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Working principle of ct turbo and using water as a coolant.

Our technology uses water as a working material, which is directly evaporated using our worldwide unique evaporation and cooling surfaces in a vacuum sealed system. The technology is based on the high-speed ct turbo compressors.

In the example shown above, water (via a bore well/groundwater) enters the system at a temperature of approximately 12°C (0).
A part of the water evaporates in vacuum at a pressure of about 12 mbar. The remaining part cools down to approximately 10°C (1). 
The energy-rich steam component (working material) is sucked in by ct turbo compressor I from the evaporator and its pressure is raised using electrical power (in this case to 36 mbar) (2).
The heat discharged at the time compressing (the steam) is absorbed at the intermediate cooling stage (2/3).
ct turbo compressor II (4) now raises the pressure of the steam further (in this case to 108 mbar). The steam condenses on a surface above cooler water (5) and raises its temperature (in this case to approximately 46 °C). The energy is transferred to the consumer components (process water, heating, air).