Termo+ DHW heat pumps
Termo+ DHW heat pumps
Why should we use a heat pump for heating of domestic hot water?
A heat pump is the most environmentally friendly and energy saving method of heating domestic hot water.
BENEFITS:
- Cost savings in hot water heating are increased by at least four times.
- The most eco-friendly way of heating domestic hot water – CO2 emissions are reduced by over 62%.
- Really short reimbursement period of the investment (around 5 years) – if we exclude the costs of the water heater, which we need in any case, then the reimbursement period is even shorter.
- In addition to domestic hot water heating, we also get the possibility of cooling smaller spaces, cellars or storage rooms, free of charge.
- The possibility to use the heat pump throughout the entire year and to connect it to any heating boiler, since all heat pumps have an additional built-in tube heat exchanger. The combination with a wood or biomass boiler is particularly popular, because in the summer it is very inefficient to burn wood for hot water heating.
- In comparison to the solar panels, the investment in a heat pump is half as big, warm water is provided throughout the whole year, irrespective of the season, and there are no particular difficulties with the installation and maintenance.
Advantages of sanitary hot water Termo+ heat pumps:
Multi-functional controller provides optimal heat pump management with functions like automatic anti- legionella program and weekly timer.
High efficient rotary compressor developed especially for sanitary hot water heat pumps ensures low operating costs, long lifetime and hot water up to 62˚C. This allows us execution of anti-legionella program without additional electric heater.
Thermostatic expansion valve with internal equalizer and possibility of external superheat adjustment provides optimal operation and more responsive heat pump.
External large-surface condenser heats up water faster due to bigger heat transfer surface. Indirect heating prevents leakage of the refrigerant into sanitary hot water.
ECQ fan provides silent operation and high air flow at 65 % lower electricity costs.
Large evaporator with optimal fin spacing provides efficient operation even at difficult operating conditions.
Top quality enamelled water tank with a build-in MG anode provides a complete anticorrosion protection. High quality PU insulation ensures low heat losses.
Basic and AIR version:
This version enables you to ventilate selected rooms. Air ducts are mounted from the air intake point through a heat pump to the outlet point. A total length of ducts should not exceed 10 m.
HE version - a highly efficient version:
A heat pump incorporates a highly efficient rotary compressor developed especially for heat pump. Higher efficiency up to 30 %.
SOLAR version - double heat exchanger:
The version with water heaters with a 230 - liter volume and more can be also delivered as the Solar version with a double heat exchanger in the water heater. They are intended for demanding customers wanting to simultaneously utilise three different ways of heating water - heat pump, a boiler and solar panels.
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Heat pumps - heat from nature
Heat pumps are the first choice for those who want to lower their heating bills and generate heat in a more environmentally responsible way. After all, the environment provides the heat pump with an unlimited and free supply of the energy it needs. This fully-fledged heating system needs very little power for its drives and pumps in order to make this energy available. A heat pump makes you independent of fossil fuels, and in addition, actively contributes towards reducing CO2 emissions and protecting the climate.
Simple principle, great result
A heat pump works in a similar way to a fridge – simply the other way round.
In a fridge, heat is transferred from the inside to the outside. With a heat pump, this happens exactly the other way round. Heat from the air or the ground is transferred into the living space via the heating system. Vapour from a refrigerant is compressed to increase the temperature, to make it high enough for central heating and DHW heating.
Renewable energy from ambient heat
Heat pumps use ambient heat from the water, ground or air. This ambient heat is stored solar energy or geothermal heat from below ground. Ambient heat is therefore a renewable energy, of which we have an inexhaustible supply.
Unlike fossil fuels, renewable energies have the big advantage of being able to be regenerated. In addition, ambient heat is a decentralised energy supply, which is available at all times and which can be used without the need for complex supply systems or energy monostructures.
Use with various energy sources
The best heat source for each individual case depends on local conditions and the actual heat demand. Heat pumps can use various energy sources:
- Air – practically unlimited availability; lowest investment costs
- Ground – via geothermal collector, geothermal probe or ice store; very efficient
- Water – extremely efficient; observe water quality and quantity
- Waste heat – subject to availability, volume and temperature level of the waste heat
Advantages of heat pumps
60 to 75% lower heating costs
Heat pumps obtain 3/4 of required energy free of any charge, from the environment in which you live. Soil, groundwater, and outside air store huge amounts of thermal energy which can be transformed into heating energy using heat pumps. The savings are considerable compared to other conventional heating systems. The amount of power consumed by heat pumps is notably lower than the amount of heat they generate.
Smart future investment
If you decide to install a heat pump today, you should be aware you are making an investment for the future. Its true value lies in many measurable and nonmeasurable aspects. In addition to the safety of investment, flexibility, low heating costs, comfort, and many economic and ecological benefits, a heat pump is actually an investment in your future and the future of your children.
New building, refurbishment, or heating system replacement
A heat pump is an ideal solution for heating and cooling of newly constructed or refurbished buildings, or when replacing an existing heating system. Since it operates on the principles of low-temperature heating, it is suitable for both underfloor heating and heating with wall-mounted radiators, as well as a combination of both. Heat pumps are also appropriate for rebuilt or refurbished buildings with radiator heating since new high temperature heat pumps can reach water temperatures of 80°C.
Warm in the winter, cool in the summer
Unique heat pump technology allows your heating system to heat your home during the winter and cool it during the summer without additional work or investment. The heat pump system can be used for cooling regardless of whether you use fan coils or underfloor heating.
