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The Benefits Of Heat Pumps For Businesses
Heat pumps work by absorbing heat from the surrounding environment and transferring it to the object or space to be heated. Compared with traditional electric heating, heat pumps produce about 4 kWh of energy for every 1 kWh of electricity consumed, which is 300-400% more efficient than simple electric heating.
Undoubtedly, the cost of installing equipment such as air source heat pumps will vary depending on the size and complexity of a business's facility, but in the long run, these units are cheaper to run and can save a significant amount of money on energy bills.
Of course, there will be an initial fee that, depending on the size of your property and business, may be prohibitively expensive, and it will take some time before you can begin saving money as you pay off the investment. However, there is a chance for large savings and a strong return on investment once the break-even point is reached. Furthermore, you need to make sure that heat pumps are allowed to be built on your company's land. For example, you will need a large enough exterior wall or flat roof area to fit the external unit for an air source heat pump.
Solareast's well-designed commercial heat pump systems not only meet all of a company's heating requirements, but also provide significant savings over time by significantly reducing energy costs. In addition, Solareast commercial heat pump systems are efficient, stable and environmentally friendly, providing a more comfortable and healthier working environment.
Intelligent Thermal
Solareast heat pumps utilize advanced technology and design that allows them to operate even in extremely cold environments, such as temperatures as low as -30℃. This feature enables Solareast heat pumps to be widely used in cold regions, providing customers with stable heating and hot water services.
Heat Pumps For Industrial And Commercial Buildings
Many companies, in their commitment to reducing their carbon footprint and lowering energy costs, are beginning to look at heat pumps as a long-term and cost-effective option for heating busy workplaces. For those companies or homes that do not have access to natural gas, using an air source heat pump can save thousands of dollars per year.
Essentially, a heat pump is a device that transfers heat from one place to another. The most common form of this is the air source heat pump, which extracts heat from the outdoor air and pipes it into the home for underfloor heating, radiators or to maintain a hot water supply at a higher temperature. As well as air source heat pumps, there are other types of heat pumps such as water source heat pumps and ground source heat pumps. Water source heat pumps utilize water as a heat source while ground source heat pumps utilize soil as a heat source. The basic concept of these heat pumps is the same, i.e., to transfer heat from a low-temperature heat source to a high-temperature heat source by consuming a certain amount of energy for the purpose of heating or cooling.
As environmental awareness continues to grow, more and more commercial and non-residential buildings, such as offices, shopping malls, sports stadiums and schools, are using large heat pumps to provide heating and hot water services. It is estimated that commercial heating can account for around 40% of total CO2 emissions, so many companies are making it a priority to explore new and creative ways of heating their homes.
Wide Range Of Applications
These EVI low-temperature heat pumps may be able to meet the heating and cooling requirements of a variety of buildings, including villas, residences, businesses, hotels, hospitals, spas, sauna facilities, greenhouses, flower gardens, farms, etc.
Outstanding Reliability
The equipment is equipped with the functions of rapid cooling, heating and precise temperature control, and its structure is rugged and durable, and also can be equipped with optional anti-corrosion treatment, reliable scroll compressor, and multiple protection design. For example, in some occasions with high temperature requirements, such as laboratories, hospitals, etc., the device can rapidly cool or heat samples or medicines and precisely control the temperature to ensure the accuracy and safety of experiments or treatments. Meanwhile, its rugged construction and anti-corrosion treatment also enable it to operate stably for a long time in harsh environments.
The Benefits Of Heat Pumps For Businesses
Heat pumps work by absorbing heat from the surrounding environment and transferring it to the object or space to be heated. Compared with traditional electric heating, heat pumps produce about 4 kWh of energy for every 1 kWh of electricity consumed, which is 300-400% more efficient than simple electric heating.
Undoubtedly, the cost of installing equipment such as air source heat pumps will vary depending on the size and complexity of a business's facility, but in the long run, these units are cheaper to run and can save a significant amount of money on energy bills.
Of course, there will be an initial fee that, depending on the size of your property and business, may be prohibitively expensive, and it will take some time before you can begin saving money as you pay off the investment. However, there is a chance for large savings and a strong return on investment once the break-even point is reached. Furthermore, you need to make sure that heat pumps are allowed to be built on your company's land. For example, you will need a large enough exterior wall or flat roof area to fit the external unit for an air source heat pump.
Solareast's well-designed commercial heat pump systems not only meet all of a company's heating requirements, but also provide significant savings over time by significantly reducing energy costs. In addition, Solareast commercial heat pump systems are efficient, stable and environmentally friendly, providing a more comfortable and healthier working environment.
Intelligent Thermal
Solareast heat pumps utilize advanced technology and design that allows them to operate even in extremely cold environments, such as temperatures as low as -30℃. This feature enables Solareast heat pumps to be widely used in cold regions, providing customers with stable heating and hot water services.
Heat Pumps For Industrial And Commercial Buildings
Many companies, in their commitment to reducing their carbon footprint and lowering energy costs, are beginning to look at heat pumps as a long-term and cost-effective option for heating busy workplaces. For those companies or homes that do not have access to natural gas, using an air source heat pump can save thousands of dollars per year.
Essentially, a heat pump is a device that transfers heat from one place to another. The most common form of this is the air source heat pump, which extracts heat from the outdoor air and pipes it into the home for underfloor heating, radiators or to maintain a hot water supply at a higher temperature. As well as air source heat pumps, there are other types of heat pumps such as water source heat pumps and ground source heat pumps. Water source heat pumps utilize water as a heat source while ground source heat pumps utilize soil as a heat source. The basic concept of these heat pumps is the same, i.e., to transfer heat from a low-temperature heat source to a high-temperature heat source by consuming a certain amount of energy for the purpose of heating or cooling.
As environmental awareness continues to grow, more and more commercial and non-residential buildings, such as offices, shopping malls, sports stadiums and schools, are using large heat pumps to provide heating and hot water services. It is estimated that commercial heating can account for around 40% of total CO2 emissions, so many companies are making it a priority to explore new and creative ways of heating their homes.
Wide Range Of Applications
These EVI low-temperature heat pumps may be able to meet the heating and cooling requirements of a variety of buildings, including villas, residences, businesses, hotels, hospitals, spas, sauna facilities, greenhouses, flower gardens, farms, etc.
Outstanding Reliability
The equipment is equipped with the functions of rapid cooling, heating and precise temperature control, and its structure is rugged and durable, and also can be equipped with optional anti-corrosion treatment, reliable scroll compressor, and multiple protection design. For example, in some occasions with high temperature requirements, such as laboratories, hospitals, etc., the device can rapidly cool or heat samples or medicines and precisely control the temperature to ensure the accuracy and safety of experiments or treatments. Meanwhile, its rugged construction and anti-corrosion treatment also enable it to operate stably for a long time in harsh environments.
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 |