Bulletin 251A LRWB LSWB

Transcription

1 Bulletin 251A RWB SWB

2 Design and Construction Features The SWB and RWB units are a result of EVAPCO s extensive experience in forced draft centrifugal fan designs. Both models are designed for easy maintenance and long, trouble free operation. These units are also designed with IBC Compliant construction and Certified Performance. All features shown are available on all models. Since its founding in 1976, EVAPCO, Incorporated has become an industry leader in the engineering and manufacturing of quality heat transfer products around the world. EVAPCO s mission is to provide first class service and quality products for the following markets: Industrial Refrigeration Commercial HVAC Industrial Process Power Efficient Drift Eliminators Corrosion resistant PVC for long life Exclusive Thermal-Pak Coil Providing aximum Efficiency Per Plan Area Double-Brake Flange Joints Stronger than single-brake designs by others inimizes water leaks at field joints Greater structural integrity G-235 Heavy ill-dip Galvanized Steel Construction (Stainless steel available as an affordable option) EVAPCO s powerful combination of financial strength and technical expertise has established the company as a recognized manufacturer of market-leading products on a worldwide basis. EVAPCO is also recognized for the superior technology of their environmentally friendly product innovations in sound reduction and water management. EVAPCO is an employee owned company with a strong emphasis on research & development and modern manufacturing plants. EVAPCO has earned a reputation for technological innovation and superior product quality by featuring products that are designed to offer these operating advantages: Higher System Efficiency Environmentally Friendly ower Annual Operating Costs Reliable, Simple Operation and aintenance With an ongoing commitment to Research & Development programs, EVAPCO provides the most advanced products in the industry Technology for the Future, Available Today! Totally Enclosed Pump otors Help assure long, trouble-free operation 2 EVAPCO products are manufactured in 17 locations in 8 countries around the world and supplied through a sales network consisting of over 170 offices EVAPCO, Inc. Stainless Steel Strainer Superior resistance to corrosion ark owned by the Cooling Technology Institute Totally Enclosed Fan otors Assures long life All normal maintenance can be performed quickly from outside the unit If required, motor may be easily removed

3 NEW! IBC Certification abel Provided with every unit to indicate independent certification and compliance Seismic and Wind oad Certification STB and PT Cooling Towers PC-E, SCB and RC Evaporative Condensers SW(A/B) and RW(B) Closed Circuit Coolers Units Designed and anufactured to eet the Seismic & Wind oad Requirements of: IBC 2006 ASCE-7 NFPA 5000 Independent Certification By: IBC Serial Number: PA Zero aintenance PVC Spray Distribution Header with Z Nozzles Nozzles are threaded into header at proper orientation Fixed position nozzles require zero maintenance arge orifice nozzles prevent clogging Threaded end caps for ease of cleaning NEW! CTI Certified Optional Featuring Thermal-Pak XT Construction Efficient Drift Eliminators Advanced design limits maximum drift rate to 0.001% of circulated spray water rate Corrosion resistant PVC for long life Introducing the Premier Closed Circuit Cooler Coil in the HVAC industry! The Titan provides: 304 SST Construction for Superior Corrosion Resistance. 5 Year Extended Coil Warranty STANDARD!! Patented Thermal-Pak XT elliptical tube design with elliptical return bends and extra tough construction. Easy to Service otor & Drive System Standard Stainless Steel Cold Water Basin Eliminates the need for unreliable epoxy coatings Belt tensioning and bearing lubrication can be performed from outside the unit ocking mechanism can also be used as a wrench to adjust the belts (RWB only) otor is fully accessible by removing one inlet screen Split fan housings allow removal of all mechanical equipment through the end of the unit (RWB only) Optional Pulse~Pure Water Treatment System All units are available with EVAPCO s optional Pulse~Pure non-chemical water treatment system. The Pulse~Pure Water Treatment System utilizes pulsed-power technology to provide CHEICA FREE Water Treatment. EVAPCO s Pulse~Pure system is an environmentally responsible alternative for treating water in evaporative cooled equipment. It does not release harmful by-products to the environment and eliminates chemicals completely from cooler drift and blowdown. The Pulse~Pure system delivers short, high-frequency bursts of low energy electromagnetic fields to the recirculating water in the SWB and RWB and will: Control bacteria to levels well below traditional chemical water treatment Control the formation of mineral scale Save water by operating at higher cycles of concentration Yield corrosion rates equivalent to chemical water treatment ark owned by the Cooling Technology Institute 3

4 IBC COPIANCE In its continuing commitment to be the leaders in evaporative cooling equipment design and services, EVAPCO s SWB & RWB Closed Circuit Coolers are now Independently Certified to withstand both Seismic and Wind oads in A Geographic ocations and Installations in accordance with IBC What is IBC? International Building Code The International Building Code (IBC) is a comprehensive set of regulations addressing both the structural design and the installation requirements for building systems including HVAC and industrial refrigeration equipment. The IBC is intended to replace BOCA s The National Building Code, ICBO s Uniform Building Code and SBCCI s Standard Building Code. Compared to previous building codes that considered only the building structure and component anchorage, the requirements contained within the IBC address anchorage, structural integrity, and the operational capability of a component following either a seismic or wind load event. Simply stated, the IBC code provisions require that evaporative cooling equipment, and all other components permanently installed on a structure, must be designed to meet the same seismic and wind load forces as the building to which they are attached. highest g force location in North America is 5.12g. The highest wind load shown on the maps is 170 mph, which is approximately equal to 145 psf velocity pressure. Therefore, the upgraded structural design package option for the New SWB and RWB is designed for 5.12g and 145 psf making it applicable to A building locations in North America. Seismic Design The attached chart from the US Geological Survey Website ( shows the potential seismic activity in the United States. Buildings constructed in the red, orange and yellow areas of the map may require the upgraded SWB or RWB construction design based on the site seismic design factors and should be reviewed closely. Critical use facilities, such as hospitals, are also more likely to require the upgraded design. Highest Hazard How Does IBC 2006 Apply to Closed Circuit Coolers? %g Based on the project zip code and site design factors, calculations are made to determine the equivalent seismic g force and wind load (in pounds per square foot psf) on the unit. The closed circuit cooler must be designed to withstand the greater of either the seismic or wind load owest Hazard ap courtesy US Geological Survey website The New SWB and RWB are offered with a choice of TWO structural design packages: Standard Structural Design For projects with 1.0g seismic or 145 psf wind loads Upgraded Structural Design Required for projects with > 1.0g seismic or 145 psf max wind loads ore than 80% of the United States has design criteria resulting in a seismic design force of 1.0g or below. These sites will be provided with the standard SWB or RWB structural design. An upgraded structural design is available for installations with design criteria resulting in g forces greater than 1.0g. The 4 The project architect or civil engineer is responsible for determining the seismic design factors to be used for the building design. A mechanical consulting engineer and/or design build contractor then applies these factors to a series of charts and graphs to determine the appropriate seismic design factors based on the location of the installation and ultimately the importance of the facility. The specific factors necessary for seismic design as well as a sample seismic calculation are shown on the next page.

5 IBC COPIANCE Wind Design The IBC 2006 code book includes a map of basic wind speed (3- second gust) by contour lines. However, local regulations may be more stringent than these published speeds. The specific factors necessary for wind load as well as a sample wind load calculation are shown on Page 7. Whichever design force - seismic or wind - is more severe for the building, governs the design of the building and all attached equipment. equipment has been independently tested and analyzed in accordance with the IBC seismic and wind load requirements. Evapco has worked closely with the independent approval agency to complete the independent equipment testing and analysis. If the seismic g force and wind psf load requirements for the project site are known, EVAPCO s online equipment selection software, ies, will allow you to choose the required structural design package either standard construction or upgraded construction. If the project requirements are unknown, the following calculations must be completed. For further questions regarding IBC compliance, please contact your local EVAPCO Representative or visit When using the EVAPCO selection software to make a selection, these calculations are already incorporated into the selection process. Simply enter the required seismic factors and the Seismic Design Force and Wind oad will be calculated automatically!! Design Implementation EVAPCO applies the given seismic and wind load information provided by the mechanical consulting engineer to determine the equipment design necessary to meet IBC requirements. This process ensures that the mechanical equipment and its components are compliant per the provisions of the IBC as given in the plans and specifications for the project. For design build projects, EVAPCO is equipped to look up the information and submit the resulting loads for approval. Independent Certification Per the most recent edition of the code, the EVAPCO compliance process included an exhaustive analysis by an independent approval agency. As required by the International Building Code, EVAPCO supplies a certificate of compliance as part of its submittal documents. The certificate of compliance demonstrates that the Wind oad ap Courtesy IBC 2006 Text See full-sized map for location specific values Certificate of Compliance STB, PT Cooling Towers SW(A/B), RW(B) Closed Circuit Coolers PC-E, SCB and RC Evaporative Condensers Are certified to meet or exceed the Seismic and Wind oad Provisions set forth in the applicable building codes for this project. These products have been manufactured following all applicable quality assurance programs. Applicable Building Codes: Referenced Report: IBC 2006 VA ASCE-7 NFPA 5000 Approval Agency: VC Seismic Consulting Group EVAPCO...Specialists in Heat Transfer Products and Services. FD IBC COC 001 Seismic oad Calculations The data required to calculate the seismic load are: Occupancy Category I, II, III or IV depending on the nature of the building occupancy. Table in the IBC 2006 Code Book defines each of the four categories in detail. In summary the four categories are: Category I - structures that represent a low hazard to human life in the event of a failure. Category III - structures that represent a substantial hazard to human life in the event of a failure. Category IV - structures designated as essential facilities. Category II - any structures not listed in I, III or IV. Site Classification A, B, C, D, E or F based on the types of soil and their engineering properties. Table in the IBC 2006 Code Book defines each of the categories in detail. IBC specifies site class D when soil properties are unknown. aximum Spectral Response Acceleration (Ss) Numerical value found using the U.S. Geological (USGS) data based on the Zip Code of the project. This data point can be determined using the Ground otion Parameter Calculator at Note the calculator assumes a site classification of B for the 0.2 second maximum Ss. The site coefficient (Fa), defined below, will correct for the actual site classification. 5

6 IBC COPIANCE Site Coefficient (Fa) Values ranging from 0.8 to 2.5 determined based on the Ss and the Site Classification. Table (1) in the IBC 2006 Code Book defines these values. Design Spectral Response Acceleration (SDS) A calculated value using the values for Ss and Fa. SDS = 2 (Fa)(Ss) 3 Amplification Factor (ap) 2.5 for flexible components or flexibly attached components. Due to its low inherent natural frequencies, most evaporative cooling equipment falls under the definition of flexible. Therefore the default for Closed Circuit Coolers is 2.5. See Table in the American Society of Civil Engineers (ASCE) Standard 7-05, to which IBC often references, for more information. Response odification Factor (Rp) 2.5 for non-isolated evaporative cooling equipment. 2.0 for vibration isolated evaporative cooling equipment. Table of ASCE 7-05 provides additional information. Component Operating Weight (Wp) This weight term has been removed from the equation below, because EVAPCO is expressing the force in terms of g s and not lbs. Importance Factor (Ip) 1.5 for Occupancy Category IV, life safety components required to function after a seismic event or component containing hazardous content. 1.0 for all other components. ASCE 7-05 Section provides additional detail on importance factors. Installation ocation (Z/h) 0 for units installed at ground level. 1.0 for units installed on a rooftop. Per ASCE 7-05 Section 13.3, z = the height of the point of attachment of the component and h = the relative roof height. Seismic Design Force, (Fp) G-force that the unit must be able to withstand. This number is calculated using the factors described above. The New SWB/RWB is offered with a choice of two structural design packages, consisting of: Standard Structural Design 1.0g Upgraded Structural Design up to 5.12g (the maximum value for North America) Seismic oad Sample Calculation The following example demonstrates the procedure for determining which structural design package a Community Hospital located in Charleston, SC (zip code 29401) would require under the latest version of IBC. In this example, the closed circuit cooler will be installed on a roof, approximately 60 feet above grade. The unit will also be installed with a vibration isolation system. Step 1: Calculate the Design Spectral Response Acceleration (SDS) Where: SS = 1.495; using the USGS Ground otion Parameter Calculator Fa = 1.0; from Table (1) in the IBC 2006 Code Book assuming a Site Classification of D Step 2: Calculate the Seismic Design Force (Fp ) FP Where: SDS 0.4 (ap)(sds)(wp) = 1+2 z = h RP ( IP ) = 2 (Fa)(Ss) = 2 (1.0)(1.495)= ( ) 0.4 (2.5)(0.9966)(1) ( ) ap = 2.5; the default for cooling towers and closed circuit coolers SDS = ; as calculated in Step 1 Wp = 1.0; the default for cooling towers and closed circuit coolers Rp = 2.0; the default for isolated equipment Ip = 1.5; the default for life safety components z/h = 1.0; the default for units on a rooftop (1+2(1))=2.24g In order to meet Code requirements, the unit and its anchorage must be constructed to withstand 2.24g. This will require that the upgraded structure option be chosen to meet the seismic requirements of this project. Because the seismic load requires the upgraded structural design, the wind load calculation results will not change the design and are not required for this analysis. 6

7 IBC COPIANCE Wind oad Calculations Note, both the standard construction and the upgraded construction on the SWB and RWB Closed Circuit Coolers are designed to meet a wind load of 145 psf. Therefore, the following details are provided for informational purposes only. The data required to calculate the wind load are: Basic Wind Speed (V) Numerical value, in miles per hour (mph) found in ASCE 7-05 Figures 6-1 (A,B,C). Wind Directionality Factor (Kd) 0.85 for building components and cladding. Table 6-4 of ASCE 7-05 provides additional information. Occupancy Category I, II, III or IV depending on the nature of the building occupancy. Table in the IBC 2006 Code Book defines each of the categories in detail. This is the same Occupancy Category used in Seismic calculations. Importance Factor (I) Numerical value between 0.77 and 1.15 based on the Basic Wind Speed and the Occupancy Category. These values are found in Table 6-1 of ASCE Exposure Category B, C or D as defined in Section of ASCE Component Elevation (z) The anchorage height of the unit in feet. Nominal Height of the Atmospheric Boundary ayer (zg) - Numerical value based on Exposure Category. These values are found in Table 6-2 of ASCE second Gust-Speed power aw Exponent (α) - Numerical value based on Exposure Category. These values are found in Table 6-2 of ASCE Velocity Pressure Exposure Coefficient (Kz) A calculated value using the values for zg and α. z KZ = 2.01( zg) 2 ( a ) Topographic Factor (Kzt) 1.0 default when topographic effects are not a factor. ASCE 7-05 Section provides additional detail on topographic factors. Velocity Pressure (qz) This number in pounds per square foot (psf) is calculated using the factors described above. The New SWB and RWB are offered with a choice of two structural design packages, consisting of: Standard Design and Upgraded Structural Design both up to 145 psf (the maximum value for North America) Wind oad Sample Calculation The following example demonstrates the procedure to determine which structural design package a Condominium Building located in iami, F (zip code 33101) would require under the latest version of IBC. In this example, the closed circuit cooler will be installed on the top of the 60 foot tall building. Step 1: Calculate the Exposure Category Coefficient (Kz) Where: z zg α = 60; Installation Height = 700; from ASCE 7-05 Table 2 using an Exposure Category of D. = 11.5; from ASCE 7-05 Table 2 using an Exposure Category of D. Step 2: Calculate the Velocity Pressure (qz) Where: KZ = 2.01 ( a ) ( ) ( 11.5) 2 2 z 60 = ( zg) 2.01 = qz = (Kz)(Kzt)(Kd)(V 2 )(I) = (1.31)(1.0)(0.85)(145 2 )(1.0) = 59.93psf Kz = 1.31; as calculated above. Kzt = 1.0; default when topographic effects are not a factor. Kd = 0.85; default for building components and cladding. V = 145; wind speed from ASCE 7-05 Figure 6-1. I = 1.0; Based on an Occupancy Category of II. In order to meet Code requirements, the unit and its attachments must be designed and constructed to withstand psf. Because the wind load does not dictate the closed circuit cooler design, the seismic load calculation must also be completed to determine if the results will change the unit design. 7

8 DESIGN FEATURES Principle of Operation The process fluid is circulated through the coil of the closed circuit cooler. Heat from the process fluid is dissipated through the coil tubes to the water cascading downward over the tubes. Simultaneously air is blown through the unit by the fans and travels upward over the coil opposite the water flow. A small portion of the water is evaporated which removes the heat. The warm moist air is forced to the top of the closed circuit cooler by the fan and is discharged to the atmosphere. The remaining water falls to the sump at the bottom of the cooler where it is recirculated by the pump up through the water distribution system and back down over the coils. Water Distribution System Coil Drift Eliminators Discharge Air Fluid In Fluid Out Stainless Steel aterial Options The RWB is standard with a stainless steel cold water basin. Optional upgrades to stainless steel water touch basins, stainless steel water touch units and all stainless steel construction are also available on the RWB. The SWB is available with optional stainless steel cold water basins, water touch basins, water touch units and all stainless steel construction. For more information on these stainless steel options, see your local Evapco sales representative Cooling Coil Evapco Closed Circuit Coolers utilize EVAPCO s patented Thermal-Pak coil design which assures greater operating efficiency. The elliptical tube design allows for closer tube spacing, resulting in greater surface area per plan area than round-tube coil designs. In addition, the Thermal-Pak design has lower resistance to airflow and also permits greater water loading, making the Thermal-Pak coil the most effective design available. Fan & Fan otors Entering Air Thermal-Pak Coil by EVAPCO U.S. Patent # 5,799,725 Example of an SWB EVAPCOAT Corrosion Protection System: G-235 Hot-Dip Galvanized Steel Construction The standard material of construction for evaporative cooling equipment for many years has been hot-dip galvanized steel. The purpose of galvanizing is to protect the base metal from corrosion, and the thickness of the galvanized layer directly affects the equipment life. EVAPCO has been instrumental in the development of corrosion protection technology and was the first manufacturer to use G-235 galvanized steel construction. The G-235 designation equates to a minimum of 2.35 ounces of zinc per square foot of surface area. The EVAPCOAT Corrosion Protection System is the heaviest galvanized coating available for extended corrosion protection eliminating the need for costly, unreliable epoxy paint finishes. Round Tube Coil by Others The coils are manufactured from high quality steel tubing following the most stringent quality control procedures. Each circuit is inspected to ensure the material quality and then tested before being assembled into a coil. Finally, the assembled coil is pneumatically tested at 400 psig under water to ensure it is leak free. To protect the coil against corrosion, it is placed in a heavy steel frame and then the entire assembly is dipped in molten zinc (hot-dip galvanized) at a temperature of approximately 800 F. Note: Closed circuit coolers should only be used on sealed, pressurized systems. Continual aeration of the water in an open system can cause corrosion inside the tubes of the cooler leading to premature failure. 8

9 DESIGN FEATURES Stainless Steel Coil Option NOW Evapco offers the optional. Constructed with type 304 Stainless Steel, the TITAN COI is manufactured using Evapco s patented elliptical tube Thermal Pak design upgraded to Xtra Tough construction featuring: Xtra Durability, Xtra Corrosion Resistance, and an Xtra long 5 YEAR Coil Warranty as standard. Efficient Drift Eliminators The SWB & RWB are provided with an efficient drift eliminator system that effectively reduces entrained water droplets from the air discharge to less than 0.001% of the spray water flow rate. The eliminators are constructed of non-corrosive PVC with a multi-pass design for maximum drift reduction. They are assembled in modular sections for easy removal and access to the water distribution system. In addition to reducing drift, the eliminators also function as effective debris screens which protect the spray system from sunlight and debris. U.S. Patent No. 5,799,725 Thermal-Pak Coil aintenance Free Z Spray Nozzle Water Distribution System EVAPCO S Zero aintenance Z Spray Nozzle remains clogfree while providing even and constant water distribution for reliable, scale-free evaporative cooling under all operating conditions. The heavy duty nylon Z Spray nozzles have a 1-5/16 diameter opening and a 1-1/2 splash plate clearance. Furthermore, the fixed position Z nozzles are mounted in corrosion-free PVC water distribution pipes that have threaded end caps. Together, these elements combine to provide unequaled coil coverage and scale prevention, and make the industry s best performing non-corrosive, maintenance-free water distribution system. Z Nozzle SWB and RWB Drift Eliminator U.S. Patent # 6,315,804 Drift Eliminators Removed for Coil Inspection 9

10 DESIGN FEATURES Fan otor ount TEFC fan motors are mounted in a convienent open area for ease of belt tensioning, motor lubrication and electrical connection. The motor base is designed for easy adjustment and to be locked into position to maintain proper belt tension. Basin Access The basin/fan section of a centrifugal fan unit is designed for accessibility and ease of maintenance. Fan and drive components are positioned to allow easy adjustment and cleaning. All grease fittings are in convenient locations for periodic lubrication. arge circular access doors are provided to allow entry into the basin. All float valve and strainer assemblies are located near the door for easy adjustment and cleaning. The sump is designed to catch the dirt accumulated. This can be flushed out simply with a hose. The stainless steel strainers may be easily removed for periodic cleaning. Example SWB Fan otor ount RWB Fan otor ount (shown with optional pony motor) Fan Access-Split Housing echanical Drive System Access Another unique feature of the RWB Closed Circuit Cooler is the split fan housing. The split fan housing on the RWB allows quick removal of the fans from the front end of the unit. This feature allows fan removal when units are placed side by side where space is minimal. The SWB and RWB mechanical drive systems are easy to maintain. Bearing lubrication and belt adjustment can be performed from outside the unit. There is no need to remove fan screens to maintain important drive components. In addition, the locking mechanism used to maintain belt tension can also work as a wrench to adjust the belt. Centrifugal Fan Assembly Fans on SWB and RWB Closed Circuit Coolers are of the forward curved centrifugal design with hot-dip galvanized steel construction. All fans are statically and dynamically balanced and are mounted in a hot-dip galvanized steel housing. Capacity Control All SWB and RWB models come standard with premium efficient, inverter capable fan motors that can be used with variable frequency drive (VFD) systems for precise capacity control. VFD systems can control the speed of a fan motor by modulating the voltage and frequency of the motor input electrical signal. When connected to a building automation system a VFD can receive signals varying fan speeds to meet demand loads. This popular method of capacity control can yield significant energy savings. Evapco offers two-speed fan motors as an option for alternative capacity control. In periods of lightened loads or reduced wet bulb temperatures the fans can operate at low speed providing about 60% of full speed capacity yet consuming only about 15% of full speed power. In addition to the energy savings the sound levels of the unit can be greatly reduced by operating at low speed. These motors do not require the use of VFD systems however they can only operate at two speeds: full or low. Pony motors are available as another capacity control method. Pony motors are smaller fan motors for use in times of reduced loading. The pony motor is typically 1/4 of the Hp of the primary motor and can significantly reduce energy requirements. 10

11 APPICATION Application Versatility Centrifugal units are recommended for a wide range of installations. They are quiet, can easily be hidden, and the increase in fan HP over propeller fan units is generally not significant in the small size range. They are also excellent for installations where sound is sensitive, such as residential neighborhoods, and when the unit must handle external static pressure. Very Quiet Operation Centrifugal fan units operate at low sound levels which make this design preferred for installations with external static pressure where noise is a concern. Additionally, since the sound from the fans is directional, single sided air entry models can be turned away from critical areas avoiding a sound problem. When even quieter operation is necessary, centrifugal fan models can be equipped with optional sound attenuation packages. See the Sound Reducing Options section of this catalog or consult the factory for details. In addition, the RWB features a specially engineered fan enclosure and drive system that is designed to offer very quiet operation without the high cost of external attenuation packages. The RWB fan system was developed through hundreds of hours of laboratory tests resulting in the lowest standardized sound levels available in the industry. In fact, the sound level of the RWB on average is 2 dba quieter than competitors similar models. Indoor Installation SWB Unit 2) For ducted installations, the solid bottom panel option must be ordered. On the RWB blank off plates will also be provided in lieu of the side air inlet screens with this option. 3) NOTE: Access Doors must be located in the ductwork for service to the fan drive components and water distribution system. Drawings are available showing recommended ductwork connections. See EVAPCO s ayout Guidelines for additional information. ACCESS RWB Unit ACCESS All SWB and RWB Closed Circuit Coolers can be installed indoors where they normally require ductwork to and from the unit. The design of the ductwork should be symmetrical to provide even air distribution across both intake and discharge openings. Guidelines for Ducted Applications: 1) The static pressure loss imposed by the ductwork must not exceed 1/2. The fan motor size must be increased for ESP up to 1/2. 11

12 SPECIFIC DESIGN FEATURES RWB Reduced Height and aintenance Accessibility The RWB has been designed to satisfy installation requirements where height limits must be observed. The lower profile design of the RWB does not, however, sacrifice maintenance accessibility for reduced height. Its unique casing design allows the water distribution system, cold water basin, fan section and other unit components to be easily maintained. Small, light-weight sections of the drift eliminators can be easily removed to access the water distribution system. A large circular access door is located on the side of the cold water basin to allow adjustment of the float assembly, removal of the stainless steel strainers and cleaning of the basin. The fan motor and drive system are located at one end of the unit and are completely accessible by removing the inlet screens. Routine bearing lubrication and belt tensioning can be performed from the exterior of the unit without removing the inlet screens. Transport of a Pre-Assembled Unit Since the RWB ships fully assembled, it is ideal for truck-mounted applications, for remote sites or temporary installations. Stainless Steel Cold Water Basin Standard The RWB is standard with a stainless steel cold water basin. Optional upgrades to stainless steel water touch basins, stainless steel water touch units and all stainless steel construction are also available on the RWB. H = 6 1-1/4 to 9 3-3/4 ow Installed Costs The compact, unitary design of the RWB closed circuit cooler allows it to be shipped completely assembled. This results in lower transportation costs and no assembly requirements at the job site. Note: Options such as sound attenuation and discharge hoods will require additional lifts and some minor assembly. Integral Fan Enclosure for ower Sound The RWB comes standard with an integral fan enclosure that reduces sound levels by 2 db. This 3-sided enclosure also protects the fan and drive system for longer equipment life. Fan Enclosure 12

13 Selections for SWB Closed Circuit Coolers are available from Evapco s ies Equipment Selection Program. Please contact your local sales representative for more information on the ies program. Engineering Data & Dimensions SWB odels 4-2F6 to 4-5J9 4' 5/8" 22-7/8 4-7/8 PAN VIEW 4 BFW FUID IN 1/2 FPT VENT 4 BFW FUID OUT A U (1) ACCESS 7 H 1 PT AKE-UP 2 FPT OVERFOW E 26-1/8 18-1/2 19-5/8 4' 5/8" 15-1/8 2 PT DRAIN /4 Note: The number of coil connections doubles when the flow rate exceeds 450 gpm on 4x6 and 4x9 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB 4-2F6 2,240 2,240 3, ,200 3/ " 3,080 6' 10" 5' 11-7/8" 3' 7-1/2" 3' 2-1/2" 12" SWB 4-2G6 2,250 2,250 3, ,100 3/ " 3,090 6' 10" 5' 11-7/8" 3' 7-1/2" 3' 2-1/2" 12" SWB 4-2H6 2,300 2,300 3, ,900 3/ " 3,140 6' 10" 5' 11-7/8" 3' 7-1/2" 3' 2-1/2" 12" SWB 4-3F6 2,660 1,680 3, ,000 3/ " 3,610 7' 5-1/2" 5' 11-7/8" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-3G6 2,670 1,680 3, ,900 3/ " 3,620 7' 5-1/2" 5' 11-7/8" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-3H6 2,720 1,680 3, ,600 3/ " 3,670 7' 5-1/2" 5' 11-7/8" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-3I6 2,740 1,680 3, ,000 3/ " 3,690 7' 5-1/2" 5' 11-7/8" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-4F6 3,020 2,040 4, ,800 3/ " 4,080 8' 1" 5' 11-7/8" 3' 7-1/2" 4' 5-1/2" 27" SWB 4-4G6 3,030 2,040 4, ,700 3/ " 4,090 8' 1" 5' 11-7/8" 3' 7-1/2" 4' 5-1/2" 27" SWB 4-4H6 3,080 2,040 4, ,400 3/ " 4,140 8' 1" 5' 11-7/8" 3' 7-1/2" 4' 5-1/2" 27" SWB 4-4I6 3,100 2,040 4, ,700 3/ " 4,160 8' 1" 5' 11-7/8" 3' 7-1/2" 4' 5-1/2" 27" SWB 4-5G6 3,420 2,430 4, ,400 3/ " 4,600 8' 8-1/2" 5' 11-7/8" 3' 7-1/2" 5' 1" 34-1/2" SWB 4-5H6 3,470 2,430 4, ,100 3/ " 4,650 8' 8-1/2" 5' 11-7/8" 3' 7-1/2" 5' 1" 34-1/2" SWB 4-5I6 3,490 2,430 4, ,400 3/ " 4,670 8' 8-1/2" 5' 11-7/8" 3' 7-1/2" 5' 1" 34-1/2" SWB 4-3G9 3,800 2,430 5, , " 5,230 7' 5-1/2" 8' 11-1/4" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-3H9 3,850 2,430 5, , " 5,280 7' 5-1/2" 8' 11-1/4" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-3I9 3,870 2,430 5, , " 5,300 7' 5-1/2" 8' 11-1/4" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-3J9 3,990 2,430 5, , " 5,420 7' 5-1/2" 8' 11-1/4" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-4H9 4,440 3,000 6, , " 6,040 8' 1" 8' 11-1/4" 3' 7-1/2" 4' 5-1/2" 27" SWB 4-4I9 4,450 3,000 6, , " 6,050 8' 1" 8' 11-1/4" 3' 7-1/2" 4' 5-1/2" 27" SWB 4-4J9 4,580 3,000 6, , " 6,180 8' 1" 8' 11-1/4" 3' 7-1/2" 4' 5-1/2" 27" SWB 4-5H9 5,040 3,590 7, , " 6,820 8' 8-1/2" 8' 11-1/4" 3' 7-1/2" 5' 1" 34-1/2" SWB 4-5I9 5,050 3,590 7, , " 6,830 8' 8-1/2" 8' 11-1/4" 3' 7-1/2" 5' 1" 34-1/2" SWB 4-5J9 5,180 3,590 7, , " 6,960 8' 8-1/2" 8' 11-1/4" 3' 7-1/2" 5' 1" 34-1/2" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. odel normally ships in one piece. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 13

14 Engineering Data & Dimensions SWB odels 4-3H12 to ' 5/8" 22-3/4 PAN VIEW 4 BFW FUID IN 4 BFW FUID OUT A U 4-7/8 1/2 FPT VENT (2) ACCESS 7 H 1 PT AKE-UP 2 FPT OVERFOW E 26-1/8 18-1/2 2 PT 19-5/8 DRAIN 3 4' 5/8" 19-1/8 17-1/8 Note: The number of coil connections doubles when the flow rate exceeds 450 gpm on 4x12 and 4x18 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB 4-3H12 4,910 3,170 7, , " 6,920 7' 5-1/2" 11' 11-3/4" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-3I12 4,920 3,170 7, , " 6,930 7' 5-1/2" 11' 11-3/4" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-3J12 5,050 3,170 7, , " 7,060 7' 5-1/2" 11' 11-3/4" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-3K12 5,110 3,170 7, , " 7,120 7' 5-1/2" 11' 11-3/4" 3' 7-1/2" 3' 10" 19-1/2" SWB 4-4I12 5,650 3,960 8, , " 7,890 8' 1" 11' 11-3/4" 3' 7-1/2" 4' 5-1/2" 27" SWB 4-4J12 5,770 3,960 8, , " 8,010 8' 1" 11' 11-3/4" 3' 7-1/2" 4' 5-1/2" 27" SWB 4-4K12 5,830 3,960 8, , " 8,070 8' 1" 11' 11-3/4" 3' 7-1/2" 4' 5-1/2" 27" SWB 4-5I12 6,430 4,750 9, , " 8,920 8' 8-1/2" 11' 11-3/4" 3' 7-1/2" 5' 1" 34-1/2" SWB 4-5J12 6,550 4,750 9, , " 9,040 8' 8-1/2" 11' 11-3/4" 3' 7-1/2" 5' 1" 34-1/2" SWB 4-5K12 6,610 4,750 9, , " 9,100 8' 8-1/2" 11' 11-3/4" 3' 7-1/2" 5' 1" 34-1/2" SWB 4-3I18 7,340 4,860 10, , " 10,050 7' 5-1/2" 18' 3' 7-1/2" 3' 10" 19-1/2" SWB 4-3J18 7,460 4,860 10, , " 10,170 7' 5-1/2" 18' 3' 7-1/2" 3' 10" 19-1/2" SWB 4-3K18 7,520 4,860 10, , " 10,230 7' 5-1/2" 18' 3' 7-1/2" 3' 10" 19-1/2" SWB ,550 4,860 10, , " 10,260 7' 5-1/2" 18' 3' 7-1/2" 3' 10" 19-1/2" SWB 4-4J18 8,590 6,050 12, , " 11,660 8' 1" 18' 3' 7-1/2" 4' 5-1/2" 27" SWB 4-4K18 8,650 6,050 12, , " 11,720 8' 1" 18' 3' 7-1/2" 4' 5-1/2" 27" SWB ,680 6,050 12, , " 11,750 8' 1" 18' 3' 7-1/2" 4' 5-1/2" 27" SWB 4-5J18 9,780 7,240 13, , " 13,200 8' 8-1/2" 18' 3' 7-1/2" 5' 1" 34-1/2" SWB 4-5K18 9,840 7,240 13, , " 13,260 8' 8-1/2" 18' 3' 7-1/2" 5' 1" 34-1/2" SWB ,870 7,240 13, , " 13,290 8' 8-1/2" 18' 3' 7-1/2" 5' 1" 34-1/2" SWB ,920 7,240 14, , " 13,340 8' 8-1/2" 18' 3' 7-1/2" 5' 1" 34-1/2" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 14

15 Selections for SWB Closed Circuit Coolers are available from Evapco s ies Equipment Selection Program. Please contact your local sales representative for more information on the ies program. Engineering Data & Dimensions SWB odels 5-3I12 to ' 5-1/2" 31-1/8 4-7/8 PAN VIEW 4 BFW FUID IN 4 BFW FUID OUT (2) ACCESS A 4-5/8 1 PT AKE-UP U E H 1/2 FPT VENT 3-1/4 18-3/4 26-1/4 18-3/8 29-1/2 2 PT DRAIN 2 FPT OVERFOW 32-1/4 5' 5-1/2" 19-1/8 13-1/4 Note: The number of coil connections doubles when the flow rate exceeds 450 gpm on 5x12 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB 5-3I12 6,730 4,360 9, , " 9,090 9' 2-1/8" 11' 11-1/2" 5' 1-1/8" 4' 1" 22-1/4" SWB 5-3J12 6,850 4,360 10, , " 9,210 9' 2-1/8" 11' 11-1/2" 5' 1-1/8" 4' 1" 22-1/4" SWB 5-3K12 6,910 4,360 10, , " 9,270 9' 2-1/8" 11' 11-1/2" 5' 1-1/8" 4' 1" 22-1/4" SWB ,940 4,360 10, , " 9,300 9' 2-1/8" 11' 11-1/2" 5' 1-1/8" 4' 1" 22-1/4" SWB 5-4I12 7,840 5,470 11, , " 10,550 9' 10-5/8" 11' 11-1/2" 5' 1-1/8" 4' 9-1/2" 30-3/4" SWB 5-4J12 7,960 5,470 11, , " 10,670 9' 10-5/8" 11' 11-1/2" 5' 1-1/8" 4' 9-1/2" 30-3/4" SWB 5-4K12 8,020 5,470 11, , " 10,730 9' 10-5/8" 11' 11-1/2" 5' 1-1/8" 4' 9-1/2" 30-3/4" SWB ,050 5,470 11, , " 10,760 9' 10-5/8" 11' 11-1/2" 5' 1-1/8" 4' 9-1/2" 30-3/4" SWB 5-5J12 9,040 6,580 12, , " 12,090 10' 7-1/8" 11' 11-1/2" 5' 1-1/8" 5' 6" 39-1/4" SWB 5-5K12 9,100 6,580 12, , " 12,150 10' 7-1/8" 11' 11-1/2" 5' 1-1/8" 5' 6" 39-1/4" SWB ,130 6,580 12, , " 12,180 10' 7-1/8" 11' 11-1/2" 5' 1-1/8" 5' 6" 39-1/4" SWB 5-6J12 10,150 7,700 14, , " 13,550 11' 3-5/8" 11' 11-1/2" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB 5-6K12 10,210 7,700 14, , " 13,610 11' 3-5/8" 11' 11-1/2" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB ,240 7,700 14, , " 13,640 11' 3-5/8" 11' 11-1/2" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB ,290 7,700 14, , " 13,690 11' 3-5/8" 11' 11-1/2" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB 5-7J12 11,270 8,820 15, , " 15,000 11' 3-5/8" 11' 11-1/2" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB 5-7K12 11,330 8,820 15, , " 15,060 11' 3-5/8" 11' 11-1/2" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB ,360 8,820 15, , " 15,090 11' 3-5/8" 11' 11-1/2" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB ,410 8,820 15, , " 15,140 11' 3-5/8" 11' 11-1/2" 5' 1-1/8" 6' 2-1/2" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 15

16 Engineering Data & Dimensions SWB odels 5-3J18 to 5-7N18 5' 5-1/2" /8 PAN VIEW 4 BFW FUID IN 1/2 FPT VENT 4 BFW FUID OUT A U (2) ACCESS 4-5/8 1-1/2 PT AKE-UP E H 3-1/4 18-3/4 26-1/4 18-3/8 2 PT DRAIN 2 FPT OVERFOW 29-1/2 32-1/4 5' 5-1/2" 19-1/8 15-3/4 Note: The number of coil connections doubles when the flow rate exceeds 450 gpm on 5x18 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB 5-3J18 10,410 6,690 14, , " 13,500 9' 2-1/8" 18' 1/8" 5' 1-1/8" 4' 1" 22-1/4" SWB 5-3K18 10,470 6,690 14, , " 13,560 9' 2-1/8" 18' 1/8" 5' 1-1/8" 4' 1" 22-1/4" SWB ,500 6,690 14, , " 13,590 9' 2-1/8" 18' 1/8" 5' 1-1/8" 4' 1" 22-1/4" SWB ,550 6,690 14, , " 13,640 9' 2-1/8" 18' 1/8" 5' 1-1/8" 4' 1" 22-1/4" SWB 5-4K18 12,170 8,330 16, , " 15,760 9' 10-5/8" 18' 1/8" 5' 1-1/8" 4' 9-1/2" 30-3/4" SWB ,200 8,330 16, , " 15,790 9' 10-5/8" 18' 1/8" 5' 1-1/8" 4' 9-1/2" 30-3/4" SWB ,250 8,330 17, , " 15,840 9' 10-5/8" 18' 1/8" 5' 1-1/8" 4' 9-1/2" 30-3/4" SWB 5-4N18 12,410 8,330 17, , " 16,000 9' 10-5/8" 18' 1/8" 5' 1-1/8" 4' 9-1/2" 30-3/4" SWB 5-5K18 13,840 9,990 19, , " 17,950 10' 7-1/8" 18' 1/8" 5' 1-1/8" 5' 6" 39-1/4" SWB ,870 9,990 19, , " 17,980 10' 7-1/8" 18' 1/8" 5' 1-1/8" 5' 6" 39-1/4" SWB ,920 9,990 19, , " 18,030 10' 7-1/8" 18' 1/8" 5' 1-1/8" 5' 6" 39-1/4" SWB 5-5N18 14,080 9,990 19, , " 18,190 10' 7-1/8" 18' 1/8" 5' 1-1/8" 5' 6" 39-1/4" SWB ,540 11,660 21, , " 20,170 11' 3-5/8" 18' 1/8" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB ,590 11,660 21, , " 20,220 11' 3-5/8" 18' 1/8" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB 5-6N18 15,750 11,660 21, , " 20,380 11' 3-5/8" 18' 1/8" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB ,220 13,340 23, , " 22,350 11' 3-5/8" 18' 1/8" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB ,270 13,340 23, , " 22,400 11' 3-5/8" 18' 1/8" 5' 1-1/8" 6' 2-1/2" 47-3/4" SWB 5-7N18 17,430 13,340 23, , " 22,560 11' 3-5/8" 18' 1/8" 5' 1-1/8" 6' 2-1/2" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 16

17 Selections for SWB Closed Circuit Coolers are available from Evapco s ies Equipment Selection Program. Please contact your local sales representative for more information on the ies program. Engineering Data & Dimensions SWB odels 8P-3K12 to 8P-7O12 7' 10" 24-1/2 44-7/8 4-7/8 PAN VIEW (2) 4 BFW FUID IN (2) 4 BFW FUID OUT A U (2) 1/2 FPT VENT (2) ACCESS 2 PT AKE-UP 7 E H 3 PT OVERFOW 9-1/ /8 2 PT DRAIN 3-1/4 7' 10" 17 Note: The number of coil connections doubles when the flow rate exceeds 900 gpm on 8Px12 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB 8P-3K12 10,640 7,040 16, , " 14,620 11' 1-5/8" 11' 11-3/4" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P ,670 7,040 16, , " 14,650 11' 1-5/8" 11' 11-3/4" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P ,720 7,040 16, , " 14,700 11' 1-5/8" 11' 11-3/4" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P-3N12 10,880 7,040 16, , " 14,860 11' 1-5/8" 11' 11-3/4" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P ,430 8,770 18, , " 17,050 11' 9-1/8" 11' 11-3/4" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P ,480 8,770 18, , " 17,100 11' 9-1/8" 11' 11-3/4" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-4N12 12,640 8,770 19, , " 17,260 11' 9-1/8" 11' 11-3/4" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-4O12 12,650 8,770 19, , " 17,270 11' 9-1/8" 11' 11-3/4" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P ,130 10,490 21, , " 19,370 12' 4-5/8" 11' 11-3/4" 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P-5N12 14,290 10,490 21, , " 19,530 12' 4-5/8" 11' 11-3/4" 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P-5O12 14,300 10,490 21, , " 19,540 12' 4-5/8" 11' 11-3/4" 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P ,860 12,220 23, , " 21,740 13' 1/8" 11' 11-3/4" 7' 3-3/8" 5' 8-3/4" 42" SWB 8P-6N12 16,020 12,220 23, , " 21,900 13' 1/8" 11' 11-3/4" 7' 3-3/8" 5' 8-3/4" 42" SWB 8P-6O12 16,030 12,220 23, , " 21,910 13' 1/8" 11' 11-3/4" 7' 3-3/8" 5' 8-3/4" 42" SWB 8P ,910 14,270 26, , " 24,310 13' 2-1/8" 11' 11-3/4" 7' 3-3/8" 5' 10-3/4" 47-3/4" SWB 8P-7N12 18,070 14,270 26, , " 24,470 13' 2-1/8" 11' 11-3/4" 7' 3-3/8" 5' 10-3/4" 47-3/4" SWB 8P-7O12 18,080 14,270 26, , " 24,480 13' 2-1/8" 11' 11-3/4" 7' 3-3/8" 5' 10-3/4" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 17

18 Engineering Data & Dimensions SWB odels 8P-318 to 8P-7P18 7' 10" 24-1/2 44-7/8 4-7/8 PAN VIEW (2) 4 BFW FUID IN (2) 4 BFW FUID OUT A U (2) 1/2 FPT VENT 7 H (2) ACCESS 2 PT AKE-UP E 3 PT OVERFOW /8 2 PT DRAIN 9-1/4 3-1/4 7' 10" 24-7/8 Note: The number of coil connections doubles when the flow rate exceeds 900 gpm on 8Px18 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB 8P ,330 10,320 23, , " 21,250 11' 1-5/8" 18' 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P-3N18 15,490 10,320 24, , " 21,410 11' 1-5/8" 18' 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P-3O18 15,500 10,320 24, , " 21,420 11' 1-5/8" 18' 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P-3P18 15,700 10,320 24, , " 21,620 11' 1-5/8" 18' 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P ,970 12,960 27, , " 24,850 11' 9-1/8" 18' 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-4N18 18,130 12,960 27, , " 25,010 11' 9-1/8" 18' 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-4O18 18,140 12,960 27, , " 25,020 11' 9-1/8" 18' 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-4P18 18,340 12,960 27, , " 25,220 11' 9-1/8" 18' 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-5N18 20,710 15,490 31, , " 28,540 12' 4-5/8" 18' 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P-5O18 20,720 15,490 31, , " 28,550 12' 4-5/8" 18' 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P-5P18 20,920 15,490 31, , " 28,750 12' 4-5/8" 18' 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P-6N18 23,300 18,080 34, , " 32,080 13' 1/8" 18' 7' 3-3/8" 5' 8-3/4" 42" SWB 8P-6O18 23,310 18,080 34, , " 32,090 13' 1/8" 18' 7' 3-3/8" 5' 8-3/4" 42" SWB 8P-6P18 23,510 18,080 34, , " 32,290 13' 1/8" 18' 7' 3-3/8" 5' 8-3/4" 42" SWB 8P-7N18 26,330 21,110 38, , " 35,890 13' 2-1/8" 18' 7' 3-3/8" 5' 10-3/4" 47-3/4" SWB 8P-7O18 26,340 21,110 38, , " 35,900 13' 2-1/8" 18' 7' 3-3/8" 5' 10-3/4" 47-3/4" SWB 8P-7P18 26,540 21,110 38, , " 36,100 13' 2-1/8" 18' 7' 3-3/8" 5' 10-3/4" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 18

19 Selections for SWB Closed Circuit Coolers are available from Evapco s ies Equipment Selection Program. Please contact your local sales representative for more information on the ies program. Engineering Data & Dimensions SWB odels 8P-3K24 to 8P-7O24 7' 10" 24-1/2 44-7/8 4-7/8 PAN VIEW (4) 4 BFW FUID IN (4) 4 BFW FUID OUT A U (4) 1/2 FPT VENT (2) ACCESS 2 PT AKE-UP 7 (2) 3 PT OVERFOW E H 9-1/ /8 2 PT DRAIN 3-1/4 7' 10" /8 Note: The number of coil connections doubles when the flow rate exceeds 1800 gpm on 8Px24 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB 8P-3K24 21,020 7,040 32,670 (2) 20 97,200 (2) (2) 10" 29,070 11' 1-5/8" 24' 1" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P ,080 7,040 32,730 (2) ,700 (2) (2) 10" 29,130 11' 1-5/8" 24' 1" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P , ,830 (2) ,300 (2) (2) 10" 29,230 11' 1-5/8" 24' 1" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P-3N24 21,500 7,420 33,150 (2) ,500 (2) (2) 10" 29,550 11' 1-5/8" 24' 1" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P ,600 8,770 37,540 (2) ,700 (2) (2) 10" 33,940 11' 9-1/8" 24' 1" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P ,700 8,770 37,640 (2) ,100 (2) (2) 10" 34,040 11' 9-1/8" 24' 1" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-4N24 25,020 8,770 37,960 (2) ,100 (2) (2) 10" 34,360 11' 9-1/8" 24' 1" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-4O24 25,040 8,770 37,980 (2) ,400 (2) (2) 10" 34,380 11' 9-1/8" 24' 1" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P ,990 10,490 42,180 (2) ,900 (2) (2) 10" 38,580 12' 4-5/8" 24' 1" 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P-5N24 28,310 10,490 42,500 (2) ,700 (2) (2) 10" 38,900 12' 4-5/8" 24' 1" 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P-5O24 28,330 10,490 42,520 (2) ,800 (2) (2) 10" 38,920 12' 4-5/8" 24' 1" 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P ,450 12,220 46,930 (2) ,800 (2) (2) 10" 43,330 13' 1/8" 24' 1" 7' 3-3/8" 5' 8-3/4" 42" SWB 8P-6N24 31,770 12,220 47,250 (2) ,300 (2) (2) 10" 43,650 13' 1/8" 24' 1" 7' 3-3/8" 5' 8-3/4" 42" SWB 8P-6O24 31,790 12,220 47,270 (2) ,200 (2) (2) 10" 43,670 13' 1/8" 24' 1" 7' 3-3/8" 5' 8-3/4" 42" SWB 8P ,550 14,270 52,080 (2) ,600 (2) (2) 10" 48,480 13' 2-1/8" 24' 1" 7' 3-3/8" 5' 10-3/4" 47-3/4" SWB 8P-7N24 35,870 14,270 52,400 (2) ,900 (2) (2) 10" 48,800 13' 2-1/8" 24' 1" 7' 3-3/8" 5' 10-3/4" 47-3/4" SWB 8P-7O24 35,890 14,270 52,420 (2) ,600 (2) (2) 10" 48,820 13' 2-1/8" 24' 1" 7' 3-3/8" 5' 10-3/4" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. Heaviest section is the fan section. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 19

20 Engineering Data & Dimensions SWB odels 8P-336 to 8P-7P36 7' 10" 24-1/2 44-7/8 4-7/8 PAN VIEW (4) 4 BFW FUID IN (4) 4 BFW FUID OUT (2) ACCESS 2 PT AKE-UP A 7 (2) 3 PT OVERFOW 35 U E H (4) 1/2 FPT VENT 38-5/8 7' 10" 2 PT DRAIN 3-1/4 9-1/4 24 7/8 19 3/4 Note: The number of coil connections doubles when the flow rate exceeds 1800 gpm on 8Px36 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB 8P ,390 10,320 47,740 (2) ,600 (2) (2) 12" 42,340 11' 1-5/8" 36' 1-1/2" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P-3N36 30,710 10,320 48,060 (2) ,200 (2) (2) 12" 42,660 11' 1-5/8" 36' 1-1/2" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P-3O36 30,730 10,320 48,080 (2) ,600 (2) (2) 12" 42,680 11' 1-5/8" 36' 1-1/2" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P-3P36 31,130 10,490 48,480 (2) ,400 (2) (2) 12" 43,080 11' 1-5/8" 36' 1-1/2" 7' 3-3/8" 3' 10-1/4" 19-1/2" SWB 8P ,680 12,960 54,930 (2) ,700 (2) (2) 12" 49,530 11' 9-1/8" 36' 1-1/2" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-4N36 36,000 12,960 55,250 (2) ,100 (2) (2) 12" 49,850 11' 9-1/8" 36' 1-1/2" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-4O36 36,020 12,960 55,270 (2) ,200 (2) (2) 12" 49,870 11' 9-1/8" 36' 1-1/2" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-4P36 36,420 12,960 55,670 (2) ,800 (2) (2) 12" 50,270 11' 9-1/8" 36' 1-1/2" 7' 3-3/8" 4' 5-3/4" 27" SWB 8P-5N36 41,150 15,490 62,320 (2) ,900 (2) (2) 12" 56,920 12' 4-5/8" 36' 1-1/2" 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P-5O36 41,170 15,490 62,340 (2) ,800 (2) (2) 12" 56,940 12' 4-5/8" 36' 1-1/2" 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P-5P36 41,570 15,490 62,740 (2) ,200 (2) (2) 12" 57,340 12' 4-5/8" 36' 1-1/2" 7' 3-3/8" 5' 1-1/4" 34-1/2" SWB 8P-6N36 46,320 18,080 69,400 (2) ,800 (2) (2) 12" 64,000 13' 1/8" 36' 1-1/2" 7' 3-3/8" 5' 8-3/4" 42" SWB 8P-6O36 46,340 18,080 69,420 (2) ,400 (2) (2) 12" 64,020 13' 1/8" 36' 1-1/2" 7' 3-3/8" 5' 8-3/4" 42" SWB 8P-6P36 46,740 18,080 69,820 (2) ,600 (2) (2) 12" 64,420 13' 1/8" 36' 1-1/2" 7' 3-3/8" 5' 8-3/4" 42" SWB 8P-7N36 52,380 21,110 77,030 (2) ,600 (2) (2) 12" 71,630 13' 2-1/8" 36' 1-1/2" 7' 3-3/8" 5' 10-3/4" 47-3/4" SWB 8P-7O36 52,400 21,110 77,050 (2) ,000 (2) (2) 12" 71,650 13' 2-1/8" 36' 1-1/2" 7' 3-3/8" 5' 10-3/4" 47-3/4" SWB 8P-7P36 52,800 21,110 77,450 (2) ,000 (2) (2) 12" 72,050 13' 2-1/8" 36' 1-1/2" 7' 3-3/8" 5' 10-3/4" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. Heaviest section is the fan section. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 20

21 Selections for SWB Closed Circuit Coolers are available from Evapco s ies Equipment Selection Program. Please contact your local sales representative for more information on the ies program. Engineering Data & Dimensions SWB odels to 10-7P12 9' 9-3/4" 30-1/ /8 PAN VIEW (2) 4 BFW FUID IN (2) 4 BFW FUID OUT A U (2) 1/2 FPT VENT (2) ACCESS 2 PT AKE-UP 4-5/8 3 FPT OVERFOW E H 23-5/ /8 43-1/4 49-7/8 9' 9-3/4" 3 PT DRAIN 3-3/4 17 Note: The number of coil connections doubles when the flow rate exceeds 900 gpm on 10x12 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB ,630 8,530 21, , " 19,060 12' 7-5/8" 11' 11-3/4" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB 10-3N12 13,790 8,530 21, , " 19,220 12' 7-5/8" 11' 11-3/4" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB 10-3O12 13,800 8,530 21, , " 19,230 12' 7-5/8" 11' 11-3/4" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB ,840 10,740 24, , " 22,110 13' 4-1/8" 11' 11-3/4" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB 10-4N12 16,000 10,740 24, , " 22,270 13' 4-1/8" 11' 11-3/4" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB 10-4O12 16,010 10,740 24, , " 22,280 13' 4-1/8" 11' 11-3/4" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB ,050 12,940 27, , " 25,150 14' 5/8" 11' 11-3/4" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB 10-5N12 18,210 12,940 27, , " 25,310 14' 5/8" 11' 11-3/4" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB 10-5O12 18,220 12,940 27, , " 25,320 14' 5/8" 11' 11-3/4" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB ,260 15,150 30, , " 28,190 14' 9-1/8" 11' 11-3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-6N12 20,420 15,150 30, , " 28,350 14' 9-1/8" 11' 11-3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-6O12 20,430 15,150 30, , " 28,360 14' 9-1/8" 11' 11-3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-6P12 20,630 15,150 30, , " 28,560 14' 9-1/8" 11' 11-3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB ,260 17,150 33, , " 30,850 14' 9-1/8" 11' 11-3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-7N12 22,420 17,150 33, , " 31,010 14' 9-1/8" 11' 11-3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-7O12 22,430 17,150 33, , " 31,020 14' 9-1/8" 11' 11-3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-7P12 22,630 17,150 33, , " 31,220 14' 9-1/8" 11' 11-3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 21

22 Engineering Data & Dimensions SWB odels 10-3K18 to 10-7N18 9' 9-3/4" 30-1/ /8 PAN VIEW (2) 4 BFW FUID IN (2) 4 BFW FUID OUT A U (2) 1/2 FPT VENT 4-5/8 H 2 PT AKE-UP (2) ACCESS 3 FPT OVERFOW E 3 PT DRAIN 23-5/ /8 43-1/4 49-7/8 9' 9-3/4" 3-3/4 23 Note: The number of coil connections doubles when the flow rate exceeds 900 gpm on 10x18 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB 10-3K18 20,310 12,380 31,620 (2) 20 98, , " 28,170 12' 7-5/8" 18' 1/4" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB ,370 12,380 31,680 (2) , , " 28,230 12' 7-5/8" 18' 1/4" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB ,470 12,380 31,780 (2) , , " 28,330 12' 7-5/8" 18' 1/4" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB 10-3N18 20,790 12,380 32,100 (2) , , " 28,650 12' 7-5/8" 18' 1/4" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB ,640 15,500 36,170 (2) , , " 32,720 13' 4-1/8" 18' 1/4" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB ,740 15,500 36,270 (2) , , " 32,820 13' 4-1/8" 18' 1/4" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB 10-4N18 24,060 15,500 36,590 (2) , , " 33,140 13' 4-1/8" 18' 1/4" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB ,940 18,680 40,720 (2) , , " 37,270 14' 5/8" 18' 1/4" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB ,040 18,680 40,820 (2) , , " 37,370 14' 5/8" 18' 1/4" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB 10-5N18 27,360 18,680 41,140 (2) , , " 37,690 14' 5/8" 18' 1/4" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB ,250 21,870 45,280 (2) , , " 41,830 14' 9-1/8" 18' 1/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB ,350 21,870 45,380 (2) , , " 41,930 14' 9-1/8" 18' 1/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-6N18 30,670 21,870 45,700 (2) , , " 42,250 14' 9-1/8" 18' 1/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB ,250 24,870 49,280 (2) 25 98, , " 45,830 14' 9-1/8" 18' 1/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB ,350 24,870 49,380 (2) , , " 45,930 14' 9-1/8" 18' 1/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-7N18 33,670 24,870 49,700 (2) , , " 46,250 14' 9-1/8" 18' 1/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 22

23 Selections for SWB Closed Circuit Coolers are available from Evapco s ies Equipment Selection Program. Please contact your local sales representative for more information on the ies program. Engineering Data & Dimensions SWB odels to 10-7P24 9' 9-3/4" 30-1/ /8 PAN VIEW (4) 4 BFW FUID IN (4) 4 BFW FUID OUT A U (4) 1/2 FPT VENT (2) ACCESS 2 PT AKE-UP 4-5/8 (2) 3 FPT OVERFOW E H 23-5/ /8 43-1/4 49-7/8 9' 9-3/4" 3 PT DRAIN 3-3/ /8 Note: The number of coil connections doubles when the flow rate exceeds 1800 gpm on 10x24 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB ,450 9,710 41,600 (2) ,700 (2) 5 1, (2) 10" 37,000 12' 7-5/8" 24' 3/4" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB 10-3N24 26,770 9,710 41,920 (2) ,500 (2) 5 1, (2) 10" 37,320 12' 7-5/8" 24' 3/4" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB 10-3O24 26,790 9,710 41,940 (2) ,100 (2) 5 1, (2) 10" 37,340 12' 7-5/8" 24' 3/4" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB ,790 10,740 47,580 (2) ,000 (2) 5 1, (2) 10" 42,980 13' 4-1/8" 24' 3/4" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB 10-4N24 31,110 10,740 47,900 (2) ,500 (2) 5 1, (2) 10" 43,300 13' 4-1/8" 24' 3/4" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB 10-4O24 31,130 10,740 47,920 (2) ,900 (2) 5 1, (2) 10" 43,320 13' 4-1/8" 24' 3/4" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB ,120 12,940 53,550 (2) ,400 (2) 5 1, (2) 10" 48,950 14' 5/8" 24' 3/4" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB 10-5N24 35,440 12,940 53,870 (2) ,600 (2) 5 1, (2) 10" 49,270 14' 5/8" 24' 3/4" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB 10-5O24 35,460 12,940 53,890 (2) ,800 (2) 5 1, (2) 10" 49,290 14' 5/8" 24' 3/4" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB ,450 15,150 59,520 (2) ,700 (2) 5 1, (2) 10" 54,920 14' 9-1/8" 24' 3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-6N24 39,770 15,150 59,840 (2) ,600 (2) 5 1, (2) 10" 55,240 14' 9-1/8" 24' 3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-6O24 39,790 15,150 59,860 (2) ,600 (2) 5 1, (2) 10" 55,260 14' 9-1/8" 24' 3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-6P24 40,190 15,150 60,260 (2) ,100 (2) 5 1, (2) 10" 55,660 14' 9-1/8" 24' 3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB ,450 17,150 64,840 (2) ,000 (2) 5 1,370 1, (2) 10" 60,240 14' 9-1/8" 24' 3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-7N24 43,770 17,150 65,160 (2) ,700 (2) 5 1,370 1, (2) 10" 60,560 14' 9-1/8" 24' 3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-7O24 43,790 17,150 65,180 (2) ,400 (2) 5 1,370 1, (2) 10" 60,580 14' 9-1/8" 24' 3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-7P24 44,190 17,150 65,580 (2) ,800 (2) 5 1,370 1, (2) 10" 60,980 14' 9-1/8" 24' 3/4" 8' 6-1/2" 6' 2-5/8" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 23

24 Engineering Data & Dimensions SWB odels 10-3K36 to 10-7N36 9' 9-3/4" 30-1/ /8 PAN VIEW (4) 4 BFW FUID IN (4) 4 BFW FUID OUT (2) ACCESS A 4-5/8 2 PT AKE-UP U E H (4) 1/2 FPT VENT 23-5/ PT DRAIN 23-7/8 43-1/4 49-7/8 9' 9-3/4" 3-3/4 (2) 3 FPT OVERFOW 24-7/8 19-1/8 Note: The number of coil connections doubles when the flow rate exceeds 1800 gpm on 10x36 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions SWB Heaviest Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Section* Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A SWB 10-3K36 40,010 14,330 62,770 (4) ,600 (2) 7.5 2, ,500 (2) 12" 55,870 12' 7-5/8" 36' 2" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB ,130 14,450 62,890 (4) ,900 (2) 7.5 2, ,500 (2) 12" 55,990 12' 7-5/8" 36' 2" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB ,330 14,650 63,090 (4) ,200 (2) 7.5 2, ,500 (2) 12" 56,190 12' 7-5/8" 36' 2" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB 10-3N36 40,970 15,290 63,730 (4) ,000 (2) 7.5 2, ,500 (2) 12" 56,830 12' 7-5/8" 36' 2" 8' 6-1/2" 4' 1-1/8" 22-1/4" SWB ,680 15,680 71,860 (4) ,700 (2) 7.5 2, ,500 (2) 12" 64,960 13' 4-1/8" 36' 2" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB ,880 15,880 72,060 (4) ,800 (2) 7.5 2, ,500 (2) 12" 65,160 13' 4-1/8" 36' 2" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB 10-4N36 47,520 16,520 72,700 (4) ,100 (2) 7.5 2, ,500 (2) 12" 65,800 13' 4-1/8" 36' 2" 8' 6-1/2" 4' 9-5/8" 30-3/4" SWB ,290 18,680 80,970 (4) ,500 (2) 7.5 2,060 1,226 1,500 (2) 12" 74,080 14' 5/8" 36' 2" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB ,490 18,680 81,170 (4) ,300 (2) 7.5 2,060 1,226 1,500 (2) 12" 74,280 14' 5/8" 36' 2" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB 10-5N36 54,130 18,680 81,810 (4) ,200 (2) 7.5 2,060 1,226 1,500 (2) 12" 74,920 14' 5/8" 36' 2" 8' 6-1/2" 5' 6-1/8" 39-1/4" SWB ,900 21,870 90,080 (4) ,400 (2) 7.5 2,060 1,464 1,500 (2) 12" 83,180 14' 9-1/8" 36' 2" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB ,100 21,870 90,280 (4) ,900 (2) 7.5 2,060 1,464 1,500 (2) 12" 83,380 14' 9-1/8" 36' 2" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-6N36 60,740 21,870 90,920 (4) ,300 (2) 7.5 2,060 1,464 1,500 (2) 12" 84,020 14' 9-1/8" 36' 2" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB ,900 24,870 98,080 (4) ,200 (2) 7.5 2,060 1,703 1,500 (2) 12" 91,180 14' 9-1/8" 36' 2" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB ,100 24,870 98,280 (4) ,500 (2) 7.5 2,060 1,703 1,500 (2) 12" 91,380 14' 9-1/8" 36' 2" 8' 6-1/2" 6' 2-5/8" 47-3/4" SWB 10-7N36 66,740 24,870 98,920 (4) ,500 (2) 7.5 2,060 1,703 1,500 (2) 12" 92,020 14' 9-1/8" 36' 2" 8' 6-1/2" 6' 2-5/8" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. Heaviest section is the fan section. * Heaviest section is the coil section. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 24

25 Selections for RWB Closed Circuit Coolers are available from Evapco s ies Equipment Selection Program. Please contact your local sales representative for more information on the ies program. Engineering Data & Dimensions RWB odels 3-2D6 to 3-5I6 3' 4-1/2" PAN VIEW 20-1/4 4 BFW FUID IN 1/2 FPT VENT 4 BFW FUID OUT A U H /4 TYP. 2 PT DRAIN 3-7/8 5-1/4 2 PT OVERFOW 2-5/8 8-3/4 E ACCESS 66 ACCESS 1 PT AKE-UP 20-1/8 63-3/8 3' 4-1/2" 13-1/8 Note: The number of coil connections doubles when the flow rate exceeds 450 gpm on 3x6 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions RWB Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A RWB 3-2D6 2,320 3, ,600 1/ " 2,700 6' 1/4" 10' 1-7/8" 3' 1/4" 3' 12" RWB 3-2E6 2,320 3, ,300 1/ " 2,700 6' 1/4" 10' 1-7/8" 3' 1/4" 3' 12" RWB 3-2F6 2,330 3, ,600 1/ " 2,720 6' 1/4" 10' 1-7/8" 3' 1/4" 3' 12" RWB 3-2G6 2,340 3, ,300 1/ " 2,730 6' 1/4" 10' 1-7/8" 3' 1/4" 3' 12" RWB 3-2H6 2,390 3, ,000 1/ " 2,770 6' 1/4" 10' 1-7/8" 3' 1/4" 3' 12" RWB 3-3E6 2,640 4, ,200 1/ " 3,140 6' 7-3/4" 10' 1-7/8" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 3-3F6 2,660 4, ,400 1/ " 3,160 6' 7-3/4" 10' 1-7/8" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 3-3G6 2,670 4, ,100 1/ " 3,170 6' 7-3/4" 10' 1-7/8" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 3-3H6 2,710 4, ,700 1/ " 3,210 6' 7-3/4" 10' 1-7/8" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 3-4E6 3,000 4, ,000 1/ " 3,600 7' 3-1/4" 10' 1-7/8" 3' 1/4" 4' 3" 27" RWB 3-4F6 3,010 4, ,200 1/ " 3,620 7' 3-1/4" 10' 1-7/8" 3' 1/4" 4' 3" 27" RWB 3-4G6 3,020 4, ,900 1/ " 3,630 7' 3-1/4" 10' 1-7/8" 3' 1/4" 4' 3" 27" RWB 3-4H6 3,060 4, ,500 1/ " 3,670 7' 3-1/4" 10' 1-7/8" 3' 1/4" 4' 3" 27" RWB 3-5F6 3,390 4, ,000 1/ " 4,120 7' 10-3/4" 10' 1-7/8" 3' 1/4" 4' 10-1/2" 34-1/2" RWB 3-5G6 3,400 4, ,700 1/ " 4,130 7' 10-3/4" 10' 1-7/8" 3' 1/4" 4' 10-1/2" 34-1/2" RWB 3-5H6 3,450 5, ,200 1/ " 4,170 7' 10-3/4" 10' 1-7/8" 3' 1/4" 4' 10-1/2" 34-1/2" RWB 3-5I6 3,490 5, ,500 1/ " 4,210 7' 10-3/4" 10' 1-7/8" 3' 1/4" 4' 10-1/2" 34-1/2" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 25

26 Engineering Data & Dimensions RWB odels 5-2F6 to 5-5I6 5' 5/8" 30-5/16 PAN VIEW 1/2 FPT VENT 75 4 BFW FUID IN A U 3-1/4 TYP. 4 BFW FUID OUT 5-1/4 3 PT OVERFOW 8-3/4 E H ACCESS ACCESS 20-1/8 79-3/4 2 PT DRAIN 5' 5/8" 20-7/8 2-5/8 4-7/8 13-5/ PT AKE-UP Note: The number of coil connections doubles when the flow rate exceeds 450 gpm on 5x6 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions RWB Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A RWB 5-2F6 3,530 5, , " 4,210 6' 1/4" 12' 2-7/8" 3' 1/4" 3' 12" RWB 5-2G6 3,540 5, , " 4,230 6' 1/4" 12' 2-7/8" 3' 1/4" 3' 12" RWB 5-2H6 3,580 5, , " 4,270 6' 1/4" 12' 2-7/8" 3' 1/4" 3' 12" RWB 5-2I6 3,620 5, , " 4,310 6' 1/4" 12' 2-7/8" 3' 1/4" 3' 12" RWB 5-3F6 4,020 6, , " 4,880 6' 7-3/4" 12' 2-7/8" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 5-3G6 4,040 6, , " 4,900 6' 7-3/4" 12' 2-7/8" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 5-3H6 4,080 6, , " 4,940 6' 7-3/4" 12' 2-7/8" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 5-3I6 4,110 6, , " 4,970 6' 7-3/4" 12' 2-7/8" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 5-4G6 4,580 7, , " 5,600 7' 3-1/4" 12' 2-7/8" 3' 1/4" 4' 3" 27" RWB 5-4H6 4,620 7, , " 5,650 7' 3-1/4" 12' 2-7/8" 3' 1/4" 4' 3" 27" RWB 5-4I6 4,650 7, , " 5,680 7' 3-1/4" 12' 2-7/8" 3' 1/4" 4' 3" 27" RWB 5-5G6 5,160 7, , " 6,380 7' 10-3/4" 12' 2-7/8" 3' 1/4" 4' 10-1/2" 34-1/2" RWB 5-5H6 5,210 7, , " 6,420 7' 10-3/4" 12' 2-7/8" 3' 1/4" 4' 10-1/2" 34-1/2" RWB 5-5I6 5,240 7, , " 6,450 7' 10-3/4" 12' 2-7/8" 3' 1/4" 4' 10-1/2" 34-1/2" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 26

27 Selections for RWB Closed Circuit Coolers are available from Evapco s ies Equipment Selection Program. Please contact your local sales representative for more information on the ies program. Engineering Data & Dimensions RWB odels 5-3H9 to 5-7K9 5' 5/8" 30-5/16 PAN VIEW 4 BFW FUID IN 1/2 FPT VENT 75 4 BFW FUID OUT A U 3-1/4 TYP. 3 PT OVERFOW 5-1/4 8-3/4 E H ACCESS ACCESS 20-1/8 79-3/4 2 PT DRAIN 5' 5/8" 20-7/8 2-5/8 4-7/8 13-5/ /8 1 PT AKE-UP Note: The number of coil connections doubles when the flow rate exceeds 450 gpm on 5x9 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions RWB Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A RWB 5-3H9 5,250 8, , " 6,570 6' 7-3/4" 15' 2-1/4" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 5-3I9 5,290 8, , " 6,600 6' 7-3/4" 15' 2-1/4" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 5-3J9 5,400 8, , " 6,710 6' 7-3/4" 15' 2-1/4" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 5-3K9 5,410 8, , " 6,720 6' 7-3/4" 15' 2-1/4" 3' 1/4" 3' 7-1/2" 19-1/2" RWB 5-4I9 6,110 9, , " 7,690 7' 3-1/4" 15' 2-1/4" 3' 1/4" 4' 3" 27" RWB 5-4J9 6,220 9, , " 7,800 7' 3-1/4" 15' 2-1/4" 3' 1/4" 4' 3" 27" RWB 5-4K9 6,240 9, , " 7,810 7' 3-1/4" 15' 2-1/4" 3' 1/4" 4' 3" 27" RWB 5-5I9 6,980 10, , " 8,830 7' 10-3/4" 15' 2-1/4" 3' 1/4" 4' 10-1/2" 34-1/2" RWB 5-5J9 7,090 11, , " 8,940 7' 10-3/4" 15' 2-1/4" 3' 1/4" 4' 10-1/2" 34-1/2" RWB 5-5K9 7,100 11, , " 8,950 7' 10-3/4" 15' 2-1/4" 3' 1/4" 4' 10-1/2" 34-1/2" RWB 5-6I9 7,730 12, , " 9,860 8' 6-1/4" 15' 2-1/4" 3' 1/4" 5' 6" 42" RWB 5-6J9 7,840 12, , " 9,970 8' 6-1/4" 15' 2-1/4" 3' 1/4" 5' 6" 42" RWB 5-6K9 7,850 12, , " 9,980 8' 6-1/4" 15' 2-1/4" 3' 1/4" 5' 6" 42" RWB 5-7I9 8,650 13, , " 11,060 9' 15' 2-1/4" 3' 1/4" 5' 11-3/4" 47-3/4" RWB 5-7J9 8,760 13, , " 11,170 9' 15' 2-1/4" 3' 1/4" 5' 11-3/4" 47-3/4" RWB 5-7K9 8,770 13, , " 11,180 9' 15' 2-1/4" 3' 1/4" 5' 11-3/4" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 27

28 Engineering Data & Dimensions RWB odels 5-3J12 to 5-7N12 5' 5/8" PAN VIEW 30-5/16 4 BFW FUID IN 1/2 FPT VENT 75 4 BFW FUID OUT 3-1/4 TYP. A 3 PT OVERFOW 5-1/4 8-3/4 2-5/8 4-7/8 U E H ACCESS ACCESS 20-1/8 79-3/4 2 PT DRAIN 20-7/8 5' 5/8" 13-5/ /4 1 PT AKE-UP Note: The number of coil connections doubles when the flow rate exceeds 450 gpm on 5x12 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions RWB Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A RWB 5-3J12 6,510 11, , " 8,360 6' 8-3/4" 18' 2-5/8" 3' 1/4" 3' 8-1/2" 19-1/2" RWB 5-3K12 6,530 11, , " 8,380 6' 8-3/4" 18' 2-5/8" 3' 1/4" 3' 8-1/2" 19-1/2" RWB ,540 11, , " 8,390 6' 8-3/4" 18' 2-5/8" 3' 1/4" 3' 8-1/2" 19-1/2" RWB ,560 11, , " 8,410 6' 8-3/4" 18' 2-5/8" 3' 1/4" 3' 8-1/2" 19-1/2" RWB 5-4J12 7,630 12, , " 9,850 7' 4-1/4" 18' 2-5/8" 3' 1/4" 4' 4" 27" RWB 5-4K12 7,640 12, , " 9,860 7' 4-1/4" 18' 2-5/8" 3' 1/4" 4' 4" 27" RWB ,650 12, , " 9,870 7' 4-1/4" 18' 2-5/8" 3' 1/4" 4' 4" 27" RWB ,670 12, , " 9,890 7' 4-1/4" 18' 2-5/8" 3' 1/4" 4' 4" 27" RWB 5-5K12 8,720 14, , " 11,310 7' 11-3/4" 18' 2-5/8" 3' 1/4" 4' 11-1/2" 34-1/2" RWB ,740 14, , " 11,320 7' 11-3/4" 18' 2-5/8" 3' 1/4" 4' 11-1/2" 34-1/2" RWB ,760 14, , " 11,350 7' 11-3/4" 18' 2-5/8" 3' 1/4" 4' 11-1/2" 34-1/2" RWB 5-5N12 9,090 14, , " 11,680 7' 11-3/4" 18' 2-5/8" 3' 1/4" 4' 11-1/2" 34-1/2" RWB ,750 15, , " 12,710 8' 7-1/4" 18' 2-5/8" 3' 1/4" 5' 7" 42" RWB ,770 15, , " 12,730 8' 7-1/4" 18' 2-5/8" 3' 1/4" 5' 7" 42" RWB 5-6N12 10,110 15, , " 13,060 8' 7-1/4" 18' 2-5/8" 3' 1/4" 5' 7" 42" RWB ,950 17, , " 14,280 9' 1" 18' 2-5/8" 3' 1/4" 6' 3/4" 47-3/4" RWB ,970 17, , " 14,300 9' 1" 18' 2-5/8" 3' 1/4" 6' 3/4" 47-3/4" RWB 5-7N12 11,300 17, , " 14,630 9' 1" 18' 2-5/8" 3' 1/4" 6' 3/4" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 28

29 Selections for RWB Closed Circuit Coolers are available from Evapco s ies Equipment Selection Program. Please contact your local sales representative for more information on the ies program. Engineering Data & Dimensions RWB odels 8-3J9 to 8-7O12 7' 10" 24-1/2 44-7/8 PAN VIEW (2) 4 BFW FUID IN (2) 1/2 FPT VENT /4 TYP. (2) 4 BFW FUID OUT 3 PT OVERFOW A 5-1/4 8-3/4 U E H ACCESS ACCESS 20-1/8 79-3/4 2 PT 2-5/ /8 DRAIN 137-3/4 4-1/4 34 For models 8-4K12 to 8-7O12 7' 10" 13-1/2 2 PT AKE-UP Note: The number of coil connections doubles when the flow rate exceeds 900 gpm on 8x9 and 8x12 models. This required option is referred to as the High Flow coil configuration. Weights (lbs.) Fans Spray Pump Coil Remote Sump Dimensions RWB Volume Gallons Conn. Operating Height ength ower Upper Coil odel Number Shipping Operating HP CF HP GP (Gallons) Required** Size Weight (lbs.) H E U A RWB 8-3J9 8,050 12, , " 9,630 6' 11-1/2" 15' 2-1/4" 3' 1/4" 3' 11-1/4" 19-1/2" RWB 8-3K9 8,110 12, , " 9,680 6' 11-1/2" 15' 2-1/4" 3' 1/4" 3' 11-1/4" 19-1/2" RWB ,120 12, , " 9,690 6' 11-1/2" 15' 2-1/4" 3' 1/4" 3' 11-1/4" 19-1/2" RWB ,140 12, , " 9,710 6' 11-1/2" 15' 2-1/4" 3' 1/4" 3' 11-1/4" 19-1/2" RWB 8-4J9 9,280 14, , " 11,220 7' 7" 15' 2-1/4" 3' 1/4" 4' 6-3/4" 27" RWB 8-4K9 9,330 14, , " 11,270 7' 7" 15' 2-1/4" 3' 1/4" 4' 6-3/4" 27" RWB ,340 14, , " 11,280 7' 7" 15' 2-1/4" 3' 1/4" 4' 6-3/4" 27" RWB ,360 14, , " 11,300 7' 7" 15' 2-1/4" 3' 1/4" 4' 6-3/4" 27" RWB 8-5K9 10,850 16, , " 13,210 8' 2-1/2" 15' 2-1/4" 3' 1/4" 5' 2-1/4" 34-1/2" RWB ,860 16, , " 13,220 8' 2-1/2" 15' 2-1/4" 3' 1/4" 5' 2-1/4" 34-1/2" RWB ,880 16, , " 13,240 8' 2-1/2" 15' 2-1/4" 3' 1/4" 5' 2-1/4" 34-1/2" RWB 8-4K12 11,260 18, , " 14,100 7' 7" 18' 2-5/8" 3' 1/4" 4' 6-3/4" 27" RWB ,270 18, , " 14,110 7' 7" 18' 2-5/8" 3' 1/4" 4' 6-3/4" 27" RWB ,300 18, , " 14,130 7' 7" 18' 2-5/8" 3' 1/4" 4' 6-3/4" 27" RWB 8-4N12 11,590 18, , " 14,410 7' 7" 18' 2-5/8" 3' 1/4" 4' 6-3/4" 27" RWB 8-4O12 11,640 18, , " 14,470 7' 7" 18' 2-5/8" 3' 1/4" 4' 6-3/4" 27" RWB ,930 20, , " 16,310 8' 2-1/2" 18' 2-5/8" 3' 1/4" 5' 2-1/4" 34-1/2" RWB ,950 20, , " 16,330 8' 2-1/2" 18' 2-5/8" 3' 1/4" 5' 2-1/4" 34-1/2" RWB 8-5N12 13,250 20, , " 16,620 8' 2-1/2" 18' 2-5/8" 3' 1/4" 5' 2-1/4" 34-1/2" RWB 8-5O12 13,300 20, , " 16,670 8' 2-1/2" 18' 2-5/8" 3' 1/4" 5' 2-1/4" 34-1/2" RWB ,530 22, , " 18,460 8' 10" 18' 2-5/8" 3' 1/4" 5' 9-3/4" 42" RWB 8-6N12 14,820 23, , " 18,740 8' 10" 18' 2-5/8" 3' 1/4" 5' 9-3/4" 42" RWB 8-6O12 14,870 23, , " 18,800 8' 10" 18' 2-5/8" 3' 1/4" 5' 9-3/4" 42" RWB ,380 25, , " 20,880 9' 3-3/4" 18' 2-5/8" 3' 1/4" 6' 3-1/2" 47-3/4" RWB 8-7N12 16,670 25, , " 21,170 9' 3-3/4" 18' 2-5/8" 3' 1/4" 6' 3-1/2" 47-3/4" RWB 8-7O12 16,720 25, , " 21,220 9' 3-3/4" 18' 2-5/8" 3' 1/4" 6' 3-1/2" 47-3/4" odel Number will end in -Z for units with Series Flow piping configuration. Series Flow units may require additional coil connections and will require crossover piping. odel numbers will include "C" for units with Stainless Steel coil(s), "I" for units with Intake Attenuation, "D" for units with Discharge Attenuation, "F" for units with Full Sound Attenuation, "T" for units with a Tapered Discharge Hood, and "S" for units with an option that negates CTI certification. ** Gallons shown is water in suspension in unit and piping. Allow for additional water in bottom of remote sump to cover pump suction and strainer during operation (12 would normally be sufficient). When a remote sump arrangement is selected, the spray pump, suction strainer and associated piping are omitted; the unit is provided with an oversized outlet to facilitate drainage to the remote sump. Unit dimensions and coil connections may vary slightly from catalog. See factory certified prints for dimensions, quantity of coil connections, and piping configuration. Coil connections are 4 bevel for weld (BFW). Other connection types such as grooved for mechanical coupling or flanged are also available as options. 29

30 OPTIONA EQUIPENT Pulse~Pure Water Treatment System The SWB and RWB are available with EVAPCO s optional Pulse~Pure non-chemical water treatment system. The Pulse~Pure Water Treatment System utilizes pulsedpower technology to provide CHEICA FREE Water Treatment and is an environmentally responsible alternative for treating water in evaporative cooled equipment. It does not release harmful by-products to the environment and eliminates costly chemicals completely from cooler drift and blowdown. The Pulse~Pure system delivers short, high-frequency bursts of low energy electromagnetic fields to the recirculating water in the SWB and RWB and will: Because ongoing water treatment service is an absolute requirement for any evaporative cooled system, each purchase of a Pulse~Pure Water Treatment System includes, as standard, a 1 year water treatment service and monitoring contract provided by your EVAPCO Representative EVAPCO s Pulse~Pure system offers SWB/RWB owners a single-source of responsibility for equipment, water treatment and service. Control Bacteria to evels Well Below ost Chemical Water Treatment Programs. Control the Formation of ineral Scale on Heat-Exchange Surfaces. Save Water by Operating at Higher Cycles of Concentration. Yield Corrosion Rates Equivalent to Chemical Water Treatment. ore benefits of offering EVAPCO s Pulse~Pure Water Treatment System on the new SWB/RWB are: Optional Pulse~Pure Factory ounting - Factory Installation of the Pulse~Pure System Guarantees Your Water Treatment is Installed to Factory Specifications. Integral Cutting Edge Conductivity Control and Blowdown Packages that are contained in a single feeder panel: Conductivity Control Package easures Conductivity Utilizing a Non-Fouling Torodial Probe and Features: One power connection of 120 volt or 460 volt is all that is required. USB port for downloadable 60 day audit trail of system operation. Self draining conductivity loop. otorized Blowdown Valve Standard for the most reliable operation in bleed control. Three-way valve operation provides good bleed flow without a standing column of water. 30

31 OPTIONA EQUIPENT Extended Surface Coil Closed Circuit Coolers can be provided with spiral fins on the heat exchanger coil to increase the dry performance of the unit. Dry performance is accomplished by rejecting heat to the atmosphere without the use of the spray pump and the evaporation process. Dry operation can be practical in cold climates and/or when reduced winter loads exist. The quantity of finned rows can be varied to optimize dry performance. See your local sales representative for more information. Electric Water evel Control Closed Circuit Coolers may be ordered with an electric water level control in lieu of the standard mechanical float and make-up assembly. This package provides accurate control of water levels and does not require field adjustment. Self Supporting Service Platform Some SWB Closed Circuit Coolers are available with selfsupporting service platforms that include access ladders which are designed for easy field installation. This option offers significant savings in comparison to field constructed, externally supported catwalks. The EVAPCO service platform option may be installed on either side, or the end opposite the connections. Screened Bottom Panels Protective inlet screens are provided on the sides and/or end of the unit s air intake. Screens are not provided below the fan section since most units are mounted on the roof or at ground level. It is recommended that bottom screens be added to the unit when it will be elevated. These screens can be provided by the factory at an additional cost or added by the installing contractor. Solid Bottom Panels for Ducted Installations When centrifugal fan units are installed indoors and intake air is ducted to the unit, a solid bottom panel is required to completely enclose the fan section and prevent the unit from drawing air from the room into the fan intakes. When this option is ordered, air inlet screens are omitted. STEE SUPPORT Steel Support The recommended support for EVAPCO Closed Circuit Coolers is structural I beams located under the outer flanges and running the entire length of the unit. ounting holes 3/4 in diameter are located in the bottom chanels of the pan section to provide for bolting to the structural steel. (Refer to certified drawings from the factory for bolt hole locations.) Beams should be level to within 1/360 of unit length, not to exceed 1/2 before setting the unit in place. Do not level the unit by shimming between it and the I beams as this will not provide proper longitudinal support. A 3' to 10' WIDE ODES Plan View B 3' to 10' WIDE ODES End Elevation Unit Footprint A1 (Unit Only) SWB Dimensions A2 (Unit with Intake Atten.) 4' x 6' 5' 11-7/8" 9' 11-5/8" 4' 5/8" 4' x 9' 8' 11-1/4" 9' 11-5/8" 4' 5/8" 4' x 12' 11' 11-1/2" 9' 11-5/8" 4' 5/8" 4' x 18' 18' 0" 9' 11-5/8" 4' 5/8" 5' x 12' 11' 11-1/2" 11' 4-1/2" 5' 5-3/8" 5' x 18' 18' 1/8" 11' 4-1/2" 5' 5-3/8" 8P' x 12' 11' 11-3/4" 13' 9" 7' 10" 8P' x 18' 18' 0" 13' 9" 7' 10" 8P' x 24' 24' 1" 13' 9" 7' 10" 8P' x 36' 36' 2-1/4" 13' 9" 7' 10" 10' x 12' 11' 11-5/8" 15' 8-3/4" 9' 9-3/4" 10' x 18' 18' 1/4" 15' 8-3/4" 9' 9-3/4" 10' x 24' 24' 3/4" 15' 8-3/4" 9' 9-3/4" 10' x 36' 36' 1-7/8" 15' 8-3/4" 9' 9-3/4" RWB Dimensions Coil Casing A1 A2 Footprint (Unit Only) (Unit with Intake Atten.) 3' x 6' 10' 1-7/8" 13' 9-5/8" 3' 4-1/2" 5' x 6' 12' 2-7/8" 15' 10-5/8" 5' 5/8" 5' x 9' 15' 2-1/4" 18' 10" 5' 5/8" 5' x 12' 18' 2-5/8" 21' 10-3/8" 5' 5/8" 8' x 9' 15' 2-1/4" 18' 10" 7' 10" 8' x 12' 18' 2-5/8" 21' 10-3/8" 7' 10" B B 31

32 SOUND REDUCING OPTIONS Sound Attenuation Packages The centrifugal fan design of the SWB and RWB models operate at lower sound levels which make these units preferable for installations where noise is a concern. For noise-sensitive applications, the SWB and RWB centrifugal fan models may be supplied with various stages of intake and/or discharge attenuation packages which greatly reduce sound levels. Oversized fan motors are required for many of these options in order to overcome the additional static pressure. Consult the factory for certified sound data for each sound attenuation option. Fan Side Inlet Attenuation (RWB Only) Reduces sound radiated from the fan side air intakes and has an open side to allow for air entry. This attenuation package ships loose to be mounted in the field on each side of the closed circuit cooler over the fan intakes. Fan End Inlet Attenuation Reduces sound radiated through the end air intakes. It consists of baffled panels that change the path of the air entry and capture the radiated noise thus reducing the overall sound levels generated. Solid bottom panels are included with this option to force the inlet air through the attenuator. Discharge Attenuation Straight Sided Discharge Attenuation (SWB and RWB) The discharge attenuation hood features a straight-sided design with insulated baffles to reduce the overall sound levels of the discharge air. The discharge attenuation incorporates a large access panel to allow entry to the drift eliminators and water distribution system. If a higher discharge velocity is required with minimal sound attenuation, a tapered discharge hood is available. Fan End Inlet Attenuation (SWB and RWB) Fan Side Inlet Attenuation (RWB Only) Example of RWB model 32

33 DISCHARGE & INTAKE ATTENUATION DIENSIONS SWB Discharge Attenuation Dimensions* Unit H1 1 W1 Weight per Number Footprint (in.) (in.) (in.) Hood (lbs.) of Hoods 4' x 6' 48-7/8" 71-5/8" 45-5/8" ' x 9' 48-7/8" 106-3/8" 45-5/8" ' x 12' 48-7/8" 143-1/8" 45-5/8" ' x 18' 48-7/8" 215-5/8" 45-5/8" 1, ' x 12' 48-7/8" 142-3/4" 62-1/8" 1, ' x 18' 48-7/8" 215-1/4" 62-1/8" 1, P' x 12' 73-1/4" 142-3/4" 93-7/8" 2, P' x 18' 73-1/4" 215-1/4" 93-7/8" 3, P' x 24' 73-1/4" 142-3/4" 93-7/8" 2, P' x 36' 73-1/4" 215-1/4" 93-7/8" 3, ' x 12' 73-1/4" 142-3/4" 117-5/8" 2, ' x 18' 73-1/4" 215-1/4" 117-5/8" 3, ' x 24' 73-1/4" 142-3/4" 117-5/8" 2, ' x 36' 73-1/4" 215-1/4" 117-5/8" 3,682 2 SWB Intake Attenuation Dimensions* Unit H2 2 W2 Weight per Number of Footprint (in.) (in.) (in.) Hood (lbs.) Attenuators 4' x 6' 38" 5' 11-7/8" 71" ' x 9' 38" 8' 11-1/4" 71" ' x 12' 38" 11' 11-1/2" 71" ' x 18' 38" 18' 0" 71" ' x 12' 44-1/2" 11' 11-1/2" 71" ' x 18' 44-1/2" 18' 0" 71" P' x 12' 79-3/4" 11' 11-5/8" 71" P' x 18' 79-3/4" 18' 0" 71" P' x 24' 79-3/4" 11' 11-5/8" 71" P' x 36' 79-3/4" 18' 0" 71" ' x 12' 87-1/4" 11' 11-3/4" 71" ' x 18' 87-1/4" 18' 1/4" 71" ' x 24' 87-1/4" 11' 11-3/4" 71" ' x 36' 87-1/4" 18' 1/4" 71" * Attenuation dimensions may vary slightly from catalog. See Factory certified prints for exact dimensions. 1 W1 DISCHARGE ATTENUATION ACCESS ACCESS IFTING DEVICES H1 IFTING DEVICES INTAKE ATTENUATION AIR INTAKE SIDE H2 ACCESS 2 W2 SWB Attenuation 33

34 DISCHARGE & INTAKE ATTENUATION DIENSIONS RWB Discharge Attenuation Dimensions* Coil Casing H1 1 W1 Weight per Number Footprint (in.) (in.) (in.) Hood (lbs.) of Hoods 3' x 6' 46-7/8" 71-3/4" 40-1/2" ' x 6' 46-7/8" 71-1/4" 60-5/8" ' x 9' 58-7/8" 107-1/4" 60-5/8" 1, ' x 12' 58-7/8" 143-5/8" 60-5/8" 1, ' x 9' 58-7/8" 107-1/4" 94" 1, ' x 12' 58-7/8" 143-5/8" 94" 2,030 1 RWB Fan End Attenuation Dimensions* Coil Casing H2 W2 2 Weight per Number of Footprint (in.) (in.) (in.) Hood (lbs.) Attenuators 3' x 6' 63-7/8" 40-1/2" 43-5/8" ' x 6' 79-5/8" 60-5/8" 43-1/2" ' x 9' 79-5/8" 60-5/8" 43-1/2" ' x 12' 79-5/8" 60-5/8" 43-1/2" ' x 9' 79-5/8" 94-1/4" 43-5/8" ' x 12' 79-5/8" 94-1/4" 43-5/8" RWB Fan Side Attenuation Dimensions* Coil Casing H3 W3 3 Weight per Number of Footprint (in.) (in.) (in.) Hood (lbs.) Attenuators 3' x 6' 33-5/8" 64-3/4" 34-3/4" ' x 6' 36-7/8" 84-7/8" 54" ' x 9' 36-7/8" 84-7/8" 54" ' x 12' 36-7/8" 84-7/8" 54" ' x 9' 42-3/8" 118-1/2" 44-1/8" ' x 12' 42-3/8" 118-1/2" 44-1/8" 60 2 * Attenuation dimensions may vary slightly from catalog. See Factory certified prints for exact dimensions. W1 1 DISCHARGE ATTENUATOR H1 ACCESS 3 IFTING DEVICES INTAKE ATTENUATOR H2 H3 END VIEW SIDE VIEW /8 W2 W3 28-1/2 12-1/8 END VIEW RWB Attenuation 34

35 FREEZE PROTECTION AND HEAT OSS Freeze Protection If the units are installed in a cold climate and operated year-round, freeze protection must be provided for the heat exchanger coil in the unit as well as for the recirculating water system. Recirculating Water System Freeze Protection Options Remote Sump Configuration The surest way to protect the recirculating water system from freezing is with a remote sump. The remote sump should be located inside the building and below the unit. When a remote sump arrangement is selected, the spray pump is provided by others and installed at the remote sump. All water in the closed circuit cooler basin should drain to the remote sump when the spray pump cycles off. Basin Heater Package If a remote sump configuration is not practical, electric basin heater packages are available to keep the pan water from freezing when the unit cycles off. Water lines to and from the unit, spray pump and related piping should be heat traced and insulated up to the overflow level to protect from freezing. The unit should not be operated dry (fans on, pump off) unless the basin is completely drained and the unit has been designed for dry operation. Consult the factory when dry operation is a requirement. SWB Basin Heater Sizing Unit Footprint kw (0 F) kw (-20 F) kw (-40 F) 4' x 6' (1) 2 (1) 3 (1) 4 4' x 9' (1) 3 (1) 4 (1) 5 4' x 12' (1) 3 (1) 5 (1) 7 4' x 18' (1) 5 (1) 7 (1) 9 5' x 12' (1) 4 (1) 6 (1) 8 5' x 18' (2) 3 (2) 4 (1) 12 8P' x 12' (1) 5 (1) 8 (1) 10 8P' x 18' (2) 4 (2) 6 (2) 7 8P' x 24' (2) 5 (2) 7 (2) 10 8P' x 36' (2) 7 (2) 12 (2) 15 10' x 12' (1) 7 (1) 10 (1) 15 10' x 18' (2) 5 (2) 7 (2) 10 10' x 24' (2) 7 (2) 10 (2) 15 10' x 36' (2) 10 (4) 7 (4) 9 Steam or Hot Water Coils Pan coils are available as an alternate to using electric basin heaters or a remote sump. Constructed of galvanized pipe and installed in the closed circuit cooler basin, they are supplied without controls and are ready for piping to an external steam or hot water source. Pan water heater controls should be interlocked with the water circulating pump to prevent their operation when the pump is energized. RWB Basin Heater Sizing Coil Casing Footprint kw (0 F) kw (-20 F) kw (-40 F) 3' x 6' (1) 2 (1) 3 (1) 4 5' x 6' (1) 3 (1) 5 (1) 6 5' x 9' (1) 4 (1) 6 (1) 8 5' x 12' (1) 6 (1) 8 (1) 12 8' x 9' (1) 7 (1) 9 (1) 12 8' x 12' (1) 9 (1) 12 (1) 16 35

36 FREEZE PROTECTION AND HEAT OSS Heat Exchanger Coil Freeze Protection Options The simplest and most foolproof method of protecting the heat exchanger coil from freeze-up is to use a glycol solution. If this is not possible, an auxiliary heat load must be maintained on the coil at all times so that the water temperature does not drop below 50 F when the cooler is shut down and, a minimum recommended flow rate per unit as shown in the table below must be maintained. Refer to Heat oss Data Table on page 37 for heat loss data. SWB inimim Flows for Freeze Protection inimum Flow for Freeze Unit Footprint Standard Unit Series Flow Unit (-Z) 4' x 6' ' x 9' ' x 12' ' x 18' ' x 12' ' x 18' P' x 12' P' x 18' P' x 24' P' x 36' ' x 12' ' x 18' ' x 24' ' x 36' RWB inimim Flows for Freeze Protection inimum Flow for Freeze Coil Casing Footprint Standard Unit Series Flow Unit (-Z) 3' x 6' ' x 6' ' x 9' ' x 12' ' x 9' ' x 12' If an anti-freeze solution is not used, the coil must be drained immediately whenever the pump is shut down or flow stops. Care must be taken to ensure that the piping is sized to allow the water to flow quickly from the coil. This method of freeze control should only be used in an emergency situation. Coils should not be drained for an extended period of time. eaving the coil drained and open to the atmosphere can cause corrosion inside the tubes which may lead to premature coil failure. The amount of glycol required for a system will depend upon the total volume of water in the closed loop and the winter ambient conditions for the installation. The Engineering Data Tables presented on pages provide the water volume contained inside the cooler coils to assist in this calculation. Discharge Hoods with Positive Closure Dampers When a closed circuit cooler is used in a water-to-air heat pump system or in certain process cooling applications, a method of reducing the heat loss during idle periods of wintertime operation may be required. For these cases, an optional discharge hood with positive closure dampers and damper actuator is available. The discharge hood with dampers is designed to minimize the heat loss from convective airflow through an idle cooler. Further reductions in heat loss may be obtained with the addition of insulation to the hood and casing, minimizing conductive heat losses. Insulation may be factory-installed on the hood and casing or field-installed by an insulation contractor. The discharge hood and dampers are constructed of hot-dip galvanized steel. Hoods are equipped with access panels to facilitate maintenance on the eliminators and water distribution system. The dampers, damper actuator and linkage are all factory-assembled. Actuator controls and wiring are field-supplied by others. Damper actuators require 120 volt power supply. The system control sequence should provide for dampers to be fully open before the fans are running and closed when the fans are off; the damper actuator must be interlocked with the temperature control system for this purpose. When a centrifugal fan model uses a tapered discharge hood, the next larger size fan motor must be used to overcome the additional static pressure. Heat loss data is provided for standard units without hoods, with hoods and with hoods and insulation. Table ratings are based on 50 F water in the coil, -10 F ambient and 45 PH winds (fan and pump off). IFTING DEVICES ACCESS H AIR INTAKE SIDE DAPER ACTUATOR Tapered Discharge Hood (See page 37 for dimensions) ACCESS DAPER ACTUATOR H AIR INTAKE SIDE W W IFTING DEVICES Straight-Sided Discharge Hood (See page 37 for dimensions) 36

37 HEAT OSS SWB Heat oss Data RWB Heat oss Data Standard Unit with With Hood SWB Unit Hood & Insulation odel (BH) (BH) (BH) 4-2x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x Standard Unit with With Hood SWB Unit Hood & Insulation odel (BH) (BH) (BH) 8-3x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x Standard Unit with With Hood RWB Unit Hood & Insulation odel (BH) (BH) (BH) 3-2x x x x x x x x x x x x x x x x x x x x x x x x x x x x DISCHARGE HOOD DIENSIONS SWB Tapered Discharge Hood Dimensions Unit Weight per Number Footprint H (in.) (in.) W (in.) Hood (lbs.) of Hoods 4' x 6' 28-1/8" 71-1/8" 23-3/4" ' x 9' 28-1/8" 106-1/2" 23-3/4" ' x 12' 28-1/8" 142-7/8" 23-3/4" ' x 18' 28-1/8" 215-5/16" 23-3/4" 1, ' x 12' 34-3/4" 142-7/8" 31-1/8" ' x 18' 34-3/4" 215-5/16" 31-1/8" 1, P' x 12' 37-7/8" 142-7/8" 47-3/4" 1, P' x 18' 37-7/8" 215-3/8" 47-3/4" 1, P' x 24' 37-7/8" 142-7/8" 47-3/4" 1, P' x 36' 37-7/8" 215-3/8" 47-3/4" 1, ' x 12' 45-5/8" 142-7/8" 60-1/8" 1, ' x 18' 45-5/8" 215-5/16" 60-1/8" 2, ' x 24' 45-5/8" 142-7/8" 60-1/8" 1, ' x 36' 45-5/8" 215-5/16" 60-1/8" 2,124 2 RWB Tapered Discharge Hood Dimensions Coil Casing Weight per Number Footprint H (in.) (in.) W (in.) Hood (lbs.) of Hoods 3' x 6' 24-3/8" 71-3/4" 19-1/8" ' x 6' 39-1/4" 71-3/4" 29-1/8" ' x 9' 39-1/4" 107-1/4" 29-1/8" ' x 12' 39-1/4" 143-5/8" 29-1/8" ' x 9' 42-1/2" 107-1/4" 44-3/8" ' x 12' 42-1/2" 143-5/8" 44-3/8" 1,110 1 SWB Straight-Sided Discharge Hood Dimensions Unit Weight per Number Footprint H (in.) (in.) W (in.) Hood (lbs.) of Hoods 4' x 6' 25-1/8" 71-1/8" 45-1/8" ' x 9' 25-1/8" 106-1/2" 45-1/8" ' x 12' 25-1/8" 142-7/8" 45-1/8" ' x 18' 25-1/8" 215-5/16" 45-1/8" ' x 12' 25-1/8" 142-7/8" 61-1/2" ' x 18' 25-1/8" 215-5/16" 61-1/2" 1, P' x 12' 25-1/8" 142-7/8" 93-1/4" 1, P' x 18' 25-1/8" 215-3/8" 93-1/4" 1, P' x 24' 25-1/8" 142-7/8" 93-1/4" 1, P' x 36' 25-1/8" 215-3/8" 93-1/4" 1, ' x 12' 25-1/8" 142-7/8" 117" 1, ' x 18' 25-1/8" 215-3/8" 117" 2, ' x 24' 25-1/8" 142-7/8" 117" 1, ' x 36' 25-1/8" 215-3/8" 117" 2,495 2 RWB Straight-Sided Discharge Hood Dimensions Coil Casing Weight per Number Footprint H (in.) (in.) W (in.) Hood (lbs.) of Hoods 3' x 6' 29-1/2" 71-3/4" 40-1/2" ' x 6' 29-1/2" 71-3/4" 60-5/8" ' x 9' 29-1/2" 107-1/4" 60-5/8" ' x 12' 29-1/2" 143-5/8" 60-5/8" ' x 9' 29-1/2" 107-1/4" 94" 1, ' x 12' 29-1/2" 143-5/8" 94" 1,

38 PRODUCT APPICATIONS Design EVAPCO Closed Circuit Coolers are of heavy-duty construction and designed for long trouble-free operation. Proper equipment selection, installation and maintenance is, however, necessary to ensure full unit performance. Some of the major considerations in the application of a cooler are presented below. For additional information, contact the factory. Air Circulation It is important that proper air circulation be provided. The best location is on an unobstructed roof top or on ground level away from walls and other barriers. Those closed circuit coolers located in wells, enclosures or adjacent to high walls must be properly located to avoid the problems associated with recirculation. Recirculation raises the wet bulb temperature of the entering air causing the water temperature to rise above the design. For these cases, the discharge of the unit should be located at a height even with the adjacent wall, thereby reducing the chance of recirculation. For additional information, see the EVAPCO Equipment ayout anual. Good engineering practice dictates that the closed circuit cooler discharge air not be directed or located close to or in the vicinity of building air intakes. Piping Cooler piping should be designed and installed in accordance with generally accepted engineering practices. The piping layout should be symmetrical on multiple unit systems, and sized for a reasonably low water velocity and pressure drop. The standard closed circuit cooler is recommended only on a closed, pressurized system. The piping system should include an expansion tank to allow for fluid expansion and purging air from the system. Note: Closed Circuit Coolers should never be used on an open type system. An open type system with a cooler may result in premature coil failure. The piping system should be designed to permit complete drainage of the heat exchanger coil. This will require a vacuum breaker or air vent to be installed at the high point and a drain valve installed at the low point of the piping system. Both must be adequately sized. All piping should be securely anchored by properly designed hangers and supports. No external loads should be placed upon the cooler connections, nor should any of the pipe supports be anchored to the cooler framework. Recirculating Water Quality Proper water treatment is an essential part of the maintenance required for evaporative cooling equipment. A well designed and consistently implemented water treatment program will help to ensure efficient system operation while maximizing the equipment s service life. A qualified water treatment company should design a site specific water treatment protocol based on equipment (including all metallurgies in the cooling system), location, makeup water quality, and usage. Bleed off Evaporative cooling equipment requires a bleed or blowdown line, located on the discharge side of the recirculating pump, to remove concentrated (cycled up) water from the system. Evapco recommends an automated conductivity controller to maximize the water efficiency of your system. Based on recommendations from your water treatment company, the conductivity controller should open and close a motorized ball or solenoid valve to maintain the conductivity of the recirculating water. If a manual valve is used to control the rate of bleed it should be set to maintain the conductivity of the recirculating water during periods of peak load at the maximum level recommended by your water treatment company. Water Treatment The water treatment program prescribed for the given conditions must be compatible with the unit s materials of construction, including any galvanized components. The initial commissioning and passivation period is a critical time for maximizing the service life of galvanized equipment. Evapco recommends that the site specific water treatment protocol includes a passivation procedure which details water chemistry, any necessary chemical addition, and visual inspections during the first six (6) to twelve (12) weeks of operation. During this passivation period, recirculating water ph should be maintained above 7.0 and below 8.0 at all times. Batch feeding of chemicals is not recommended. Control of Biological Contaminants Evaporative cooling equipment should be inspected regularly to ensure good microbiological control. Inspections should include both monitoring of microbial populations via culturing techniques and visual inspections for evidence of biofouling. Poor microbiological control can result in loss of heat transfer efficiency, increase corrosion potential, and increase the risk of pathogens such as those that cause egionnaires disease. Your site specific water treatment protocol should include procedures for routine operation, startup after a shut-down period, and system lay-up, if applicable. If excessive microbiological contamination is detected, a more aggressive mechanical cleaning and/or water treatment program should be undertaken. 38

39 SPECIFICATIONS Part 1 General 1.1 REATED DOCUENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 1 Specification Sections, apply to this section. 1.2 SUARY: A. This Section includes factory assembled and tested, closed-circuit forced-draft cooling tower (also known as a closed circuit cooler). 1.3 SUBITTAS A. General: Submit the following: 1. Certified drawings of the closed circuit cooler, sound data, recommended steel support indicating weight loadings, wiring diagrams, installation instructions, operation and maintenance instructions, and thermal performance guarantee by the manufacturer. 1.4 QUAITY ASSURANCE A. Verification of Performance: 1. Test and certify closed circuit cooler thermal performance according to CTI Standard Test and certify closed circuit cooler sound performance according to CTI ATC WARRANTY A. otor/drive System: Five (5) year comprehensive warranty against materials and workmanship including motor, fan, bearings, mechanical support, sheaves, bushings and belt. B. Unit: One (1) year from start-up, not to exceed eighteen (18) months from shipment on the unit. Part 2 Products 2.1 ANUFACTURERS A. anufactures: Subject to compliance with requirements, provide closed circuit cooler manufactured by one of the following: 1. EVAPCO, Inc. 2. Approved Substitute 2.2 ATERIAS A. Galvanized Sheet Steel casing and fan housing complying with AST A 653/A 653 and having G-235 designation. B. Optional Type 304 and/or 316 Stainless Steel as specified. 2.3 FORCED-DRAFT, COSED CIRCUIT COOER A. Description: Factory assembled and tested, forced draft closed circuit cooler complete with heat transfer coil, fan(s), fan screens, accessories, and rigging supports. B. Closed Circuit Cooler Characteristics and Capacities: Refer to the Closed Circuit Cooler schedule. C. Fan(s): 1. Type and aterial: forward curved, centrifugal of hot-dipped galvanized construction. The fans shall be factory installed, and statically and dynamically balanced for vibration free operation. 2. Fan Housing: The complete drive system, including the electric motor, belts, bearings, fan, and drives shall be completely enclosed in a protective housing which covers the drive system and provides sound reduction. 3. aximum sound pressure level of db(a) measured at 5 feet from the fan inlet during full speed operation in accordance with CTI Standard ATC-128. D. Water Distribution System: Non-corrosive materials. 1. Evenly distribute water over heat transfer coil with pressurized spray tree. a. Pipes: Schedule 40 PVC, Non-corrosive aterials b. Nozzles: Non-clogging, ABS Plastic, threaded into branch piping. 2. aximum pressure at inlet shall be psig. E. IBC Compliance: The unit structure shall be designed, analyzed, and constructed in accordance with the latest edition of the International Building Code (IBC) Regulations for seismic loads up to g and wind loads up to psf. F. Collection Basin aterial: Type 304 Stainless Steel (standard RWB, optional SWB) or Heavy Gauge G-235 Galvanized Steel (standard SWB, optional RWB) for long life and durability: 1. Removable Type 304 Stainless Steel strainer with openings smaller than nozzle orifices. 2. Joints: Bolted and sealed watertight. 3. Overflow, akeup and Drain connections: G-235 Galvanized Steel (PT and FPT). G. Casing: Heavy Gauge G-235 Galvanized Steel or Type 304 Stainless Steel (Optional): 1. Casing panels shall totally encase all sides of the heat transfer surface to protect it from direct exposure to environmental elements. All galvanized steel panel edges shall be coated with a 95% pure zinc compound during fabrication. 2. Fasteners: Corrosion resistance equal to or better than materials being fastened. 3. Joints: Sealed watertight. 4. Welded Connections: Continuous and watertight H. Heat Transfer Coil: Heavy Gauge G-235 Galvanized Steel encased in a steel framework with the entire assembly hot-dip galvanized after construction or Type 304 Stainless Steel (Optional). The coil assembly shall be completely enclosed and protected from sunlight exposure, environmental elements and debris. The tubes shall be sloped for free drainage of the coil and designed for low pressure drop. The coil shall be pneumatically tested at 400 psig under water. The coil connections shall be Beveled for Weld or Flanged (Optional) or Grooved (Optional). I. Drift Eliminators: PVC, for long life and durability resistant to rot, decay and biological attack; formed, bonded together for strength and durability in block format for easy removal and replacement; self extinguishing with flame spread rating of 5 per AST E84-81a; 0.001% drift rate. J. Water evel Control: Brass mechanical makeup water valve and plastic float with an adjustable linkage. K. Water Recirculation Pump: Close-coupled, centrifugal type with mechanical seal. The pump motor shall be horsepower totally enclosed for outdoor service on volts, hertz, and phase. 2.4 OTORS AND DRIVES A. General requirements for motors are specified in Division 23 Section otors. B. Enclosure Type: TEFC C. Fan otor Speed: Premium Efficient VFD Duty (Option: 2-speed) D. Drive: Power Band Belt designed for 150% of the motor nameplate HP. 1. Belt: V-belt type neoprene. 2. Sheaves: Steel, taper lock design. 3. Bearings: Heavy duty, self-aligning bearings with extended grease lines and fittings. 4. Fan Shaft: Solid steel shaft (RWB). Hollow shaft with forged bearing journals (SWB). 5. Vibration Cutout Switch (Optional): echanical switch to deenergize fan motors if excessive vibration in NEA 4 enclosure. 2.5 AINTENANCE ACCESS A. Access Door: A circular access door shall be located above the basin to allow for easy access to the pan interior. B. adders (Optional): Aluminum, vertical complying with 29 CFR SOUND ATTENUATION (OPTIONA) A. Inlet Attenuation: aterials to be same as fan section. Baffled panels shall change the path of air entry and capture radiated noise. External belt adjustment and lubrication points shall be provided. B. Discharge Attenuation: Straight-sided discharge hood with insulated baffles to reduce the overall sound level of the discharge air. A large access panel to allow access to the water distribution system and drift eliminators shall be provided. 39

40 EVAPCO PRODUCTS ARE ANUFACTURED WORDWIDE World Headquarters/ Research and Development Center EVAPCO Facilities EVAPCO North America EVAPCO, Inc. World Headquarters P.O. Box 1300 Westminster, D USA Phone: Fax: marketing@evapco.com EVAPCO East 5151 Allendale ane Taneytown, D USA Phone: Fax: marketing@evapco.com EVAPCO idwest 1723 York Road Greenup, I USA Phone: Fax: evapcomw@evapcomw.com EVAPCO West 1900 West Almond Avenue adera, CA USA Phone: Fax: contact@evapcowest.com EVAPCO Iowa 925 Quality Drive ake View, IA USA Phone: Fax: EVAPCO Iowa Sales & Engineering 1234 Brady Boulevard Owatonna, N USA Phone: Fax: evapcomn@evapcomn.com EVAPCO, Inc. World Headquarters & Research/ Development Center EVAPCO, Inc. P.O. Box 1300 Westminster, D USA PHONE: FAX: E-AI: marketing@evapco.com Refrigeration Valves & Systems Corporation A wholly owned subsidiary of EVAPCO, Inc Crosswind Dr. Bryan, TX USA Phone: Fax: rvs@rvscorp.com ccormack Coil Company, Inc. A wholly owned subsidiary of EVAPCO, Inc. P.O. Box S.W. akeview Boulevard ake Oswego, OR USA Phone: Fax: mail@mmccoil.com EvapTech, Inc. A wholly owned subsidiary of EVAPCO, Inc Nieman Road enexa, KS USA Phone: Fax: marketing@evaptech.com Tower Components, Inc. A wholly owned subsidiary of EVAPCO, Inc US HWY 64E Ramseur, NC Phone: Fax: mail@towercomponentsinc.com EVAPCO Newton 701 East Jourdan Street Newton, I USA Phone: Fax: evapcomw@evapcomw.com EVAPCO...SPECIAISTS IN HEAT TRANSFER PRODUCTS AND SERVICES. EVAPCO Europe EVAPCO Europe, N.V. European Headquarters Industrieterrein Oost Tongeren, Belgium Phone: (32) Fax: (32) evapco.europe@evapco.be EVAPCO Europe, S.r.l. Via Ciro enotti 10 I Passirana di Rho ilan, Italy Phone: (39) Fax: (39) evapcoeurope@evapco.it EVAPCO Europe, S.r.l. Via Dosso Piateda Sondrio, Italy EVAPCO Europe, GmbH Bovert 22 D eerbusch, Germany Phone: (49) Fax: (49) info@evapco.de Flex coil a/s A subsidiary of EVAPCO, Inc. Knøsgårdvej 115 DK-9440 Aabybro Denmark Phone: (45) Fax: (45) info@flexcoil.dk EVAPCO S.A. (Pty.) td. A licensed manufacturer of EVAPCO, Inc. 18 Quality Road Isando 1600 Republic of South Africa Phone: (27) Fax: (27) evapco@icon.co.za Tiba Engineering Industries Co. A licensed manufacturer of EVAPCO, Inc. 5 Al Nasr Road St. Nasr City, Cairo, Egypt Phone: (20) /(20) Fax: (20) / (20) manzgroup@tedata.net.eg Visit EVAPCO s Website at: EVAPCO Asia/Pacific EVAPCO Asia/Pacific Headquarters 1159 uoning Rd. Baoshan Industrial Zone Shanghai, P. R. China, Postal Code: Phone: (86) Fax: (86) marketing@evapcochina.com Evapco (Shanghai) Refrigeration Equipment Co., td ouning Rd., Baoshan Industrial Zone Shanghai, P.R. China, Postal Code: Phone: (86) Fax: (86) marketing@evapcochina.com Beijing EVAPCO Refrigeration Equipment Co., td. Yan Qi Industrial Development District Huai Rou County Beijing, P.R. China, Postal Code: Phone: (86) Fax: (86) evapcobj@evapcochina.com Evapco Australia (Pty.) td. A licensed manufacturer of EVAPCO, Inc elbourne St. P.O. Box 436 Riverstone, N.S.W. Australia 2765 Phone: (61) Fax: (61) sales@evapco.com.au EvapTech Asia Pacific Sdn. Bhd A wholly owned subsidiary of EvapTech, Inc. IOI Business Park, 2/F Unit 21 Persiaran Puchong Jaya Selatan Bandar Puchong Jaya, Puchong, Selangor, alaysia Phone: (60-3) Fax: (60-3) marketing-ap@evaptech.com 5/09-09/DGD ember CAA echanical Contractors Association of America 2009 EVAPCO, Inc.