ut cooler tower evapco

Cooling Towers

UT Cooling Towers


Independently certified to withstand seismic and wind load forces at ALL Building locations in North America. The UT is an induced draft, counterflow design cooling tower with a CTI certified capacity range of 112 to 4,995 nominal tons (493 to 21,960 kW). Standard construction consists of G-235 (Z-725 Europe) galvanized steel with type 304 or 316 stainless steel available for the basin or the entire tower. The UT cooling tower comes standard with the SUPER Low Sound Fan.

Solutions for Sound Sensitive Applications


The NEW Ultra-quieT Cooling Tower comes standard with Super Low Sound Fan that reduces the overall sound generated from the top of the cooling tower. The Ultra-quieT provides deep sound reductions and can be used in combination with Water Silencers to produce the lowest sound levels commercially available.

The Super Low Sound Fan


9 – 15 dB(A) Reduction versus Model AT Standard Fan


EVAPCO’s Super Low Sound Fan on the Ultra-quieT tower utilizes an extremely wide chord blade design available for sound sensitive applications where the lowest sound levels are desired. The fan is one piece molded heavy duty FRP construction utilizing a forward swept blade design.

The Super Low Sound Fan reduces sound levels 9 to 15 dB(A) compared to the Model AT standard fan. 10 dB(A) decrease is half as loud!


The Ultra-quieT tower is better than half as loud as other fans! (refer to the Sound Basics section for more information on Sound) Improved Sound Quality Emitted Super Low Sound Fan on the Ultra-quieT Tower!


The SUPER Low Sound Fan on the Ultra-quieT tower reduces sound levels 9-15 dB(A) and eliminates audible blade passing frequencies indicative of straight bladed axial type fans. Refer to the Narrow Band Spectrum graph, which indicates straight bladed axial fans produce blade passing frequencies – the same phenomena that produce the signature pulsating helicopter noise. The blade passing frequencies are audible spikes in sound pressure levels, but are not apparent in the octave band sound spectrum.


The Super Low Sound Fan on the Ultra-quieT cooling tower reduced sound levels and betters the sound quality!

Design Features

Maintenance Features

Drive System

Optional Equipment

Unit Specification

UT Cooling Tower - Design Feature


The UT Cooling Tower product line is an Advanced Technology design which utilizes induced draft counterflow technology -the most efficient in the industry and the best design for operation in a freezing climate. The counterflow design provides the UT Cooling Tower with inherently better operational and maintenance features.


UT Cooling Tower - Maintenance Features


Designed for easy maintenance, the UT cooling tower leads the industry in service friendly features. The two most critical areas for cooling tower maintenance are the basin and the drive system. The UT basin section is designed to allow quick and easy access from outside the cooling tower. Just like the basin, all service to the drive system can be safely performed from the side of the cooling tower. This eliminates the need to stand in the cold water basin or add costly fan deck handrails and safety cages for routine service to the bearings, belts, or electrical equipment. Evapco's Power-Band drive system is the easiest belt drive system to maintain in the industry!



UT Cooling Tower - Drive System


The UT Cooling Tower 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 cooling tower applications.

Optional Equipment


The standard design of the EVAPCO UT provides the customer with the easiest cooling tower to maintain in the industry. There are additional options which can make maintenance easier and extend the life of the cooling tower. These options are listed below.


  •     Sloped Access Ladders
  •     Working Platform & Ladder with Davit
  •     Electric Heaters
  •     Electric Water Level Control
  •     Other Options

Unit Specification






1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 1 Specification Sections, apply to this section.


1.2 SUMMARY: A. This Section includes factory assembled and tested, open circuit, induced draft counterflow cooling tower.


1.3 SUBMITTALS A. General. Submit the following: 1. Certified drawings of the cooling tower, sound data, recommended steel support indicating weight loadings, wiring diagrams, installation instructions, operation and maintenance instructions, and thermal performance guarantee by the manufacturer.




A. Verification of Performance: 1


Test and certify cooling tower thermal performance according to CTI Standard 201.


2.Test and certify cooling tower sound performance according to CTI ATC-128.


B. Meet or Exceed energy efficiency per ASHRAE 90.1.




A. Motor/Drive System: Five (5) year comprehensive warranty against materials and workmanship including motor, fan, bearings, mechanical support, sheaves, bushings and belt.


B. Unit (AT & UT): One (1) year from start-up, not to exceed eighteen (18) months from shipment on the unit. C. Unit (USS): Five (5) year comprehensive warranty against materials and workmanship for complete unit.






A. Manufactures: Subject to compliance with requirements, provide cooling towers manufactured by one of the following:


1. EVAPCO, Inc.


2. Approved Substitute




A. Galvanized Sheet Steel complying with ASTM A 653/A 653M and having G-235 designation.


B. Optional Type 304 and/or 316 Stainless Steel as specified.




A. Description: Factory assembled and tested, induced draft counterflow cooling tower complete with fill, fan, louvers, accessories, and rigging supports.


B. Cooling Tower Characteristics and Capacities: Refer to the Cooling Tower schedule.


C. Fan(s):


1. Type and Material (AT & USS): Axial propeller, individually adjustable wide chord blade extruded aluminum installed in a closely fitted cowl with venturi air inlet for maximum efficiency, covered with a heavy gauge hot dipped Galvanized (AT) or Stainless Steel (USS) fan guard.


2. Type and Material(UT): Axial propeller, one piece heavy duty FRP hub and blade construction. Galvanized steel closely fitted fan cowl with venturi air inlet for maximum fan efficiency, covered with a heavy gauge hot dip galvanized steel fan guard. (Optional Type 304 stainless steel) 3. Maximum sound pressure level of _____dB(A) measured at 5 feet above the fan discharge during full speed operation in accordance with CTI Standard ATC-128.


D. Water Distribution System: Non-corrosive materials.


1. Evenly distribute of water over fill material with pressurized spray tree. a. Pipes: Schedule 40 PVC, Non-corrosive Materials b. Nozzles: Non-clogging, ABS Plastic, threaded into branch piping.


2. Maximum 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 Material: Galvanized Steel (AT/UT - Type 304 Stainless Steel Optional) or Type 316 Stainless Steel (USS):


1. Removable stainless-steel strainer with openings smaller than nozzle orifices.


2. Joints: Bolted and sealed watertight or welded.


3. Overflow, makeup and side drain connections


4. Flume plate between cells (for multiple-cell units) or Equalizer connection (for multiple-cooling-tower system).


G. Casing: Galvanized Steel (AT/UT) or Type 304 Stainless Steel (USS - Type 316 Stainless Steel Optional):


1. Casing panels shall totally encase the fill media to protect the fill from damage due to direct atmospheric contact.


2. Fasteners: Corrosion resistance equal to or better than materials being fastened.


3. Joints: Sealed watertight.


4. Welded Connections: Continuous and watertight


H. Fill Media: PVC; resistant to rot, decay and biological attack; formed, crossfluted bonded together for strength and durability in block format for easy removal and replacement; suitable for use as a working surface; self extinguishing with flame spread rating of 5 per ASTM E84-81a; able to withstand continuous operating temperature of 130�F; and fabricated, formed and installed by the manufacturer to ensure water breaks up into droplets.


I. Drift Eliminators: Same material as Fill. 0.001% drift rate.


J. Air Inlet Louver Screens: Formed PVC mounted in G-235 galvanized (or Type 316 stainless) steel frames for easy removal; designed "Sight Tight" to completely block direct sunlight from entering and water from splashing out of the cooling tower.


K. Water Level Control: Brass mechanical makeup water valve and plastic float with an adjustable linkage.




A. General requirements for motors are specified in Division 15 Section "Motors".


B. Enclosure Type: TEAO or TEFC


C. Motor Speed: Single Speed (Option: VFD Duty, 2-speed)


D. Drive: Power Band Belt designed for 150% of the motor nameplate HP.


1. Belt: Mutli-groove, solid back V-belt type neoprene reinforced with polyester cord.


2. Sheaves: Aluminum alloy if located inside the airstream.


3. Bearings: Heavy duty, self-aligning pillow block bearings with lubrication lines extended to side access door. Minimum L10 life for bearings shall be 75,000 hours. Provide extended grease lines and fittings.


4. Vibration Cutout Switch: Mechanical switch to de- energize fan motors if excessive vibration in NEMA 4 enclosure.




A. Internal Working / Service Platforms: Provide a complete internal working platform and ladder system for service of all drive components. A suitable working platform may be constructed of the fill media for counterflow cooling towers. If a crossflow tower is used, provide an internal walkway with ladder and elevated working platform to allow for service and maintenance to motor and drive assembly.


B. Handrails/Grabrails: Galvanized steel pipe complying with 29 CFR 1910.23. If access to fan deck is required, supply a perimeter handrail with ladder from grade to fan deck.


C. Ladders: Aluminum, sloped "ships type" with grabrail or vertical complying with 29 CFR 1910.27.





Clark Johnson Company, Inc.       2016