Air-to-water heat pump SWA
The SWA air/water heat pump from Schmid offers proven technology with an excellent price-performance ratio. It is the ideal solution for anyone who values reliability and efficiency.
Product details
The advantages of SWA at a glance:
- Very low noise level
up to 47 dB(A) - Low operating costs
Inverter technology - Combination options
Cascading - Components
High-quality components have been used. - Application
Supply temperature up to 65 °C - Overview and status
Settings can be monitored and changed via an Internet connection/remote access. - Cost
Excellent price/performance
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Spezifikationen Luft/Wasser-Wärmepumpe NIBE F2120,
6
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Type | SWA 7 | SWA 10 | SWA 15 | |
|---|---|---|---|---|
Heating capacity / COP at A-7/W35 full load | kW / ... | 6.40 / 3.20 | 9.20 / 3.10 | 13.22 / 3.30 |
Cooling capacity / EER at A35 / W18 full load | kW / ... | 5.70 / 3.61 | 9.24 / 3.71 | 12.77 / 3.81 |
Maximum sound output during the day / night | dB(A) | 54 / 47 | 56 / 49 | 58 / 51 |
Dimensions H x W x D | mm | 1185 x 1270 x 600 | 1185 x 1270 x 600 | 1185 x 1270 x 600 |
Weight | kg | 200 | 205 | 205 |
Climate premium
Are you replacing a fossil gas or oil heating system with a renewable heating system? Benefit from attractive subsidies.
References
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Frequently asked questions?
The heat pump extracts thermal energy from the ambient air. The refrigerant absorbs this heat in the heat exchanger (evaporator) and is then compressed in the compressor. The heat generated in this process is used for heating and hot water production via another heat exchanger. In summer, the cycle can also be used for cooling by reversing the process.
The heat pump extracts thermal energy from the ground using a geothermal probe or groundwater. The refrigerant absorbs this heat in the heat exchanger (evaporator) and is then compressed in the compressor. The heat generated in this process is used for heating and hot water production via another heat exchanger. In summer, the cycle can also be used for cooling by reversing the process.
Heat pumps are suitable for both and can therefore be used in new buildings and old buildings undergoing renovation. With the latest generation of heat pumps, flow temperatures of up to 70° can be achieved.
However, it may be worth replacing or adding new radiators with a larger heating surface area in order to increase the efficiency of the heat pump. Seek advice from a specialist. In general, energy-saving measures should be considered for the building envelope in order to directly reduce the heat demand and thus reduce the flow temperatures and increase the efficiency of the heat pump.
Yes, because all our heat pump systems are designed for the design temperature. However, there are some differences between the various heat pump systems that need to be taken into account:
Air/water heat pumps:
Air/water heat pumps have a lower operating limit (approx. -25°C). For heating systems, this means that the heat output is guaranteed up to the design temperature (in the Swiss Plateau, for example, at -7°C). If the outside temperature falls below this design temperature, the auxiliary heating can switch on automatically. Statistically speaking, however, this is extremely rare.
Brine/water heat pumps:
With brine/water heat pumps, it is important to dimension the geothermal probes correctly. The geothermal energy at depth is constant and changes only minimally, even if the top layer of soil is frozen.
A heat pump with a COP of 5 requires 1/5 of the total energy produced in the form of electrical energy, while 4/5 of the energy is obtained from the environment (ambient air, geothermal probe, etc.).
The COP is highly dependent on the source temperature and the flow temperature. The higher the source temperature and the lower the flow temperature, the higher the COP and the energy efficiency.
In combination with a PV system, the amount of electricity consumed can be increased and energy costs reduced.
The sound insulation of heat pumps can be improved through structural measures. The most important measure is to physically decouple the heat pump from the house. Pipes must also be physically decoupled using suitable mounting systems. Sound insulation hoods or sound insulation walls can also significantly reduce noise levels.
Heat pumps are generally very low-maintenance. However, a heat pump should not be neglected. Contamination on the outdoor unit or in the heating circuit, incorrect settings, incorrect heating curves, etc. can damage the heat pump or reduce its efficiency. Periodic maintenance is therefore always beneficial and extends the service life.
SWA air/water heat pump
Heat pumps are a future-oriented solution for using energy from the environment and converting it into heat or warm water. The modern air/water heat pump is the ideal solution for sustainable and efficient heating of your home. With its innovative technology, it uses the natural heat energy in the ambient air to heat your home and provide hot water. Its high energy efficiency not only saves you money, but also makes a valuable contribution to protecting the environment. The system is most efficient when combined with a photovoltaic system. The heat pump is easy to operate and, thanks to its quiet operation, does not disturb you in your everyday life. Put your trust in the modern air/water heat pump and enjoy cozy warmth in your home.
DETAILS MAKE THE DIFFERENCE
- High-quality components
- Low noise level up to 47 dB(A)
- Various combination options
- Supply temperatures up to 65°C
- Remote access / remote maintenance