800-624-3393

Evaporative Condensers

eco-ATC-A Evaporative Condenser

 

The eco-ATC-A line of evaporative condensers represents Evapco’s commitment to product development. The line is comprised of models ranging in size from 125 to 2,900 nominal ammonia tons (537 kW to 12,470 kW). The induced draft counterflow condensers are designed especially for easy maintenance and long, trouble-free operation.

eco-atc evaporative condenser EVAPCO distributed by Clark Johnson Co

   Design Features

     Maintenance Features

      Drive Systems

      Optional Equipment

        Unit Specifications

eco-ATC-A Evaporative Condenser - Design Features

 

The eco-ATC line of evaporative condensers represents EVAPCO’s newest advancement in thermal heat transfer research and development. Utilizing the Ellipti–fin™ heat transfer coil, the eco-ATC offers improved heat transfer during wet operation and offers significant water savings due to extended periods of dry operation.

 

eco-ATC-A Evaporative Condenser - Design Features Evaporative Mode  The refrigerant gas is discharged from the compressor into the inlet connection of the eco-ATC condenser. Water from the condenser’s sump is circulated over the condenser coil, while ambient air is simultaneously drawn into the unit. As the ambient air moves up through the coil section, a portion of the spray water is evaporated into the air stream. The evaporative process cools the spray water, which in turn cools the tubes containing the refrigerant gas. The cool tube walls cause the refrigerant gas to give up heat and condense into a liquid. The condensed liquid flows out of the coil to the high pressure liquid receiver for return to the system. The hot, saturated air is drawn through the drift eliminators, where any entrained water droplets are removed. The condenser’s fan then discharges this air stream out of the top of the unit at a high velocity, where it can dissipate  harmlessly into the atmosphere. The water which was not evaporated falls into the sump and is recirculated by the spray pump to the water distribution system above the condensing coil section.   Dry Mode The refrigerant gas is discharged from thecompressor into the inlet connection of the eco-ATC condenser. Ambient air is drawn into the unit and moves over the heat transfer coil. The air is warmed while the tubes containing the refrigerant gas are cooled. The cool tube walls cause the refrigerant gas to give up heat and condense into a liquid. The condensed liquid flows out of the coil to the high pressure liquid receiver for return to the system. The hot discharge air is drawn through the drift eliminators and then the fan then discharges the air stream out of the top of the unit where it can dissipate harmlessly into the atmosphere.Efficient Drift Eliminators An extremely efficient drift eliminator system is standard on the ATC evaporative condenser. The system removes entrained water droplets from the air stream to limit the drift rate to less than 0.001% of the recirculating water rate. With a low drift rate, the ATC Evaporative Condenser saves valuable water and water treatment chemicals. The ATC Evaporative Condenser can be located in areas where minimum water carryover is critical, such as parking lots. The drift eliminators are constructed of an inert polyvinyl chloride (PVC) plastic material which effectively eliminates corrosion of these vital components. They are assembled in sections to facilitate easy removal for inspection of the water distribution system.Superior Air Inlet Louver and Screen Design   The air inlet louver screens on the ATC are constructed of corrosion-free PVC. They are a two pass design that minimizes splashout and reduces the potential for algae formation inside the condenser. In single pass louver systems used by other manufacturers, circulating water droplets tend to splashout, especially when the fans are shut off. With the two pass louver system, the water droplets are captured on the inward sloping pass, minimizing splashout problems. This unique louver design completely encloses the basin area. Direct sunlight is blocked from the water inside the condenser, thereby reducing the potential of algae formation. Water treatment and maintenance costs are substantially reduced. While effectively containing the recirculating water and blocking sunlight, the louver design has a low pressure drop. The low pressure drop results in lower fan energy consumption, which reduces the operating costs of the condenser.Pressurized Water Distribution System  EVAPCO's Zero Maintenance ZMII® 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 ZMII® Spray nozzles have a 1-1/4" diameter opening and a 1-1/4" splash plate clearance. Furthermore, the fixed position ZMII® 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. The water distribution is designed to provide a minimum 6 GPM over each square foot (4 liters per second over each square meter) of unit plan area to ensure proper flooding of the coil.Principle of OperationEfficient DriftEliminatorsSuperior Air Inlet Louver and Screen DesignPressurized Water Distribution System

 

 

Maintenance Features

 

Designed for easy maintenance, the eco-ATC Closed Circuit Cooler leads the industry in service friendly features. The three most critical areas for closed circuit cooler maintenance are the basin, drive system, and coil. The eco-ATC basin section is designed to allow quick and easy access from outside the cooler. Just like the basin, all service to the drive system can be safely performed from the side of the cooler, and EVAPCO's Power-Band drive system is the easiest belt drive system to maintain in the industry! The exclusive Ellipti–fin™ Technology (Patent Pending) is designed for trouble-free maintenance and long life straight from the factory.

Drive Systems

 

The eco-ATC Evaporative Condenser features the highly successful EVAPCO POWER-BAND Belt Drive System engineered for heavy-duty operation. The POWER-BAND Drive System has consistently provided trouble-free operation in the most severe duty evaporative condenser applications.

 

Fan Motors

 

All ATC-DC Evaporative Condenser models utilize heavy duty totally enclosed (T.E.F.C. or T.E.A.O) fan motors designed specifically for evaporative condenser applications. In addition to the standard motors offered on each condenser, EVAPCO offers many optional motors to meet your specific needs, including:

 

  •     Premium Efficiency Motors
  •     Multi-Speed Motors
  •     Inverter-Ready Motors

 

8.5' (2,6 m) wide ATC-DC models feature T.E.F.C. motors are located on the outside of the unit, protected by a hinged, swing away cover. 12' (3,7 m) wide ATC-DC models have T.E.A.O. motors located inside the fan section on a heavy duty motor base which swings to the outside for repair or removal.

 

Fan Shaft Bearings

 

The fan shaft bearings on the ATC Evaporative Condenser are specially selected to provide long life, minimizing costly downtime. They are rated for an L-10 life of 75,000 to 135,000 hours, making them the heaviest duty pillow block bearing in the industry used for Evaporative Condenser duty.

 

Power-Band Belt Drive

 

The Power-Band drive is a solid-back multigroove belt system that has high lateral rigidity. The belt is designed for evaporative condenser service, and is constructed of neoprene with polyester cords. The drive belt is sized for 150 percent of the motor nameplate horsepower ensuring long and trouble free operation.

 

 

Drive System Sheaves

 

Drive system sheaves located in the warm, moist atmosphere inside the cooling tower are constructed of an aluminum alloy. Those located externally are protected by a hinged cover.

ATC-DC Evaporative Condenser - Optional Equipment

 

The standard design of the EVAPCO ATC-DC provides the customer with the most efficient and easiest Evaporative Condenser to maintain in the industry. There are additional options which can make maintenance easier, extend the life, or enhance the performance capabilities of the Evaporative Condenser. These options are listed below.

 

  •     Sloped Access Ladders
  •     Stainless Steel Basin
  •     Working Platform & Ladder with Davit
  •     Electric Water Level Control
  •     Electric Immersion Heaters
  •     Remote Sump Configuration
  •     Low Sound Solutions
  •     Pulse~Pure® Water Treatment System

 

ATC-DC Evaporative Condenser - Unit Specifications

 

Furnish and install, as shown on the plans, an EVAPCO model _________ induced draft, counterflow evaporative condenser with a condensing capacity of _________ MBH total heat of rejection when operating with _________ refrigerant at ______ °F condensing temperature at a design ______ ambient dry bulb temperature of ____ °F.

IBC 2012 Compliance

 

The condenser shall be designed and constructed to meet the International Building Code (IBC) specifications for installed components per ASCE. The manufacturer shall provide a certificate of compliance to demonstrate that the equipment/unit has been independently tested and certified in accordance with the IBC.

 

Basin and Casing

The basin and casing shall be constructed of G-235 hot-dip galvanized steel for long life and durability. Standard basin accessories shall include overflow, drain, type 304 stainless steel strainers, and brass make-up valve with plastic float.

 

 

Models eco-ATC-176-1g to 1011-1g

 

Fan Motor

_________ horsepower totally enclosed fan cooled motors with 1.15 service factor shall be furnished suitable for outdoor service on _________ volts, _________ hertz, and _________ phase. Motor(s) shall be mounted on an adjustable base which is accessible from the outside of the unit for service. A swing away protective cover shall shield the motor and sheave from the weather.

 

Drive

The fan drive shall be multigroove, solid back V-belt type with taper lock bushings designed for 150% of the motor nameplate horsepower. The belt material shall be neoprene reinforced with polyester cord and specifically designed for evaporative condenser service. Fan sheave shall be aluminum alloy construction. The fans and the fan sheaves shall be mounted on the shaft with a specially coated bushing to provide maximum corrosion protection. Belt adjustment shall be accomplished from the exterior of the unit. Bearing lube lines shall be extended to the exterior of the unit for easy maintenance.

 

Models eco-ATC-280-1g to 4086-1g

Fan Motor

_________ horsepower totally enclosed air over ball bearing fan motor(s), with 1.15 service factor shall be furnished suitable for service on _________ volts, _________ hertz, and _________ phase. Motor(s) shall be mounted on an adjustable base which allows the motor to swing to the outside of the unit for servicing.

 

 

Drive

The fan drive shall be a multigroove, solid back V-belt type with taper lock bushings designed for 150% of the motor nameplate horsepower. The belt material shall be neoprene reinforced with polyester cord and specifically designed for evaporative condenser service. Fan and motor sheaves shall be aluminum alloy construction. The fans and fan sheaves shall be mounted on the shaft with a specially coated bushing to provide maximum corrosion protection. Belt adjustment shall be accomplished from the exterior of the unit. Bearing lube lines shall be extended to the exterior of the unit for easy maintenance.

 

Axial Propeller Fans

Fans shall be heavy duty axial propeller type statically balanced. The fans shall be constructed of aluminum alloy or fiberglass reinforced polypropylene blades, installed in a closely fitted cowl with venturi air inlet. Fan screens shall be galvanized steel mesh and frame, bolted to the fan cowl.

 

Fan Shaft Bearings

Fan shaft bearings shall be heavy duty self-aligning ball type with grease fittings extended to the outside of the unit. Bearings shall be designed for a minimum L-10 life of 75,000 hours.

 

Water Recirculation Pump

The pump(s) shall be a close-coupled, centrifugal type with mechanical seal, installed vertically at the factory to allow free drainage on shut down. _________ horsepower totally enclosed motor(s) shall be furnished suitable for outdoor service on _________ volts, _________ hertz, and _________ phase.

 

 

Heat Transfer Coils

 

Dry Coil

Arid-fin Pak dry cooling coils shall be constructed of 5/8” diameter type 304L stainless steel round tubing with marine grade aluminum fins with a fin density of 10 fins per inch. Tubing shall be hydraulically expanded into the fin plate for consistent contact. Coil shall be pressure tested to 390 psig, evacuated and nitrogen charged prior to final assembly and shipment. Stainless steel tubing meets the requirements of ASME B31.5 of the refrigerant piping code.

 

Wet Coil

Ellipti-fin® condensing coils with standard elliptical tube design shall be all prime surface steel, encased in a steel framework and hot-dip galvanized after fabrication as a complete assembly. All coil rows shall be manufactured with elliptical extended surface fins designed with sloping tubes for liquid drainage and tested to 390 psig air under water, evacuated and nitrogen charged prior to final assembly and shipment. Carbon steel tubing meets the requirements of ASME B31.5 of the refrigerant piping code.

 

Water Distribution System

The system shall provide a water flow rate of 6 GPM over each square foot of unit face area to ensure proper flooding of the coil. The spray header shall be constructed of schedule 40 polyvinyl chloride pipe for corrosion resistance. All spray branches shall be removable for cleaning. Heavy-duty ABS spray nozzles with large 1-1/4” diameter opening and internal sludge ring to eliminate clogging. Nozzles shall be threaded into spray header to provide easy removal for maintenance.

Eliminators

The eliminators shall be constructed entirely of inert polyvinyl chloride (PVC) in easily handled sections. The eliminator design shall incorporate three changes in air direction to assure complete removal of all entrained moisture from the discharge air stream. Maximum drift rate shall be less than 0.001% of the circulating water rate.

 

Louvers

The louvers shall be constructed from polyvinyl chloride (PVC) and mounted in a rugged steel frame. The louvers shall be mounted in easily removable sections for access to the pan for maintenance. The louvers shall have a minimum of two changes in air direction to prevent splashout and block direct sunlight.

 

Finish

All basin and casing materials shall be constructed of G-235 heavy gauge mill hot-dip galvanized steel. During fabrication, all panel edges shall be coated with a 95% pure zinc-rich compound for superior protection against corrosion.

Clark Johnson Company, Inc.       2016