GEOTHERMAL SOURCE HEAT PUMPS WATER-WATER
The heat energy can be taken from the
underground waters that are on temperature of 14 °C throughout the whole year. From a drilled well the water is brought into the heat exchanger in which one part of the underground water is transmitted into the ecological Freon which evaporates.
For 1kWh of used electric energy in the output you receive total heat energy of 3-4 kWh. Energy gained in such process is called geo-thermal energy. In common practice heat pumps are mainly used for cooling space and as well for heating water.
Partially cooled water returns to the second well which is the same deepness as the first well so in that way the flows of the underground water are not disturbed. The Freon which is now into gas condition is pressed via compressor and releases latent transferred heat to the water that circulates through the condensers and heat systems in buildings.
Heat pump WATER-WATER is exploited as a device that uses accumulated heat from the ground and with the help of electricity turns into heat energy for heating or cooling system, depending on the need.
The system functions by setting polyethylene
pipes in ground under depth of 1.2 to 1.5m. The distance between the pipes should be from 0.5-0.8m. The width of the pipes is determined based on the project. The heat pump in this system uses the antifreeze as a intermediary for transferring the ground heat.
If it is not possible to set up the geothermal collectors due to lack of space or if you need a system with higher effect than we recommend geothermal probes. In this case you drill holes in the ground hundreds of meters deep and than insert polyethylene pipes.
With the heat pumps you achieve large utilization by setting up horizontal collectors beneath the livestock manure that in winter period accumulates the needed temperature.
To increase the capacity, connect more pumps in one system.
Heat pump WATER-WATER have the possibility to use the energy from water and earth. Heat pump WATER-WATER is used to heat or cool: homes, apartment units, office space, green houses etc. These systems can be installed on existing central heating units for example wood, coal or gas.
Heat pump water-water takes its energy from water and transmits it also into water in a different place. When, as heat source we use groundwater which has the same temperature of 14 to 16 °C throughout the whole year, optimizing the parameters of the heat pump you achieve the maximum coefficient of economic effect throughout the year.
The heat energy can be taken from the
underground waters that are on temperature of 14 °C throughout the whole year. From a drilled well the water is brought into the heat exchanger in which one part of the underground water is transmitted into the ecological Freon which evaporates.
For 1kWh of used electric energy in the output you receive total heat energy of 3-4 kWh. Energy gained in such process is called geo-thermal energy. In common practice heat pumps are mainly used for cooling space and as well for heating water.
Partially cooled water returns to the second well which is the same deepness as the first well so in that way the flows of the underground water are not disturbed. The Freon which is now into gas condition is pressed via compressor and releases latent transferred heat to the water that circulates through the condensers and heat systems in buildings.
Heat pump WATER-WATER is exploited as a device that uses accumulated heat from the ground and with the help of electricity turns into heat energy for heating or cooling system, depending on the need.
The system functions by setting polyethylene
pipes in ground under depth of 1.2 to 1.5m. The distance between the pipes should be from 0.5-0.8m. The width of the pipes is determined based on the project. The heat pump in this system uses the antifreeze as a intermediary for transferring the ground heat.
If it is not possible to set up the geothermal collectors due to lack of space or if you need a system with higher effect than we recommend geothermal sonds. In this case you drill holes in the ground hundreds of meters deep and than insert polyethylene pipes.
With the heat pumps you achieve large utilization by setting up horizontal collectors beneath the livestock manure that in winter period accumulates the needed temperature.
To increase the capacity, connect more pumps in one system.
Type | FTPVD22 | FTPVD36 |
Code | 4200222 | 4200236 |
Power consumption | 5.26KW | 8.8KW |
Capacity heating | 22KW | 36KW |
Saved energy | 15.74 kW | 27.2 kW |
Cooling capacity | 16 kW | 26.4 kW |
Nominal power intensity | 10A | 18A |
Voltage | 380V – 50Hz | 380V – 50Hz |
Temperature of input water | 55oC | 55oC |
Protection degree | IPX4 | IPX4 |
Body | Stainless steel | Stainless steel |
Compressor | Coperland USA | Coperland USA |
Cooling gas | R404 A/2.9kg | R404 A/2.3kg |
Water flow | 3700L/H | 6500L/H |
Water pressure drop | 0.01-0.02 Mpa | 0.01-0.02 Mpa |
Max pressure of re-set valve | 2.8 Mpa | 2.8 Mpa |
Min. pressure of re-set valve | 0.08 Mpa | 0.08 Mpa |
Dimension LxWxH | 710X710X710mm | 1060X780X740mm |