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THE BENEFITS OF HEAT PUMPS FOR BUSINESSES
For every kWh of electricity consumed to power it, a heat pump produces roughly 4 kWh of energy, making them 300–400% more efficient than electric heating alone.
There is little question that large savings may be gained, even if the cost of installing something like an Air Source Heat Pump would vary depending on the size and complexity of the business facilities.
Of course, there will be an upfront cost that, depending on the size of your property and business, may be prohibitive, and it will take some time before you start saving money as you pay off the investment. However, once the break-even point has been reached, there is potential for significant savings and a good ROI. Additionally, you must confirm that heat pumps may be installed on your business property. For instance, in order to fit the external unit for an air source heat pump, you will need a sufficient exterior wall or flat roof area.
Solareast well-designed commercial heat pump system is more than capable of meeting all of a company's heating requirements and, over time, will save the company money due to lower energy costs.
INTELLIGENT THERMAL
Solareast heat pump works well even at temperatures as low as -30℃.
HEAT PUMPS FOR INDUSTRIAL AND COMMERCIAL BUILDINGS
Many companies are beginning to consider heat pumps as a long-term, cost-effective option for heating a busy workplace as they work to decrease their carbon footprint and energy costs. A company or home without a gas supply might make and save several thousand dollars annually by using an air source heat pump.
In essence, heat pumps transfer heat from one location to another. The most common form is an air source heat pump, which moves ambient heat from the air outside your property into your home where it may be utilized for underfloor heating, radiators, or to maintain a supply of hot water at a higher temperature. Other types of heat pumps employ water or the earth as a plentiful source of free heat, but the basic idea remains the same.
Large heat pumps are being utilized in more and more commercial and non-residential buildings, such as offices, malls, sports arenas, and schools. According to estimates, commercial heating alone may contribute to 40% of CO2 emissions, thus many firms place discovering new and creative ways to heat their facilities at the top of their priority lists.
WIDE RANGE OF APPLICATIONS
The heating and cooling needs of various buildings, including villas, homes, industries, hotels, hospitals, spas, sauna facilities,
greenhouses, flower gardens, farms, etc., might be satisfied by these EVI low-temperature heat pumps.
OUTSTANDING RELIABILITY
Fast cooling, heating and precise temperature control and durable construction, Anti-corrosion treatment as optional, Reliable scroll compressor, Multi-protection design.
THE BENEFITS OF HEAT PUMPS FOR BUSINESSES
For every kWh of electricity consumed to power it, a heat pump produces roughly 4 kWh of energy, making them 300–400% more efficient than electric heating alone.
There is little question that large savings may be gained, even if the cost of installing something like an Air Source Heat Pump would vary depending on the size and complexity of the business facilities.
Of course, there will be an upfront cost that, depending on the size of your property and business, may be prohibitive, and it will take some time before you start saving money as you pay off the investment. However, once the break-even point has been reached, there is potential for significant savings and a good ROI. Additionally, you must confirm that heat pumps may be installed on your business property. For instance, in order to fit the external unit for an air source heat pump, you will need a sufficient exterior wall or flat roof area.
Solareast well-designed commercial heat pump system is more than capable of meeting all of a company's heating requirements and, over time, will save the company money due to lower energy costs.
INTELLIGENT THERMAL
Solareast heat pump works well even at temperatures as low as -30℃.
HEAT PUMPS FOR INDUSTRIAL AND COMMERCIAL BUILDINGS
Many companies are beginning to consider heat pumps as a long-term, cost-effective option for heating a busy workplace as they work to decrease their carbon footprint and energy costs. A company or home without a gas supply might make and save several thousand dollars annually by using an air source heat pump.
In essence, heat pumps transfer heat from one location to another. The most common form is an air source heat pump, which moves ambient heat from the air outside your property into your home where it may be utilized for underfloor heating, radiators, or to maintain a supply of hot water at a higher temperature. Other types of heat pumps employ water or the earth as a plentiful source of free heat, but the basic idea remains the same.
Large heat pumps are being utilized in more and more commercial and non-residential buildings, such as offices, malls, sports arenas, and schools. According to estimates, commercial heating alone may contribute to 40% of CO2 emissions, thus many firms place discovering new and creative ways to heat their facilities at the top of their priority lists.
WIDE RANGE OF APPLICATIONS
The heating and cooling needs of various buildings, including villas, homes, industries, hotels, hospitals, spas, sauna facilities,
greenhouses, flower gardens, farms, etc., might be satisfied by these EVI low-temperature heat pumps.
OUTSTANDING RELIABILITY
Fast cooling, heating and precise temperature control and durable construction, Anti-corrosion treatment as optional, Reliable scroll compressor, Multi-protection design.
Model No. | DLN-050TA1 | DLN-100TA1 | DLN-200TA1 | DLN-400TA1 |
Power Supply | 380V~415V/3/50Hz | |||
Heating Capacity at Air 7℃/6℃, Water 30℃ in, 35℃ out | ||||
Heating Capacity(KW) | 45 | 90 | 180 | 350 |
Power Input(KW) | 10.3 | 20.8 | 42.0 | 81.4 |
COP | 4.36 | 4.32 | 4.25 | 4.30 |
Heating Capacity at Air 7℃/6℃, Water 50℃ in, 55℃ out | ||||
Heating Capacity(KW) | 36 | 67 | 167 | 328 |
Power Input(KW) | 15.5 | 25.48 | 56.7 | 113.9 |
COP | 2.32 | 2.63 | 2.95 | 2.88 |
Heating Capacity at Air -12℃/-14℃, Water 50℃ in, 55℃ out | ||||
Heating Capacity(kW) | 24 | 40 | 107 | 205 |
Power Input(kW) | 15.4 | 25.0 | 54.0 | 104.6 |
COP | 1.55 | 1.60 | 1.98 | 1.96 |
Cooling Capacity at Air 35℃/24℃, Water 12℃ in, 7℃ out | ||||
Cooling Capacity(KW) | 30 | 60 | 140 | 268 |
Power Input(KW) | 11.9 | 22.9 | 43.8 | 87.9 |
EER | 2.53 | 2.62 | 3.19 | 3.05 |
Max Power Input(KW) | 16.8 | 36.5 | 70.1 | 145.0 |
Max Current(A) | 31.5 | 63.3 | 132.5 | 260.0 |
Compressor quantity | 1 | 2 | 2 | 4 |
Expansion Valve | Saginomiya/EEV | Saginomiya/EEV | Danfoss/EEV | Danfoss/EEV |
Air Flow Direction | Vertical | Vertical | Vertical | Vertical |
Water Flow Volume(m³/h) | 8.0 | 16.0 | 32 | 60 |
Water Pressure Drop | 50kPa | 50kPa | 48kPa | 50kPa |
Dimensions(L*W*H)(mm) | 1252*1076*1870 | 2198*1096*2176 | 2300*1150*2400 | 2800*2200*2450 |
Working temperature range(℃) | -30~48 | |||
Noise(dB(A)) | ≤62 | ≤67 | ≤70 | ≤76 |
IP class | IPX4 | IPX4 | IPX4 | IPX4 |
Net Weight(kg) | 450 | 800 | 1330 | 2186 |
Water connection | DN 40 | DN 50 | Flange DN 80 | Flange DN 100 |
Model No. | DLN-050TA1 | DLN-100TA1 | DLN-200TA1 | DLN-400TA1 |
Power Supply | 380V~415V/3/50Hz | |||
Heating Capacity at Air 7℃/6℃, Water 30℃ in, 35℃ out | ||||
Heating Capacity(KW) | 45 | 90 | 180 | 350 |
Power Input(KW) | 10.3 | 20.8 | 42.0 | 81.4 |
COP | 4.36 | 4.32 | 4.25 | 4.30 |
Heating Capacity at Air 7℃/6℃, Water 50℃ in, 55℃ out | ||||
Heating Capacity(KW) | 36 | 67 | 167 | 328 |
Power Input(KW) | 15.5 | 25.48 | 56.7 | 113.9 |
COP | 2.32 | 2.63 | 2.95 | 2.88 |
Heating Capacity at Air -12℃/-14℃, Water 50℃ in, 55℃ out | ||||
Heating Capacity(kW) | 24 | 40 | 107 | 205 |
Power Input(kW) | 15.4 | 25.0 | 54.0 | 104.6 |
COP | 1.55 | 1.60 | 1.98 | 1.96 |
Cooling Capacity at Air 35℃/24℃, Water 12℃ in, 7℃ out | ||||
Cooling Capacity(KW) | 30 | 60 | 140 | 268 |
Power Input(KW) | 11.9 | 22.9 | 43.8 | 87.9 |
EER | 2.53 | 2.62 | 3.19 | 3.05 |
Max Power Input(KW) | 16.8 | 36.5 | 70.1 | 145.0 |
Max Current(A) | 31.5 | 63.3 | 132.5 | 260.0 |
Compressor quantity | 1 | 2 | 2 | 4 |
Expansion Valve | Saginomiya/EEV | Saginomiya/EEV | Danfoss/EEV | Danfoss/EEV |
Air Flow Direction | Vertical | Vertical | Vertical | Vertical |
Water Flow Volume(m³/h) | 8.0 | 16.0 | 32 | 60 |
Water Pressure Drop | 50kPa | 50kPa | 48kPa | 50kPa |
Dimensions(L*W*H)(mm) | 1252*1076*1870 | 2198*1096*2176 | 2300*1150*2400 | 2800*2200*2450 |
Working temperature range(℃) | -30~48 | |||
Noise(dB(A)) | ≤62 | ≤67 | ≤70 | ≤76 |
IP class | IPX4 | IPX4 | IPX4 | IPX4 |
Net Weight(kg) | 450 | 800 | 1330 | 2186 |
Water connection | DN 40 | DN 50 | Flange DN 80 | Flange DN 100 |