
ies directly with its true thermal capability.This paragraph is  
intended to protect you against either intentional or inadvertent  
undersizing of the tower by the manufacturer. Judging the level  
of performance of a cooling tower on critical processes is never  
easy, and the potential risk of a non-performing cooling tower  
usually causes the requirement for a mandatory acceptance test  
to be very desirable.  
2.2  
The purchaser will arrange for an  
on-site thermal performance test, to  
be conducted in the presence of the  
manufacturer and owner, and under  
the supervision of a qualified, disinter-  
ested third party in accordance with  
CTI (Cooling Technologies Institute)  
ATC-105 standards during the first  
full year of operation. If the tower  
fails to perform within the limits of  
test tolerance, then the cooling tower  
manufacturer will install additional cells  
and/or make such corrections as are  
agreeable to the owner and shall pay  
for the cost of a retest. If the tower  
still fails to perform as specified, then  
the manufacturer shall make such  
reimbursements as are appropriate and  
agreeable to the owner to compensate  
for the performance deficiency.  
Your contract with the successful bidder should establish the  
acceptable remedies for missed performance, which might  
include:  
• The addition of one or more cells of tower, as necessary, to  
bring the cooling tower to the specified level of performance.  
This is usually limited to the scope of work as defined in the  
specs, which means that you (the owner) will have to pay for  
the additional basin, wiring, starters, piping, etc.  
• The reimbursement of a portion of the total contract price equal  
to the percentage deficiency in performance.  
Under no circumstances should you allow the manufacturer to  
repitch the fans to increase motor brake horsepower above that  
shown in the proposal.That creates additional operating costs  
that will continue for the life of the tower—and imposes no  
penalty on the manufacturer.  
95°  
90°  
85°  
80°  
5°F RANGE  
10°F RANGE  
15°F RANGE  
75°  
70°  
65°  
60°  
55°  
50°  
55°  
60°  
65°  
70°  
75°  
80°  
WET BULB TEMP. (°F)  
Typical cooling tower performance curve.  
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Marley Sigma F Series CoolingTower Specifications: Base  
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14  
Specifications  
Construction:  
Specification Value  
3.0  
3.1  
The limiting water quality values indicated are those which are  
acceptable for the normal materials of construction specified. If  
water of more aggressive quality is anticipated please change  
hardware material requirement to series 316 stainless steel, or  
silicon bronze, as you may have agreed upon beforehand with  
the Marley sales representative.  
The tower shall be capable of with-  
standing water having a pH of 6.5 to  
8.0; a chloride content (NaCl) up to 750  
ppm; a sulfate content (SO ) up to  
4
1200 ppm; a calcium content (CaCO )  
3
up to 800 ppm; silica (SiO ) up to 150  
2
ppm; and design hot water tempera-  
tures up to 120°F (48.9°C). The circulat-  
ing water will contain no oil, grease,  
fatty acids, or organic solvents.  
If there is any doubt in your mind as to the grade of hardware  
that is appropriate to your water quality, please have a sample of  
it analyzed and provide Marley with a copy of the analysis.  
3.2  
The structural framework of the tower  
shall be pultruded or molded fiberglass,  
designed in accordance with ASCE  
Structural Plastics Design Manual. All  
allowable design values shall be factored  
for wet service, temperature, and duration  
in accordance with standard engineering  
practices.  
Discuss higher design loadings with your Marley sales represen-  
tative.  
3.3  
3.4  
Basic design criteria shall be 30 psf  
(1.44 kPa) wind load and 5%g seismic  
load.  
Multicell towers must have plenum partitions between cells.  
Otherwise, air will be induced downward through an inoperative  
fan, bypassing the fill entirely. Without these partitions, part-load  
or off-season operation of the tower would be completely unsat-  
isfactory.  
Multicell towers shall include stainless  
steel partitions between cells in the fill  
areas, and fiberglass partitions in the  
plenum area. Partitions shall extend  
the full height of the tower from the  
base of fill to the underneath side of  
the fan deck.  
Fill partitions prevent the random migration of water from cell to  
cell, and permit individual cell operation during reduced ambient  
or low load conditions.  
3.5  
Column lines shall be on no greater  
than 4'-0" (1.22 m) longitudinal centers,  
and the base of all columns shall be  
firmly anchored to series 304 stainless  
steel base plates. Framing joints shall  
be made with 1/2" diameter or larger  
series 300 stainless steel machine  
bolts. Critical framing joints shall be  
augmented with 1.06" OD heavy wall  
fiberglass sleeves to transmit loads.  
The variable weather conditions encountered during on-site  
construction of cooling towers does not result in the stable condi-  
tions of temperature and humidity that assure proper bonding  
during the gluing process.  
3.6  
No field gluing of joints, or any other  
structural member, will be allowed.  
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Marley Sigma F Series CoolingTower Specifications: Base  
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15  
Specifications  
Specification Value  
4.0  
4.1  
Fan Deck and Fan Cylinder:  
The indicated design values for framing and decking not only  
give you assurance that the tower can withstand long term  
operation in a hostile environment—but that it will accept many  
years of inspection and maintenance traffic by your operating  
personnel.  
The fan deck shall act as a working  
platform for maintenance personnel. It  
shall consist of 1 1/8" (28.5 mm) deep  
pultruded fiberglass interlocking pan-  
els, supported by structural fiberglass  
joists on 3'-0" (914 mm) maximum  
centers. Fan deck shall have a nonskid  
surface. Deck shall be designed for a  
uniform live load of 60 psf (2.9 kPa)  
or a concentrated load of 400 pounds  
(181 kg). Mid-span deflection at 60 psf  
(2.9 kPa) loading shall not exceed 0.17"  
(4.3 mm).  
Fiberglass-reinforced polyester fan cylinders provide the close tip  
clearances and smooth airflow contour necessary for good fan  
performance.The inert, noncorroding nature of FRP assures that  
these characteristics will persist.  
4.2  
Fan cylinders shall be molded FRP.  
They shall be anchored to the fan deck  
structure to provide a consistently  
stable operating shroud for the fan.  
5.0  
5.1  
Mechanical Equipment:  
Standard fan drives of other manufacturers may use V-belts.  
Considering the size of fans involved—and the horsepower  
applied—this is not good design practice. Geareducer drive is  
far more reliable and trouble free, and is currently offered as an  
option by most other cooling tower manufacturers.  
Fan(s) shall be propeller-type, incor-  
porating heavy duty blades of high  
strength, inert fiberglass reinforced  
epoxy material. Blades shall be indi-  
vidually adjustable and replaceable.  
Fan(s) shall be driven through a right  
angle, industrial-duty, oil-lubricated,  
geared speed reducer. Speed reducers  
employing pulleys and belts will not be  
accepted.  
The primary means of capacity control on cooling towers is by  
cycling fans on and off, or through a variety of speed changes.  
Such cycling can stretch V-belts, and can reduce their service life  
significantly.  
Unless otherwise specified, motor speed will be 1800 RPM in  
60 Hertz areas and 1500 RPM in 50 Hertz areas. If you prefer the  
operating flexibility of two-speed operation, please specify the  
RPM to be 1800/900 (1500/750 in 50 Hertz regions). Other speed  
ranges are also available,  
5.2  
5.3  
Motor(s) shall be ____ hp maximum,  
TEFC, 1.15 service factor, and specially  
insulated for cooling tower duty. Speed  
and electrical characteristics shall be  
1800 (1800/900) RPM, single winding,  
___ phase, ___ hertz, ___ volts.  
The driveshaft turns at the motor speed and is, therefore, most  
sensitive to operational imbalance. Stainless steel manufacture  
assures that the driveshaft will not become unbalanced as a  
result of corrosion. Stainless steel yokes are available at extra  
cost, although not normally necessary.  
Motor shall be located outside the fan  
cylinder at the fan deck, and shall be  
connected to the speed reducer by a  
tubular stainless steel, dynamically bal-  
anced driveshaft with heavy galvanized  
yokes and neoprene flexible coupling  
elements.  
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Marley Sigma F Series CoolingTower Specifications: Base  
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16  
Specifications  
Specification Value  
The extended oil line to an oil gauge  
provides a safe and convenient means  
of checking the level of oil in the  
Geareducer.  
5.4  
5.5  
A stainless steel oil fill and drain line  
shall extend from the gear reducer to  
the vicinity of the motor, and shall be  
equipped with a bronze-bodied oil level  
sight-glass gauge.  
Fans of the size used on large cool-  
ing towers are applied at speeds and  
horsepowers that generate consider-  
The complete mechanical equipment  
assembly for each cell shall be sup-  
ported by a rigid, unitized support that  
resists misalignment between the  
motor and the gear reducer. Support  
shall be heavy-wall tubular steel, to  
which heavy plate platforms for the  
motor and gear reducer have been  
welded and the assembly shall be hot-  
dip galvanized after fabrication. The  
support assembly shall also provide  
an inlet connection for incoming hot  
water, and shall serve as a crossover  
pipe to deliver water to both sides of  
the tower.  
able torque—and structural tubular  
steel resists this torque very effectively.  
The Marley torque-tube design assures  
that all of the mechanical equipment  
remains aligned, and that the rotating  
fan is properly positioned within the fan  
cylinder. Hot-dip galvanizing after fabrication assures that all steel  
surfaces will be heavily coated with zinc for long-term protection  
against corrosion.  
Even in aggressive water conditions, the heavy construction of  
the unitized support normally precludes the need for stainless  
steel. It is available, however, at extra cost.  
The value of a 5 year mechanical equipment warranty speaks for  
itself. Except for the motor, all of the mechanical equipment on  
a Marley tower is made by Marley. Cooling tower vendors who  
purchase commercial fans, gear boxes, driveshafts, etc. may  
require that you deal directly with those commercial suppliers for  
warranty satisfaction.  
5.6  
The mechanical equipment assembly  
shall be warranted for no less than five  
(5) years. This warranty shall cover the  
fan(s), speed reducer(s), driveshaft(s),  
couplings, and the unitized supports.  
6.0  
6.1  
Fill, Louvers and Drift Eliminators:  
Louvers integral with the fill keep the flowing water within the  
confines of the fill.The separate external louvers used by oth-  
ers 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 lou-  
vers will put your operating concerns to rest.  
Fill shall be film-type, 15 mil (0.38 mm)  
thick, thermoformed PVC, with louvers  
formed as part of each fill sheet. Fill  
shall be suspended from stainless  
steel structural tubing supported from  
the upper tower structure, and shall  
be elevated above the floor of the cold  
water basin to facilitate cleaning. Air  
inlet faces of the tower shall be free of  
water splashout.  
Vertical blade-type eliminators, as well as misdirected cellular  
types, cause much of the fan power to be wasted in turning the  
horizontal flow of air vertical for its exit through the fan cylinder.  
This power is, of course, not available for contribution to thermal  
performance.  
6.2  
Drift eliminators shall be 15 mil  
(0.38 mm) thick PVC, formed as part of  
each fill sheet, triple-pass, cellular type,  
and shall limit drift losses to 0.005% or  
less of the design water flow rate. The  
final pass of the eliminators shall direct  
the air toward the fan.  
Drift rate varies with design water loading and air rate, as well as  
drift eliminator depth and number of directional changes. A drift  
rate of 0.001% is readily available in standard configuration with-  
out premium cost. If a lower rate is required, please discuss with  
your Marley sales representative.  
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Marley Sigma F Series CoolingTower Specifications: Base  
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17  
Specifications  
Specification Value  
7.0  
7.1  
HotWater Distribution System:  
The mechanical equipment support/  
crossover pipe for each cell shall be  
equipped with a flange for the attachment  
of customer supply piping. Inlet and bolt  
circle dimensions shall conform to 125#  
flange specifications. The crossover pipe  
shall deliver water through PVC perforat-  
ed pipes to two open, stainless steel, hot  
water basins at the fan deck elevation.  
Water shall exit these basins to the fill by  
gravity through metering orifice type poly-  
propylene nozzles situated in the basin  
floor. Nozzles shall be easily removable  
and replaceable.  
Gravity-flow distribution basins are a feature of crossflow type  
towers.These basins are out where they can be easily inspect-  
ed—even cleaned—while the tower is in operation. Spray sys-  
tems of counterflow towers, being sandwiched between the top  
of the fill and the drift eliminators, are extremely awkward to  
access and maintain, and require the system to be shut down for  
cleaning.  
7.2  
7.3  
Water inlet system shall be self-  
balancing, requiring no special valving  
for flow regulation from side-to-side of  
tower.  
The Sigma F Series is designed such that the supply piping to  
the tower will not appear outside the tower. Not only does this  
enhance the tower's architectural appearance, but it also aids the  
self-balancing aspect of the Sigma F Series water distribution  
system.  
Water distribution system design shall  
allow water flow reductions down to  
50% of design flow without modifica-  
tions or adjustments.  
This feature of the Sigma F Series tower allows you to vary the  
water circulation rate as an added means of controlling tower per-  
formance capacity during reduced-load or off-season operation.  
8.0  
8.1  
Casing:  
The endwalls of the tower, as well  
as the sidewalls above the air inlet  
elevation to the top of the distribution  
basin, shall be cased with 12 oz/sq  
ft horizontally corrugated FRP panels  
attached to tower columns with stain-  
less steel self-tapping fasteners and  
self-sealing washers. Panels shall be  
lapped to shed water inward to the  
tower. Vertical joints shall be lapped  
and sealed watertight. Casing ends at  
tower corners shall be covered with  
pultruded FRP angles.  
8 oz casing panels are also available at reduced cost, but the stur-  
dier 12 oz panels are strongly recommended.  
Also, if fire-retardant casing is preferred, it would be appropriate  
to add the following sentence to the end of paragraph 8.1 at left:  
“Casing panels shall have a flame spread rating of 25 or less."  
Heavy duty architectural casing panels are also available, as  
described on page 23.  
Architectural treatment can also be enhanced by extending the  
casing up to the top of the fan deck guardrail.This is described on  
page 23.  
8.2  
In the water-washed endwall fill areas,  
inner casings of 16 gauge 304 stain-  
less steel shall also be provided.  
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Marley Sigma F Series CoolingTower Specifications: Base  
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Specifications  
Specification Value  
9.0  
9.1  
Access and Safety:  
The access doors on other towers may be unreasonably small.  
Specifying the size of the door will cause those bidders to take  
exception, alerting you to a potential maintenance headache.  
Single cell towers shall include a  
33" (838 mm) wide by 61" (1.55 m)  
high molded FRP access door in one  
endwall casing for access to the inte-  
rior of the tower. Casing access door  
shall be hinged and equipped with a  
latch operable from both inside and  
outside the tower. Multicell towers  
shall have an access door in both  
endwalls, and shall include a hinged  
door in each transverse partition to  
give free access through the tower.  
Good maintenance practice requires periodic access to the top of  
the tower to inspect the distribution basins, as well as the struc-  
tural integrity of the fan deck, fan cylinder, and fan—especially  
the fan blade securing hardware. And there are no induced-draft  
cooling tower designs that are immune to this need! Please  
beware of those manufacturers who suggest otherwise.  
For the comfort and safety of your  
operating personnel, the Sigma  
F Series includes a ladder and  
guardrail of the quality and  
design indicated—and we  
9.2  
9.3  
The top of the tower shall be equipped  
with a sturdy 42" (1067 mm) high fiber-  
glass guardrail system, complete with  
top rails, intermediate rails, and toe-  
boards conforming to OSHA standards.  
Guardrail posts shall be extensions of  
the tower columns.  
strongly recommend that  
you require it of all bidders!  
Portable ladders and other  
“make-do” access means are  
inappropriate for equipment of  
this size and complexity.  
One endwall of the tower shall be  
equipped with a 20" (508 mm) wide  
aluminum vertical ladder, supported  
by hot-dip galvanized steel brackets  
through-bolted to the endwall struc-  
ture. Ladder shall rise from the cold  
water basin level to the top of the fan  
deck guardrail, and shall be designed  
and installed in conformance with  
OSHA standards. A horizontal-swing,  
gravity-closing safety bar shall be pro-  
vided across the ladder opening at the  
fan deck.  
10.0 Cold Water Basin:  
This basic specification assumes that the tower will be erected  
over a concrete basin at grade level. If the tower is to be installed  
on an elevated supporting platform, the stainless steel cold water  
collection basin indicated on page 20 should be included in the  
specifications.  
10.1 A large galvanized, rectangular access  
door shall be located on both end  
panels for entry into the cold water  
basin. Rectangular panels are shall be  
provided for access to the fan plenum  
area to facilitate inspection and allow  
maintenance to the fan drive system  
10.2 Concrete partitions, if required  
between cells in the cold water basin,  
shall be installed in accordance with  
manufacturer's drawings. Tower  
installer shall seal between tower cell  
partitions and basin cell partitions.  
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Marley Sigma F Series CoolingTower Specifications: Base  
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19  
Specifications  
Specification Value  
11.0 Scope of Work:  
11.1 The cooling tower manufacturer shall  
be responsible for the design, fabrica-  
tion, and delivery of materials to the  
project site, and for the erection of  
the tower over supports provided by  
others. Unless otherwise specified, all  
supply and return piping, pumps, con-  
trols, and electrical wiring will be out-  
side the cooling tower manufacturer's  
scope of work.  
Please be clear in your specifications and inquiry documents  
regarding the full scope of work expected.That will help assure  
that your bid comparisons will be made on  
as equal a basis as possible—an
help to avoid any misunderstand
during the execution and imple-  
mentation of the contract.  
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Marley Sigma F Series CoolingTower Specifications: Options  
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20  
Specifications  
Specification Value  
Cold Water Basin Options  
Marley basins are used to permit the installation of towers on  
elevated platforms or foundations.  
Stainless Steel Cold Water Basin:  
10.1 Replace paragraph 10.1 with the  
following: Include a cold water col-  
lection basin constructed of 12 gauge  
series 304 stainless steel, through-  
bolted and sealed to prevent leakage.  
A depressed, side outlet sump of  
This is the simplest of several cold water basin designs available  
for the Sigma F Series towers. If preferred, a 10 gauge welded  
stainless steel basin can be installed.  
series 304 stainless steel having a 14  
(6.4 mm) thick faceplate drilled for a  
"
standard class 125# ASME flange con-  
nection will be included. A removable  
stainless steel 12" mesh debris screen  
shall cover the top of the sump. An  
appropriately sized (4" diameter or larg-  
er) stainless steel standpipe overflow  
shall be provided. The standpipe shall  
be removable for flush-out cleaning of  
the basin. A float-operated, mechanical  
makeup valve shall also be included,  
installed adjacent to the endwall  
access door.  
Watertight Partition betweenTower  
Cells with Stainless Steel Cold  
Water Basin Option:  
In addition to the normal partition function of preventing air  
bypass (page 14), this option allows you to use each partitioned  
cell of your tower independently.This is valuable where a single  
multicell tower is serving several separate systems—or where  
winter operation may require less than full tower capability.  
10.2 Replace paragraph 10.2 with the  
following: Stainless steel watertight  
partitions shall be provided between  
cells in the cold water basin. They shall  
be sealed watertight to the partitions  
in the fill and plenum areas of the  
tower. Cold water basin partitions shall  
have weir openings allowing free flow  
of water between cells. Weirs shall be  
equipped with bolt-on, gasketed cover  
plates to prevent water passage when  
required.  
The basin heater components described at left represent is rec-  
ommended for a reliable automatic system for the prevention of  
basin freezing.  
Basin Heater:  
10.3 Add the following paragraph in the  
Cold Water Basin section: Add the  
following paragraph in the Cold Water  
Basin section: Provide a system of  
electric immersion heaters and con-  
trols to prevent freezing of water in  
the collection basin during periods of  
shutdown. The system shall consist  
of one or more stainless steel electric  
immersion heaters. A NEMA 4 enclo-  
sure shall house a magnetic contactor  
to energize heaters; a transformer to  
provide 24 volt control circuit power;  
The ambient air temperature that you fill in should be the lowest  
1% level of winter temperature prevalent at site.  
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Marley Sigma F Series CoolingTower Specifications: Options  
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21  
Specifications  
Specification Value  
and a solid state circuit board for tem-  
perature control and low water cutoff.  
A control probe shall be located in the  
basin to monitor water level and tem-  
perature. The system shall be capable  
of maintaining 40°F water temperature  
at an ambient air temperature of ____  
°F. Wiring of the heaters and the heat-  
er components shall be the responsibil-  
ity of the purchaser.  
Convenience and Safety Options  
Fiberglass Stairway:  
Although they are not necessary for routine operation and main-  
tenance, stairways do provide a safe and comfortable means of  
access to the top of the tower that is often overlooked in the ini-  
tial cooling tower purchase. And fiberglass construction provides  
long term service and stability. It also is architecturally compat-  
ible with the basic tower construction and appearance.  
9.3  
Replace paragraph 9.3 with the  
following: One endwall of the tower  
shall be equipped with a structural  
fiberglass stairway rising from grade  
(roof) to the fan deck. Treads, stringers  
and risers shall be molded integrally for  
strength and stiffness. Stairs shall be  
41.5°, 30" (762 mm) wide, with 8" (203  
mm) rise and 9" (229 mm) run. Treads  
shall have a nonskid surface. Landings  
shall occur at 6'-0" (1.83 m) elevations.  
Guardrails shall be 2" tubes, through-  
bolted to 3" tube stairway columns.  
Stairway foundation shall be by others,  
designed in accordance with drawings  
provided by the cooling tower manu-  
facturer. The stairway shall conform to  
OSHA standards.  
Wood Stairway:  
Where atmospheric conditions at the jobsite are not aggressive,  
the treated wood stairway may be chosen because of its lower  
cost.  
9.3  
Replace paragraph 9.3 with the fol-  
lowing: A 30" (762 mm) wide, column  
supported, 45° stairway with 8" rise  
and run of treated Douglas Fir shall  
be provided at the tower endwall ris-  
ing from grade (roof) to the fan deck.  
Stair columns shall be nominal 4"x4".  
Guardrails shall be nominal 2"x4". The  
upper guardrail shall have an eased  
edge for the protection of operating  
personnel. Stairway foundation shall  
be by others, designed in accordance  
with drawings provided by the cooling  
tower manufacturer. The stairway shall  
conform to OSHA standards.  
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Marley Sigma F Series CoolingTower Specifications: Options  
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Specifications  
Specification Value  
This option permits freedom of movement for inspection or main-  
tenance within the tower without the need for wading boots or  
tower drainage. It also helps prevent maintenance personnel from  
damaging submerged accessories in the cold water basin (such  
as sump screens, probes, basin heaters, etc.).  
Plenum Walkway:  
9.1  
Add the following to the end of this  
paragraph: Provide a 30" (762 mm)  
minimum wide walkway extending  
from one endwall access door to the  
other through the length of the tower.  
Walkway shall be constructed of  
The need for guardrails where basins are deeper than 4’-0” (1.22  
m) is an OSHA requirement.  
fiberglass components with a nonskid  
surface on floor members, and the top  
of the walkway shall be above the cold  
water basin overflow level. If the cold  
water basin is deeper than 4'-0" (1.22  
m), the walkway shall be equipped  
with fiberglass guardrails.  
Many towers are installed such that the base of the tower is  
2’-0” (610 mm) or more above the roof or grade level.This makes  
it difficult to get up to the base of the attached ladder.The ladder  
extension alleviates this problem. Marley's ladder extensions are  
available in standard 5’-0” (1.52 m) and 11’-0” (3.35 m) lengths,  
and will be field-cut to fit.  
Ladder Extension:  
9.4  
Add the following paragraph in the  
Access and Safety section: Provide  
a ladder extension for connection to  
the base of the ladder attached to  
the tower casing. This extension shall  
be long enough to rise from the roof  
(grade) level to the base of the tower.  
Anchorage and lateral bracing of the  
ladder extension shall be by others.  
To meet OSHA standards, towers whose fan decks are 20’-0”  
(6.10 m) or more above roof or grade, and which are equipped  
with ladders, are required to have safety cages surrounding the  
ladders.Their use on lower elevation towers is a matter of choice.  
Ladder Safety Cage:  
9.3  
Add the following to the end of this  
paragraph: A heavy gauge galvanized  
steel safety cage shall surround the  
ladder, extending from a point approxi-  
mately 7'-0" (2.13 m) above the base  
of the ladder to the top of the guardrail  
surrounding the fan deck.  
These covers are designed to keep leaves and debris out of the  
circulating water system.They also serve to suppress algae for-  
mation by shielding the incoming hot water from direct sunlight.  
Hot Water Basin Covers:  
7.4  
Add the following paragraph in  
the Hot Water Distribution System  
section: The distribution basins shall  
include stainless steel covers. These  
covers shall be designed to withstand  
40 psf (1.92 kPa) live load, and shall be  
easily removable for maintenance.  
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Marley Sigma F Series CoolingTower Specifications: Options  
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Specifications  
Specification Value  
Air Inlet Screens:  
In wooded or windy areas, these screens help to keep leaves or  
blowing debris out of the cooling tower and circulating water  
system.  
6.3  
Add the following paragraph in the  
Fill, Louvers and Drift Eliminators  
section: The air inlet faces of the  
tower shall be covered by 1" mesh  
stainless steel welded wire screens.  
Screens shall be secured to stainless  
steel frames, and shall be removable.  
Appearance Options  
Architectural Casing:  
This is an architecturally pleasing, heavy duty casing that pro-  
vides an appearance similar to shiplap siding. See cover photo.  
8.1  
Replace paragraph 8.1 with the  
following: Tower endwalls, as well as  
exposed hot water basin sides above  
the louvered face, shall be cased  
with horizontally-installed, pultruded  
fiberglass panels. Tower corners shall  
be finished with pultruded fiberglass  
angles.  
Cased Guardrail:  
Extending the casing to the top of the fan deck guardrail presents  
a clean architectural appearance by shielding the mechanical  
equipment and a major portion of the fan cylinder from view. It  
also offers a higher degree of protection for operation and main-  
tenance personnel.  
8.1  
Add the following to the end of  
this paragraph: The casing and cor-  
ner treatment shall extend to the full  
height of the guardrail described in  
paragraph 9.2. The additional wind  
loading imposed by this exposure shall  
be accounted for in the tower's struc-  
tural design.  
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Marley Sigma F Series CoolingTower Specifications: Options  
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Specifications  
Specification Value  
Control Options  
Control System:  
If it is your opinion that the control system for the cooling tower  
should be part of the tower manufacturers responsibility, we are  
in wholehearted agreement with you. Who better to determine  
the most efficient mode and manner of a towers operation—and  
to apply a system most compatible with it—than the designer  
and manufacturer of the cooling tower?  
5.7  
Add the following paragraphs in  
the Mechanical Equipment sec-  
tion: Each cell of the cooling tower  
shall be equipped with a UL listed  
control system in a NEMA 3R or 4X  
outdoor enclosure capable of control-  
ling single-speed or two-speed motors  
as required, and designed specifically  
for cooling tower applications. The  
panel shall include a main fused dis-  
connect with an external operating  
handle, lockable in the off position for  
safety. Across-the-line magnetic start-  
ers or solid state soft-start starters  
as required shall be controlled with a  
thermostatic or solid state tempera-  
ture 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 a remote vibration  
switch and for access to extra 120VAC  
50VA control power, overload trip  
alarms and remote temperature control  
devices. The temperature controller  
shall be adjustable for the required cold  
water temperature. If a thermostatic  
controller is used it shall be mounted  
on the side of the tower with the tem-  
perature sensing bulb installed in the  
cold water basin using a suspension  
mounting bracket. If a solid state tem-  
perature controller is used the control-  
ler will be door mounted on the control  
panel. The temperature controller will  
display two temperatures, one for  
outgoing water and the other for set  
point. Water temperature input shall be  
obtained using a three-wire RTD with  
dry well in the outlet water piping and  
wired back to the solid state tempera-  
ture controller in the control panel.  
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Marley Sigma F Series CoolingTower Specifications: Options  
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25  
Specifications  
Specification Value  
Fan Motor Variable Speed Drive:  
Marley All Weather ACH550 System  
Marley VFD drive systems are designed to combine absolute  
temperature control with ideal energy management.The cool-  
ing tower user selects a cold water temperature and the drive  
system will vary the fan speed to maintain that temperature.  
Precise temperature control is accomplished with far less stress  
to the mechanical equipment components.The improved energy  
management provides fast payback. Indeed, many utilities offer  
generous rebates for users having installed VFD drives.  
6.4  
Add the following paragraph in the  
Mechanical Equipment section when  
VFD is used with customers Building  
Management System: A complete UL  
listed Variable Speed Drive system in  
a NEMA 1 indoor, NEMA 12 indoor or  
NEMA 3R outdoor enclosure shall be pro-  
vided. The VFD shall use PWM technol-  
ogy with IGBT switching and integrated  
bypass design. VFD out put switching  
shall not cause mechanical issues with  
gearbox teeth or drive shafts. The VFD  
shall catch a fan spinning in the reverse  
direction without tripping. The panel shall  
include a main disconnect with short  
circuit protection and external operating  
handle, lockable in the off position for  
safety. The VFD system shall receive a  
speed reference signal from the Building  
Management System monitoring the  
tower fluid temperature. As an option  
to receiving the speed reference signal  
from a building management system, the  
drive must have the capability to receive  
a 4-20 ma temperature signal from an  
RTD transmitter. The VFD shall have an  
internal PI regulator to modulate fan  
speed maintaining set point temperature.  
The drive's panel display shall be able  
to display the set-point temperature and  
cold-fluid temperature on two separate  
lines. The bypass shall include a complete  
magnetic bypass circuit and with capabil-  
ity to isolate the VFD when in the bypass  
mode. Transfer to the bypass mode shall  
be manual in the event of VFD failure.  
Once the motor is transferred to the  
by-pass circuit the fan motor will run at  
constant full speed. The bypass circuit  
will not modulate ON and OFF based on  
fluid temperature. The application must  
be able to handle very cold fluid tempera-  
tures while the VFD is in a by-pass mode.  
Operator controls shall be mounted on  
the front of the enclosure and shall con-  
sist of start and stop control, bypass/  
VFD selection, Auto/Manual selections,  
manual speed control. To prevent heating  
problems in the fluid cooloer fan motor  
and to assure proper gear reducer lubrica-  
tion the VFD system shall de energize the  
motor once 25% motor speed is reached  
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Marley Sigma F Series CoolingTower Specifications: Options  
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26  
Specifications  
Specification Value  
and cooling is no longer required. The  
fluid cooler manufacturer shall supply  
VFD start-up assistance. Tower vibration  
testing throughout the speed range is  
required to identify and lockout any natu-  
ral frequency vibration levels which may  
exceed CTI guidelines.  
Marley Premium VFD System  
6.4  
Add the following paragraph in the  
Mechanical Equipment section when  
VFD is used as a stand alone system:  
A complete UL listed Variable Speed  
Drive system in a NEMA 12 indoor  
or NEMA 3R outdoor enclosure shall  
be provided. The VFD shall use PWM  
technology with IGBT switching and  
integrated bypass design. VFD output  
switching shall not cause mechanical  
issues with gearbox teeth or drive shafts.  
The VFD shall catch a fan spinning in the  
reverse direction without tripping. The  
panel shall include a main disconnect  
with short circuit protection and external  
operating handle, lockable in the off posi-  
tion for safety. The system shall include  
a solid state, PI temperature controller  
to adjust frequency output of the drive  
in response to the tower fluid tempera-  
ture. The temperature of the fluid and  
set point shall be displayed on the door  
of the control panel. The bypass shall  
include a complete magnetic bypass  
circuit with capability to isolate the VFD  
when in the bypass mode. Transfer to  
the bypass mode shall be automatic in  
the event of VFD failure or for specific  
trip conditions allowing safe transfer of  
utility voltage to the motor. Automatic  
bypass with an earth ground condition  
is not allowed. The bypass contactor  
shall be cycled on and off while operat-  
ing in bypass, to maintain the set-point  
temperature of the cold water. The drive  
design shall be operated as a stand-alone  
system without the need for a BMS sys-  
tem. Operator controls shall be mounted  
on the front of the enclosure and shall  
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Marley Sigma F Series CoolingTower Specifications: Options  
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27  
Specifications  
Specification Value  
consist of start and stop control, bypass/  
VFD selector switch, Auto/Manual selec-  
tor switch, manual speed control, and  
solid-state temperature controller. An  
emergency bypass selector switch inter-  
nal to the panel allowing the fluid cooler  
fan motor to be run at full speed shall be  
furnished. To prevent heating problems in  
the fluid cooler fan motor and to assure  
proper gear box lubrication the VFD sys-  
tem shall de energize the motor once  
25% motor speed is reached and cool-  
ing is no longer required. The VFD shall  
include de-icing logic with auto canceling  
and adjustable time. Speed in De-Ice  
mode shall not exceed 50% motor  
speed. The fluid cooler manufacturer  
shall supply VFD start-up assistance.  
Tower vibration testing throughout the  
speed range is required to identify and  
lockout any natural frequency vibration  
levels which may exceed CTI guidelines.  
Unless specified otherwise, a Robertshaw or Metrix switch will  
be provided. Double-pole, double-throw models are also avail-  
able. 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  
Vibration Limit Switch:  
5.5  
Add the following paragraph in the  
Mechanical Equipment Section: A  
single-pole, double-throw vibration  
limit switch in the 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  
vibration. It shall be adjustable for sen-  
sitivity, and shall require manual reset.  
excess vibration.  
Miscellaneous Options  
Galvanized Steel Ladder:  
This option is for those customers who either prefer steel lad-  
ders, or whose atmospheric conditions at the cooling tower loca-  
tion would be detrimental to aluminum.  
9.3  
Change paragraph 9.3 to read as fol-  
lows: One endwall of the tower shall  
be equipped with an 18" (457 mm)  
wide hot-dip galvanized steel vertical  
ladder, supported by hot-dip galva-  
nized steel brackets through-bolted  
to the endwall structure. Ladder shall  
rise from the cold water basin level  
to the top of the fan deck guardrail,  
and shall be designed and installed in  
conformance with OSHA standards. A  
horizontal-swing, gravity-closing safety  
bar shall be provided across the ladder  
opening at the fan deck.  
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Marley Sigma F Series CoolingTower Specifications: Options  
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28  
Specifications  
Specification Value  
Fiberglass Ladder:  
This option is for those customers who either prefer fiberglass  
ladders, or whose atmospheric conditions at the cooling tower  
location dictate its use.  
9.3  
Change paragraph 9.3 to read as  
follows: One endwall of the tower  
shall be equipped with an 18" (457  
mm) wide fiberglass vertical ladder,  
supported by hot-dip galvanized steel  
brackets through-bolted to the endwall  
structure. Ladder shall rise from the  
cold water basin level to the top of  
the fan deck guardrail, and shall be  
designed and installed in conformance  
with OSHA standards. A horizontal-  
swing, gravity-closing safety bar shall  
be provided across the ladder opening  
at the fan deck.  
Low NoiseTower:  
Sound produced by a Sigma tower operating in an unobstructed  
environment will meet all but the most restrictive noise limita-  
tions. Where sound levels may be considered critical, however,  
low noise levels can be achieved by any of several techniques.  
Please discuss your requirements with your local Marley sales  
representative.  
1.1  
Add the following at the end of para-  
graph 1.1: The cooling tower shall be  
quiet operating, and shall produce an  
overall level of sound no higher than  
____ dBA at the critical location indi-  
cated on the Plans.  
Fire-Retardant Fiberglass:  
This option will affect the the standard casing panels, the plenum  
partitions between cells, the fan cylinders, and the optional fiber-  
glass stairway flights and landing panels.  
3.7  
4.2  
Add the following paragraph in the  
Construction section: All fiberglass  
components in the cooling tower shall  
have a flame spread rating of 25 or  
less.  
Fan Cylinder Extension:  
Extended fan cylinder heights are useful where it is important to  
discharge the cooling tower's leaving plume at a certain eleva-  
tion.This may be to avoid recirculation, or to keep the plume  
above a nearby structure.  
Add a third sentence in paragraph  
4.2 to read as follows: Overall fan cyl-  
inder height shall be 10 feet above the  
fan deck level.  
Increased Wind and/or Earthquake  
Load:  
If your geographic location dictates the application of higher wind  
and/or seismic loads, please discuss with your local Marley repre-  
sentative and change paragraph 3.3 to read appropriately. Please  
also ask for revised concrete basin or supporting steel drawings  
from Marley which reflect the higher load requirements.  
Premium Hardware:  
Marley can provide hardware materials suitable for all aggres-  
sive water conditions, including salt water. Please discuss with  
your Marley representative and change specification paragraphs  
appropriately.  
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Marley Sigma F Series CoolingTower Specifications: Options  
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29  
Specifications  
Specification Value  
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7401 WEST 129 STREET  
OVERLAND PARK, KANSAS 66213  
UNITED STATES  
913 664 7400  
spxcooling.com  
In the interest of technological progress,  
all products are subject to design and/or  
material change without notice.  
©2008 SPX Cooling Technologies, Inc.  
Printed in USA | FSIG-TS-08A  
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