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Cooling Tower

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Cooling Tower Specification

Refrigerating Capacity
14,00095,000 Kcal/hr

Material
FRP (Fibre Reinforced Plastic) Casing; G.I. Support Structure; PVC Fills

Application
HVAC, Industrial Water Cooling, Process Cooling

Air Flow
Centrifugal Fan; 1500070000 m/hr (varies by capacity)

Motor
Flange Mounted Electric Motor, 1.515 HP (as per model)

Condition
New

Type
Induced Draft, Cross Flow/Counter Flow Cooling Tower

Dimension (L*W*H)
1200 x 1200 x 1200 mm to 3400 x 3400 x 3300 mm (varies by capacity)

Power Supply
Three Phase

Voltage
380/415 V

Cooling Type
Water Cooled

Nozzle Material
Plastic (Polypropylene/ABS)

Cooling Coil Material
PVC or Galvanized Steel Fills

Water Flowing Rate
15100 m/hr

Water Pump Motor
0.510 HP (as per circulation requirement)

Noise Control
Low Noise Design, 6075 dB(A)

Compressor
Not Applicable (Cooling tower does not use a compressor)

About Cooling Tower

Leveraging on our years of experience and in-depth market knowledge, we are able to offer our customers with Cooling Tower. Designed to perfection, these units are made using quality components and material that are procured from the most trusted vendors of the market. Moreover, our Cooling Tower is acclaimed by the customers for its longer working life, low maintenance, less power consumption and easy operation.

Application areas:

Petrochemical and chemical industry
Oil refineries
Food and beverage industry

Other information:

Cooling Tower

The Cooling Towers are manufactured using FRP, wooden, hot dip galvanized SS or carbon steel material. Honey comb type fills or wooden flat type fills or triangular type fills or perforated angle type PVC.

Types:

Induced draft
Forced draft
Fan less - Atmospheric
Cross flow
Counter flow

Types of the fills are selected as per the temperature and quality of hot water. Air quantity and height of fills requirements are calculated according to Approach, Range and pressure drop/ saturation efficiency across fills.

Accurate design of the cooling tower can deliver required approach with diminished power consumption of pump motor and fan.

Cooling tower performance is measured by approach (difference between W. B. temperature and water outlet temperature) and NOT by range (difference between outlet and inlet water temperature). The range can be fixed by rate of water circulation and source of heat and NOT by cooling tower.

Cooling tower is not a type of Adiabatic cooling (evaporative cooling) system. The enthalpy of air is increasing in cooling tower and enthalpy of water is decreased by mass and heat transfer process. Evaporating water carries a part of the total heat transfer.

Efficient Axial Flow Cooling Tower Design

This tower utilizes an axial flow fan system paired with aluminium alloy or FRP blades to deliver high-volume airflow (15,00070,000 m/hr), ensuring rapid, uniform cooling. The design emphasizes efficient heat transfer through PVC honeycomb fills and minimal water loss with advanced PVC/PP drift eliminators. Suitable for operations at water temperatures up to 55C, it stands out for industrial and commercial facilities demanding robust cooling.

Durable & Corrosion-Resistant Construction

A hot dip galvanized steel frame and UV-stabilized FRP casing provide superior durability and corrosion resistance, crucial for outdoor and rooftop deployments. These materials maintain structural integrity even under harsh weather conditions. Rust-proof components and specially coated structures reduce long-term maintenance and prolong the cooling towers service life.

Low Maintenance & Reliable Operation

Maintenance is streamlined through a manhole access point and a non-clogging sprinkler or pipe water distribution system. The fill packs are easily removed for cleaning, supporting uninterrupted operation and lowering downtime. With noise levels between 6075 dB(A), this cooling tower maintains a comfortable environment, making it suitable for sites where noise control is important.

FAQs of Cooling Tower:

Q: How does the axial flow fan enhance cooling tower performance?

A: The axial flow fan in this cooling tower provides high airflow with lower energy consumption. This design ensures uniform air distribution across the fills, resulting in efficient heat transfer and consistent cooling, which is particularly effective for large-capacity water cooling applications.

Q: What materials are used to ensure durability and corrosion protection?

A: The cooling tower utilizes a hot dip galvanized steel frame, UV-stabilized FRP casing, and rust-proof components to offer premium durability against weather and corrosive environments, making it suitable for outdoor or rooftop installations.

Q: When should maintenance be performed on this cooling tower?

A: Routine maintenance should be carried out every few months, depending on usage and environmental factors. The design includes a manhole for easy accessinlet fills and drift eliminators are user-friendly and can be removed for inspection and cleaning to help maintain optimal performance.

Q: Where is the recommended installation location for this cooling tower?

A: This cooling tower is designed for outdoor or rooftop installation. It can be mounted on an RCC slab or a steel structure, making it versatile for use in industrial, commercial, or residential buildings requiring effective water cooling.

Q: What is the process for cleaning and maintaining the fill packs?

A: The fill packs are designed for easy removal. During maintenance, simply access the tower through the manhole, extract the fill packs, clean, and reinstall them. The non-clogging sprinkler or pipe network also minimizes maintenance intervals by reducing scale buildup.

Q: How is water loss minimized in this cooling tower?

A: The tower incorporates advanced PVC/PP drift eliminators, which capture water droplets carried by air flow, thus reducing drift and water loss. This feature is particularly beneficial for maintaining efficiency and conserving water resources.

Q: What are the primary benefits of using this cooling tower in HVAC and industrial applications?

A: Primary benefits include energy-efficient cooling, reduced water loss, low operational noise, corrosion resistance, and user-friendly maintenanceall contributing to increased reliability and longevity in demanding HVAC and industrial cooling processes.

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