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HIPERS Water-Cooled Air Conditioner: Efficient and Powerful Cooling Solution
The HIPERS water-cooled air conditioner is a robust cooling system that uses water instead of air to exchange heat. This system is more energy-efficient than conventional air-cooled air conditioners and operates reliably in high-temperature environments, making it widely used in various commercial and industrial settings.
1. Versatile Applications
- HIPERS water-cooled air conditioners are ideal for large buildings, factories, data centers, shopping malls, hospitals, and more. They circulate water through cooling towers, keeping the cooling coils cold to efficiently cool indoor air. In this process, water acts as the cooling medium, reducing indoor temperatures through heat exchange with hot air.
2. High Energy Efficiency
- One of the main advantages of water-cooled air conditioners is their high energy efficiency. Water has a higher thermal conductivity than air, allowing it to absorb and release heat more effectively. This reduces energy consumption and operating costs. Additionally, water-cooled air conditioners can handle high thermal loads, making them especially useful in large facilities or high-temperature environments.
3. Quiet Operation
- The HIPERS water-cooled air conditioner operates quietly, making it an optimal choice for noise-sensitive environments. Compared to air-cooled systems, it has less noise from fans and compressors, maintaining a pleasant indoor environment. This is particularly beneficial for places like hospitals, libraries, and offices.
4. Easy Installation and Maintenance
- Water-cooled air conditioners are easy to install and maintain. The main components, including cooling towers, heat exchangers, and pumps, are easily accessible for regular inspections and cleaning. They are also available in various sizes and capacities, offering tailored solutions for specific applications and spaces.
5. Environmental Friendliness
- Environmental friendliness is another key feature of HIPERS water-cooled air conditioners. The system recycles water to conserve resources and minimizes the use of refrigerants, reducing greenhouse gas emissions. This is a significant advantage for companies and facilities aiming for sustainable operations.
DSCW - 350
Cooling: 12,704Btu/h
Covers Up: 33㎡
Power Consumption: 1,700W
Duct: 5"(Ø125) x 2
Dimension: 450x560x1120mm
Weight: 65kg
Refrigerant: R-410A
Power Supply: 1Ph, 220V, 50/60Hz, 7.7A
DSCW - 560
Cooling: 20,644Btu/h
Covers Up: 49㎡
Power Consumption: 2,500W
Duct: 5"(Ø125) x 2
Dimension: 560x620x1210mm
Weight: 85kg
Refrigerant: R-410A
Power Supply: 1Ph, 220V, 50/60Hz, 11.4A
DSCW - 650
Cooling: 24,614Btu/h
Covers Up: 59㎡
Power Consumption: 2,500W
Duct: 5"(Ø125) x 3
Dimension: 560x620x1210mm
Weight: 85kg
Refrigerant: R-410A
Power Supply: 1Ph, 220V, 50/60Hz, 11.4A
Accessory
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Duct Cover
A protective cover for the ductwork, preventing dust and debris from entering and ensuring efficient airflow.
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Connection Socket
A socket used to connect various components of the air conditioner system, ensuring secure and stable connections.
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Duct Base
The base or foundation of the duct system, providing support and stability for the ductwork.
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New Duct Base
An innovative solution designed to simplify the attachment of outlet ducts. It significantly reduces the complexity and time required for duct installation and maintenance.
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Flexible Duct
A flexible, bendable duct used to distribute air from the air conditioner to different areas or rooms, allowing for customizable airflow.
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Drain Pump
A pump used to remove condensate water collected by the air conditioner, ensuring proper drainage and preventing water damage.
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Vinyl Chloride Filter (for Evaporator)
A filter made of vinyl chloride material, used to trap and remove dust, dirt, and other particles from the air passing through the evaporator coil.
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Vinyl Chloride Filter (for Condenser)
This filter made of vinyl chloride material is used to capture debris and contaminants from the air passing through the condenser coil, ensuring efficient heat exchange.