Heat pumps

The heat pump is responsible for transferring heat energy to or from the outside air. It is an integral part of the Hombee Air system.

The task of the air source heat pump in the Hombee Air system is to collect heat from the outside air (even at low temperatures), transfer it to the refrigerant, whose temperature rises in the compression process, and then transfer the heat from the compression reaction to the air in the ventilation unit, from where the heated air will go to the rooms of your house. The reverse reactions occur in the cooling process.

The heat pumps selected for the Hombee Air system maintain 100 percent ability to operate reliably in extremely low temperatures reaching minus 20 degrees Celsius. This means that they do not need to activate additional heaters to heat the air, which generate high energy consumption and high bills. They maintain the same effectiveness during heat waves, when there is a need to quickly cool the air inside the building.

Efficiency

To ensure 100% pump operation on the coldest days without the need to activate additional heaters, we rely exclusively on devices with a wide range of outdoor operating temperatures (down to -20 °C).

Energy Efficiency

One of the basic conditions for selecting heat pumps in the Hombee Air system are the SCOP and SEER coefficients, so that their use is associated with the lowest possible operating costs.

R32

For the sake of the natural environment, the Hombee Air system is based exclusively on devices with the R32 refrigerant, which is easy to obtain and has little impact on nature.

Details
Seasonal Coefficient of Performance (SCOP)

The higher the SCOP, the less electricity is needed to heat the house. The value of the coefficient may vary depending on the outside temperature - it is usually lower when it is very cold outside. For example, if the COP is 3, it means that for every unit of electricity the pump uses, it delivers four units of heat.

Seasonal Energy Efficiency Ratio (SEER)

The higher the SEER, the less electricity the heat pump uses to cool the house. For example, if a pump has an EER of 4, it means that for every unit of electricity it uses, it delivers four units of cooling.

100% Operating remperature range

One of the most important parameters of a heat pump is its ability to operate in extreme temperatures. If your heat pump loses 100% efficiency at an outside temperature of -10, it means that it will have to activate additional heaters to heat the air or water, and this means very high electricity bills.

Specification
Mitsubishi heat pumps
ModelCooling capacity [kW]Heating capacity [kW]SEER/SCOPOperating temperature range (Cooling) [°C]Operating temperature range (Heating) [°C]Air flow rate [m³/h]
ZM35VKA23.6 (1.6-4.5)4.1 (1.6-5.0)6.2/4.1-15 ÷ +46-11 ÷ +212700
ZM50VKA25.0 (1.0-5.2)5.0 (2.5-5.5)6.2/4.1-15 ÷ +46-10 ÷ +242700
ZM60VHA26.1 (2.7-6.5)7.0 (2.8-8.2)7.2/4.6-15 ÷ +46-20 ÷ +213300
ZM71VHA27.3 (3.3-8.1)8.0 (3.5-10.2)7.6/4.8-15 ÷ +46-20 ÷ +213300
ZM100YKA29.5 (4.9-11.4)11.2 (4.5-14.0)7.5/4.8-15 ÷ +46-20 ÷ +216600
ZM125YKA212.5 (5.5-14.0)14.0 (5.0-16.0)7.2/4.7-15 ÷ +46-20 ÷ +217200
ZM140YKA213.4 (6.2-15.0)16.0 (5.7-18.0)6.9/4.6-15 ÷ +46-20 ÷ +217200
ZM200YKA219.0 (9.2-22.4)22.4 (7.1-25.0)5.7-3.6-15 ÷ +46-20 ÷ +218400
ZM250YKA222.0 (9.9-27.0)27.0 (7.3-31.0)5.3-3.5-15 ÷ +46-20 ÷ +218400
Haier heat pumps
ModelCooling capacity [kW]Heating capacity [kW]SEER/SCOPOperating temperature range (Cooling) [°C]Operating temperature range (Heating) [°C]Air flow rate [m³/h]
1U35S2SM1FA-23,5 (1,0-4,0)4,2 (1,0-5,2)8,5/4,75-20 ÷ +43-20 ÷ +242400
1U50S2SJ2FA-25,0 (1,4-5,5)6,0 (1,4-6,9)6,6/4,3-20 ÷ +43-20 ÷ +243000
1U71S2SR2FA7,0 (2,2-7,5)8,0 (2,4-8,5)7,1/4,0-20 ÷ +43-20 ÷ +243000
1U125S2SN2FA12,3 (3,0-13,0)12,7 (3,5-13,5)5,86/3,97-20 ÷ +43-20 ÷ +244200
1U140S2SN1FA13,4 (3,5-14,0)15,0 (4,0-15,5)5,92/3,97-20 ÷ +43-20 ÷ +244200
1U160S2SP1FB16,0 (4,5-16,5)17,0 (5,0-18,0)6,06/4,06-20 ÷ +43-20 ÷ +247400