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UNPARALLELED ENERGY EFFICIENCY IN HEAT PUMP TECHNOLOGY COMES FROM THE AIR
The biggest innovations are typically concealed in the things we see every day. Heat, a free and renewable energy directly from the sun, is abundant in the air, for instance. In order to heat water, SOLAREAST is able to capture this pure energy from the air. This reduces the amount of electricity used, ensures your comfort, and protects the environment.
SOLAREAST HEAT PUMP WORKING PRINCIPLE
The "pumping" of heat is made feasible by a number of physical laws, including the refrigeration cycle with phase shift, Peltier's thermoelectric effect, and gas compression. A fluid evaporates and condenses at various temperatures in a thermodynamic cycle in the case of a heat pump with phase change as a result of expansion and compression processes. When a fluid evaporates, it takes heat away from the source at a lower temperature and when a fluid condenses, it returns heat to the source at a higher temperature. A compressor powered by an electric motor is therefore the most crucial component of this device.
SMART INVESTMENT
When compared to the performances of an electric water heater with a similar capacity, the heat pump water heater provides energy and cost savings that have a relatively quick payback period. Efficiency is defined as reduced consumption. Efficiency will become more and more important when choosing a water heater due to the rising cost of power; in this situation, SOLAREAST stands out as the best financial decision.
SOLAREAST'S ADVANCED HEATING TECHNOLOGY
The all-in-one heat pump water system from SOLAREAST has been specifically created to offer a domestic hot water and space heating solution to both newly constructed and remodeled homes. The market-leading, innovative heating technology used by SOLAREAST, which may reduce energy usage more than any other product on the market, is even more amazing.
CONVENTIONAL BOILERS WILL BE REPLACED WITH MODERN TECHNOLOGY
In the past, standard heating systems have either been direct electric heaters or used oil or gas. Environmental factors including the use of fossil fuels and environmental contamination have been disregarded in such traditional heating systems. Since there has been an increase in demand for these environmentally friendly devices in recent years, SOLAREAST has improved its heat pump technology to create the most effective, ecologically friendly goods available.
THE GREEN CHOICE:SOLAREAST HEAT PUMP WATER HEATER
R290 refrigerant takes center stage for a new smart solution as a response to contemporary needs. When compared to the present refrigerant, R410A, R290 has a 99.99% lower Global Warming Potential (GWP), making it an environmentally friendly alternative that also satisfies consumer demands for performance, energy efficiency, and other factors. The all-in-one heat pump water R290 AWHP line-up from SOLAREAST satisfies both client demands and European requirements.
UNPARALLELED ENERGY EFFICIENCY IN HEAT PUMP TECHNOLOGY COMES FROM THE AIR
The biggest innovations are typically concealed in the things we see every day. Heat, a free and renewable energy directly from the sun, is abundant in the air, for instance. In order to heat water, SOLAREAST is able to capture this pure energy from the air. This reduces the amount of electricity used, ensures your comfort, and protects the environment.
SOLAREAST HEAT PUMP WORKING PRINCIPLE
The "pumping" of heat is made feasible by a number of physical laws, including the refrigeration cycle with phase shift, Peltier's thermoelectric effect, and gas compression. A fluid evaporates and condenses at various temperatures in a thermodynamic cycle in the case of a heat pump with phase change as a result of expansion and compression processes. When a fluid evaporates, it takes heat away from the source at a lower temperature and when a fluid condenses, it returns heat to the source at a higher temperature. A compressor powered by an electric motor is therefore the most crucial component of this device.
SMART INVESTMENT
When compared to the performances of an electric water heater with a similar capacity, the heat pump water heater provides energy and cost savings that have a relatively quick payback period. Efficiency is defined as reduced consumption. Efficiency will become more and more important when choosing a water heater due to the rising cost of power; in this situation, SOLAREAST stands out as the best financial decision.
SOLAREAST'S ADVANCED HEATING TECHNOLOGY
The all-in-one heat pump water system from SOLAREAST has been specifically created to offer a domestic hot water and space heating solution to both newly constructed and remodeled homes. The market-leading, innovative heating technology used by SOLAREAST, which may reduce energy usage more than any other product on the market, is even more amazing.
CONVENTIONAL BOILERS WILL BE REPLACED WITH MODERN TECHNOLOGY
In the past, standard heating systems have either been direct electric heaters or used oil or gas. Environmental factors including the use of fossil fuels and environmental contamination have been disregarded in such traditional heating systems. Since there has been an increase in demand for these environmentally friendly devices in recent years, SOLAREAST has improved its heat pump technology to create the most effective, ecologically friendly goods available.
THE GREEN CHOICE:SOLAREAST HEAT PUMP WATER HEATER
R290 refrigerant takes center stage for a new smart solution as a response to contemporary needs. When compared to the present refrigerant, R410A, R290 has a 99.99% lower Global Warming Potential (GWP), making it an environmentally friendly alternative that also satisfies consumer demands for performance, energy efficiency, and other factors. The all-in-one heat pump water R290 AWHP line-up from SOLAREAST satisfies both client demands and European requirements.
Model | YT-200TB1 | YT-300TB1 |
Power Supply | 220~240V/1/50Hz | |
Rated Heating Capacity (kW) | 2.4 | |
Refrigerant | R134a | |
Tapping Cycle | L | XL |
Energy Efficient Class | A+ | |
Energy Efficient ηwh(%) | 148.9 | 142.0 |
**COP (EN16147) | 3.48 | 3.52 |
Tank Capacity (L) | 200 | 300 |
Air Flow(m3/h) | 450 | |
Air Discharge | Vertical | |
Air Duct Diameter(mm) | φ150 | |
Back-up Heater(kW) | 2 | |
Default Water Temperature(℃) | 55 | |
Working Temperature Range (℃) | -7-43 | |
Unpacked Dimension (mm) | Φ620*1672 | Φ620*2050 |
Packed Dimension (L*W*H)(mm) | 700*700*1790 | 700*700*2155 |
Net Weight(kg) | 110 | 117 |
Gross Weight(kg) | 125 | 137 |
Noise(dB(A)) | 48 | |
** Above results are tested at ambient temperature DB20℃/WB15℃, water temperature in 10℃/out 55℃ according to EN16147:2017 | ||
* Please refer to the nameplate for product upgrades or changes in specifications without prior notice. |
Model | YT-200TB1 | YT-300TB1 |
Power Supply | 220~240V/1/50Hz | |
Rated Heating Capacity (kW) | 2.4 | |
Refrigerant | R134a | |
Tapping Cycle | L | XL |
Energy Efficient Class | A+ | |
Energy Efficient ηwh(%) | 148.9 | 142.0 |
**COP (EN16147) | 3.48 | 3.52 |
Tank Capacity (L) | 200 | 300 |
Air Flow(m3/h) | 450 | |
Air Discharge | Vertical | |
Air Duct Diameter(mm) | φ150 | |
Back-up Heater(kW) | 2 | |
Default Water Temperature(℃) | 55 | |
Working Temperature Range (℃) | -7-43 | |
Unpacked Dimension (mm) | Φ620*1672 | Φ620*2050 |
Packed Dimension (L*W*H)(mm) | 700*700*1790 | 700*700*2155 |
Net Weight(kg) | 110 | 117 |
Gross Weight(kg) | 125 | 137 |
Noise(dB(A)) | 48 | |
** Above results are tested at ambient temperature DB20℃/WB15℃, water temperature in 10℃/out 55℃ according to EN16147:2017 | ||
* Please refer to the nameplate for product upgrades or changes in specifications without prior notice. |