Inverter central hot water system for schools, hospitals, hotels

There are two common types of heat pumps today: air-to-water heat pump and water-to-water heat pump. Air-to-water heat pumps use outdoor air as a heating or cooling source, while water-to-water heat pumps use underground (water or geothermal) heat. Air-to-water heat pumps are the most economical and popular type in home and commercial applications.

The structure of a heat pump has 4 main parts.

– Kahawa heat exchanger (Heat exchange technology with anti-flow conduit pipes has higher heat generation efficiency than the conduit technology in the tank of other brands)

– Kahawa compressors use the world's leading brand compressors such as (Copeland, Panasonic, Hitachi with advanced technology achieving high durability and efficiency in the heat pump industry)

– Kahawa condenser has high density and is coated with anti-corrosion layer to prevent rust and salty and acidic environments.

– Kahawa throttle valve uses 4-way valve for efficiency, durability, safety and defrosting

How heat pump works

Heat pump, also known as "central water heater", is a machine that uses the principle of thermodynamics including 4 cycles:

-Evaporation stage (the heat carrier absorbs the ambient air temperature and heats up, evaporating into a warm gaseous heat carrier. The air loses heat and condenses into water on the evaporator.

-The compressor heats up the heatsink when a compressor force is applied to it.

– Condensing stage (the heat carrier when leaving the compressor is heated up to 100 degrees Celsius and enters the condenser, where it will transfer heat to the water to heat it up to the required temperature of 55 to 65 degrees Celsius and is led to the insulation tank to keep the temperature. 

-Expansion valve (after the heat carrier transfers heat to the hot water, it continues to pass through the expansion valve to form a closed loop.

Therefore, heat pump water heaters are the optimal solution to save energy for hot water needs of families or production facilities in hot and humid climates, such as Vietnam.

Clack total water softening system for hotels

Schematic drawing of hot water supply system for hotel

Hotel central hot water system

Video of installation and handover of Kahawa central clean water and hot water solution for the hotel

Video of actual installation of central water heater for hotel 

Central hot water system using Kahawa heatpump technology is currently popular and widely used because of its superiority such as saving from 70% to 80% of electricity compared to electric water heaters, high electrical safety, providing hot water with large demand, durable and stable.

With a central hot water system with a return line design - there is always hot water at the tap when needed without waiting time. Only 1 device is needed to provide hot water for the entire building.

Comparison table and calculation of electricity consumption costs for families

Advantages of central water heater

• Significantly save on equipment and fuel costs, minimize total power sources, backup power sources/generators, helping owners of motels, hotels, swimming pools, resorts, etc. quickly recover capital.
• Simple system installation and maintenance does not cause changes or affect the structure of the house.
• Absolutely safe, fast heating, large flow supply
• High performance and energy saving
• High durability, intelligent automatic operation –· Low operating costs for the system
• Simple, common & economical repair and maintenance

Heat pumps operate on the principle that heat will move from a place with high temperature to a place with low temperature. From there, the heat exchange core at low temperature will compare with the surrounding temperature and take heat from the surrounding environment, cooling the surrounding environment. Through the process of transferring heat to the surrounding environment, the heat exchanger will be heated to a temperature higher than the temperature of the environment.

The main components of a heat pump are the compressor, fan, evaporator, and condenser. The compressor requires electricity to compress and evaporate the refrigerant. The fan uses a small amount of electricity to continuously blow air across the condenser coil while the unit is running. The cost of electricity is the cost of electricity to operate the compressor and fan to collect free heat to heat the water.

Please contact experienced engineers for advice and quotes Hotline / Zalo: 0907 688 569

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