Dry Cooler

Your Professional Dry Cooler Supplier

 

Shenzhen Hylita Heat Exchange Equipment Co., Ltd. was established on July 2, 2015, located in Maluan Chuanggu Industrial Park, Jinlong Avenue, Shahu Community, Biling Street, Pingshan District, Shenzhen. The company focuses on the development and sales of refrigeration and heat exchange equipment technology, and also involves fields such as metal processing and component manufacturing.we have always been guided by meeting customer needs, continuously optimizing products and services, and gradually emerging as a promising enterprise in the field of heat exchange equipment.

 
 
Why Choose Us

Product Application

The products of Shenzhen Hylita Heat Exchange Equipment Co., Ltd. have a wide range of applications. In the field of chemical engineering, it is used for heating, cooling, and heat recovery of reaction materials to ensure efficient and stable production. In the energy industry, assisting power plant turbine cooling, waste heat recovery, and improving energy utilization efficiency. In terms of HVAC, regulate indoor temperature and humidity to create a comfortable space. In food processing, it is used for sterilization and cooling processes to ensure food safety. In the pharmaceutical process, precise temperature control is used to meet the stringent requirements of drug production.

Production Market

Our heat exchanger products are popular in multiple regions around the world, particularly in Southeast Asia where they are highly favored by customers in countries such as Indonesia, Malaysia, and Thailand. Due to the vigorous development of industry in Indonesia, the demand for heat exchangers has surged.

 

 

 

 

Our Service

Shenzhen Hylita Heat Exchange Equipment Co., Ltd. has established a full process service system to provide customers with professional and thoughtful support.

 

Our Factory

Shenzhen Hylita Heat Exchange Equipment Co., Ltd. is located in Guangdong, China, with a spacious factory of nearly 4000 square meters. There are currently 45 workers, and the annual production equipment requires over 20 million tons of metal materials.

 

 
Advantages of Dry Cooler
 
01/

Simplicity of construction, installation and start-up. It is evident from the description that these are machines that do not require special ancillary work to assemble (exclusive of grounding and necessary electrical and hydraulic connections).

02/

Low maintenance. The robust but simple design of dry coolers requires very little intervention, ensuring low operating costs in the long run.

03/

Air only. The operation of this technology requires nothing but outside air, as we have seen moved by one or more fans. Of course, this could translate into a limitation for those applications that require precisely lower fluid temperatures to cool than outside air.

04/

Low operating costs. This is of course an effect of the previous functional characteristics.

05/

Installation flexibility. Dry coolers can be installed outdoors or indoors, adapting to different plant layout requirements. Their modularity also makes them suitable for retrofitting existing plants.

06/

Versatility of operation. Systems with dry coolers can operate throughout the year, without problems referred to low surrounding temperatures.

 

Specification

 

Parameter

Detail

Modular Design

Scalable modules (50 kW – 5 MW per unit)

Fan Type

Redundant, hot - swappable variable - speed fans

Materials

Corrosion - resistant housing; high - conductivity heat exchanger core

Energy Savings

Up to 30% via variable - speed fan control

Protection Grade

IP55 (withstands harsh outdoor environments)

 

Types of Dry Cooler
 

Table-type dry coolers. A horizontally placed finned coil characterizes these systems with fans that draw air vertically. Industrial dry coolers and condensers with this layout have the typical flat configuration.

 

V-type dry coolers. They feature a V-shaped configuration formed by two inclined finned coils, with centrally positioned fans that draw in and push air through the coils.

 

Adiabatic dry coolers. This is a device in which air, during hot periods of the day and year, can be pre-cooled by cycles of wetting with water. This allows for greater efficiency, considering of course having to “manage” water.

Cooler Radiator Dry Cooler

Structure And Components Of Dry Coolers

 

Liquid Immersion Cooling Dry Cooler

Closed circuit with finned coils. The heart of the dry cooler is a closed circuit that contains/runs the process fluid that is to be cooled. This fluid flows within coils of tubes connected together (via welded bends) and inserted into a series of “fins,” which are thin plates that form a “finned pack” (finned coils).

 

Metal fins on the surface of the coil increase the heat exchange surface area with the air, maximizing cooling, that is, the transfer of fluid heat to the external environment. Materials, thicknesses and geometries of finned coils are defined according to the characteristics of the fluid to be cooled and specific requirements.

 

Fans. Powerful fans draw air from the environment and push it through the finned coils. The speed and airflow rate of the fans are critical to ensure effective cooling of the fluid.

 

Motor. Running the fans is one or more electric motors. Modern dry coolers use high-efficiency motors to reduce energy consumption and keep noise down.

 

Frame and structure. The frame and structure of the dry cooler must be weatherproof and provide protection for the internal components. They can be made of galvanized or painted steel to resist corrosion.

 

Applications of Dry Coolers
1

Industrial Processes

Dry coolers are widely used in industrial processes, such as chemical manufacturing, oil refining, and food processing. They provide efficient and reliable cooling for critical operations.

2

Data Centers

Dry coolers are employed in data centers to dissipate the heat generated by computer servers. They help maintain optimal temperatures for efficient and uninterrupted operation.

3

HVAC Systems

Dry coolers are utilized in HVAC systems for cooling buildings, hotels, hospitals, and commercial spaces. They provide efficient cooling while eliminating the need for water consumption and associated water treatment costs.

4

Power Generation

Dry coolers play a vital role in power plants, where they provide cooling for turbine condensers, generators, and transformer cooling systems.

 

Packaging & Logistics

Packaging

Protected with anti - scratch and shock - absorbing materials. Plates are separated to prevent damage during transit, and the frame is secured in a sturdy crate.

Delivery Time

7 - 17 working days after order confirmation, depending on customization (e.g., plate quantity, gasket material). Shipped via freight carriers suitable for industrial equipment.

 

FAQ

Q: Why use a dry cooler?

A: Dry coolers have numerous operational and financial advantages for various industrial cooling needs: Reduced energy consumption: No compressor or refrigerant cycle required. Lower operating costs: Fewer moving parts, minimal maintenance.

Q: What is the difference between a dry cooler and an air cooler?

A: The terms "dry cooler" and "air cooled" are often used interchangeably, but there is a subtle difference in their meaning: Dry Cooler: A dry cooler is a type of heat exchanger that uses ambient air to cool a fluid (typically water or glycol) without direct contact between the fluid and the ambient air.

Q: What is the temperature difference in a dry cooler?

A: Dry coolers have fans that pull air from the cooler's exterior to sustain the heat exchange process. A suitable temperature difference between the cooling medium and the air within the dry cooling system must be maintained to ensure efficient process cooling. A minimum difference of 5°C is usually enough.

Q: What is another name for a dry cooler?

A: Dry coolers are also often referred to as air coolers, due to their characteristic of operating solely with air as the carrier; the terms are therefore interchangeable. It is also not uncommon to read the term dry cooling system.

Q: How cold can you get a cooler with dry ice?

A: Around -109.3°F
Extreme Cold: Dry ice is around -109.3°F, compared to regular ice which can be up to 31°F, making it 3 to 4 times colder. Potential Hazards: Improper use can lead to oxygen displacement, explosions in airtight containers, or frostbite.

Q: How do you size a dry cooler?

A: The size and type of dry cooler you will need is determined by: the size of the heat load you are rejecting (ex. the number of miners x their power usage) your physical location (average temperatures and humidity, etc.)

We're professional dry cooler manufacturers and suppliers in China, providing high quality customized products with low price. We warmly welcome you to wholesale dry cooler for sale here from our factory.

Container Dry Cooler, Cooler Radiator Dry Cooler, Liquid Immersion Cooling Dry Cooler

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