Water Cooled Chiller System Manufacturer & Supplier 40HP 120kw Water to Water Cooled Chiller

A water-to-water cooled chiller can be used for pre-cooling in an ice machine system. This type of chiller utilizes water as both the cooling medium and the heat transfer medium. It works by circulating chilled water from the chiller to the ice machine, where it absorbs heat from the surrounding environment and the ice-making process.

Here's a basic overview of how the pre-cooling process works with a water-to-water chiller:

1. Chiller operation: The water-to-water chiller contains a refrigeration system that cools down the water circulating within the chiller. The cooling is achieved through the compression and expansion of refrigerant gases, which extract heat from the water and release it to the outside environment.

2. Water circulation: The chilled water from the chiller is then pumped to the ice machine's pre-cooling system. It is typically distributed through a network of pipes or a heat exchanger.

3. Heat absorption: The circulating chilled water absorbs heat from the ice-making process and the surrounding environment. This helps to lower the temperature and increase the efficiency of the ice machine.

4. Water return: After absorbing heat, the heated water is returned to the water-to-water chiller for cooling. The chiller removes the absorbed heat from the water, allowing it to be recirculated back to the ice machine for pre-cooling again.

By integrating a water-to-water chiller into an ice machine system, pre-cooling is achieved by continuously cycling the water between the chiller and the ice machine. This process helps to improve the ice production efficiency and maintain optimal operating conditions for the ice machine. It also reduces the load on the ice machine's own refrigeration system, resulting in energy savings and extended equipment lifespan.

The main parts of a package-type water-cooled water chiller typically include:

1. Compressor: The compressor is responsible for compressing the refrigerant vapor, raising its temperature and pressure.

2. Condenser: The condenser is a heat exchanger where the high-pressure, high-temperature refrigerant vapor releases heat and condenses into a liquid state when it comes into contact with the cool water circulating through the condenser.

3. Evaporator: The evaporator is another heat exchanger where the liquid refrigerant absorbs heat from the water or air being cooled. As the refrigerant absorbs this heat, it evaporates into a vapor state.

4. Expansion Valve: The expansion valve regulates the flow of refrigerant from the high-pressure side to the low-pressure side of the system, creating a pressure drop and allowing the refrigerant to evaporate and absorb heat efficiently in the evaporator.

5. Water Circulation System: The water circulation system includes pumps, pipes, and a water reservoir or cooling tower (if required) to constantly circulate the chilled water through the chiller's condenser and evaporator, facilitating the heat exchange process.

6. Control Panel: The control panel houses the electrical controls, sensors, and display interface for monitoring and controlling the chiller's operation. It allows users to set and adjust temperature parameters, monitor system performance, and ensure safe and efficient operation.

These components work together to extract heat from the water or air being cooled and transfer it to the surrounding environment through the water-cooled condenser. This process helps maintain the desired temperature of the chilled water or cooling medium in various industrial applications.

Specifications:
 

Water-cooled water chillers have a wide range of applications in various industries and processes where cooling is required. Some common applications include:

1. HVAC Systems: Water-cooled chillers are commonly used in building air conditioning systems to provide cooling for offices, commercial spaces, and residential complexes.

2. Industrial Processes: Water-cooled chillers are extensively used in industrial processes such as plastic injection molding, metalworking, chemical manufacturing, pharmaceutical production, food and beverage processing, and data centers. They help control the temperature of equipment and materials, ensuring efficient operation and product quality.

3. Power Generation: Water-cooled chillers are often employed in power plants to cool turbines, generators, and other equipment for efficient and reliable operation of the power generation process.

4. Refrigeration Systems: Water-cooled chillers are used in refrigeration systems for preserving perishable goods, such as in cold storage warehouses, food processing facilities, and supermarkets.

5. Medical and Laboratory Equipment: Water-cooled chillers are utilized to cool medical imaging machines, laboratory equipment, research instruments, and other precision equipment that require precise and stable temperature control.

6. Printing and Packaging: Water-cooled chillers play a vital role in maintaining the temperature of printing presses and packaging equipment, ensuring optimal performance and quality of printed materials.

7. Plastics and Rubber Industry: In manufacturing processes such as extrusion, blow molding, and thermoforming, water-cooled chillers are used to cool molds and maintain consistent temperature control during the production of plastic and rubber products.

8. Chemical and Petrochemical Industry: Water-cooled chillers are widely used in the chemical and petrochemical industry to cool reaction vessels, chemical reactors, and other equipment involved in chemical processes.

These are just a few examples of the many applications where water-cooled water chillers are employed. Their versatility, efficiency, and reliable cooling capabilities make them an essential component in various industries and processes.

FAQ:

Q1: Could you help us to recommend the model for our project?

A1: Yes, we have engineer to check the details and make the scheme for you. Based on the following:

1)Cooling capacity;

2)chilled water inlet and outlet temperature

3)chilled water flow

4) Refrigerant;

5) Ambient temperature;

6)Voltage;

7) Be used for what industry?

8)Any other special requirements

Q2: How to ensure your product with good quality?

A2: All our products with CE certificate. And use the well-know brand compressors and refrigeration accessories . All OUMAL Chillers are factory tested under load conditions to ensure good quality and easy installation for users.

Q3: What's the warranty?

A3: 15 months warranty for free if confirmed by both side damage in the quality reason.

Q4: What's your payment term?

A4: We accept T/T, LC, Western Union, etc. Normally, 30% deposit for production, 70% balance before shipment.

Q5: Are you a manufacturer?

A5: Yes, we have more than 15 years in water chiller business. Also have patent on the water chiller appearance .

The control box design make the unit safety and stably.

Q6: How can i Place an order

 A6: Send inquiry to us or Call us.