How Does A Geothermal Heat Pumps Work in Large Buildings?
The integration of commercial geothermal heat pumps in large buildings is becoming more and more popular, and it is easy to understand why. Geothermal heat pumps are environmentally friendly, they provide comfortable, reliable heat, and economic benefits mean that your building will reduce operating costs within decades. Fantastic as one of the largest commercial heat pump manufacturer, provide a different heating capacity of geothermal heat pump for heating and cooling.
How does A Geothermal Heat Pumps work in Large Buildings?
The principle of a commercial geothermal pump is simple: it transfers heat from one place to another through a cooling process. In commercial buildings, a series of heat pumps remove heat from the underground energy supply. The heat pump concentrates these low-level heat to increase its temperature, and then transfers it to the building's energy distribution system (usually radiant floor and fluid circulation fan coil) through a heat exchanger. In summer, the process is reversed. The heat pump collects heat from the building and deposits it into the ground loop to provide cooling. Compare with other commercial heat pump manufacturer, Fantastic will provide you the best solution for your heating and cooling system.
The 30KW-150KW is our best-selling commercial geothermal heat pump. The device is available in a variety of sizes and can be configured to precisely meet the needs of the building. We work closely with system designers to help create a heating and cooling system that will maintain optimal comfort, reduce operating costs, and require little maintenance. As a leading commercial heat pump manufacturer, Fantastic geothermal heat pump has long service life.
Geothermal heat pumps are highly efficient. In fact, they are the most efficient heating and cooling devices on the market today. This is because they simply transfer heat from one place to another instead of generating heat from fuel sources such as oil, natural gas, or electricity. For example, for every watt of electricity purchased, the electric heating system generates 1 watt of heat. On the other hand, the geothermal heat pump consumes 4.1 watts of heat energy into the building for every watt of electricity consumed. This means that the coefficient of performance (COP) of geothermal heat pumps is 4.1, while the coefficient of performance of electricity is 1. This efficiency will save you a lot of monthly utility costs.