Viessmann heat pump: all info at a glance

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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 heat pump heating with the unlimited, free supply of the energy it needs. This fully-fledged heating system needs very little power for the drive and pump in order to make this energy usable. A heat pump works independently of fossil fuels and actively contributes to reducing CO2 emissions and protecting the climate.

Summary of the benefits of the heat pump

Efficient use of freely available energy from the ground, air, groundwater or the sun
More independence from fossil fuels such as oil or gas
Contribution to the reduction in CO₂ emissions
Combination with a mechanical ventilation unit helps create a complete air conditioning system

Innovative technology for more comfort

Viessmann heat pumps offer additional benefits. The new Vitocal outdoor unit, for example, is characterised by particularly quiet operation thanks to its advanced acoustic design. In addition, most Viessmann heat pumps have the active cooling and natural cooling functions. Alongside their classic application as heat generators on cold days, they can also create a pleasant room climate in summer by bringing refreshing cool air into the house. How this function works in detail is explained in the section entitled Natural and active cooling  section.

Individual heat pump solutions - alone and in a system

Viessmann's extensive product range offers the right heat pump to suit every demand. As early as the design stage, structural and geological conditions, as well as personal preferences concerning heat demand, can be taken into account. In addition to efficient mono mode operation, heat pumps can be operated with solar systems and together with an existing oil or gas heating system in a multivalent system. This allows individual preferences to be implemented with particular ease.

For new construction and modernization

Different heating systems require different temperatures. Heating with radiators, for example, requires temperatures of up to 70  degrees Celsius. Underfloor heating, on the other hand, manages with a flow temperature of just 35  degrees Celsius. To ensure the most economical operation of a heat pump heating system, the overall heating system is important. Viessmann heat pumps can supply both underfloor heating and radiators with sufficient  heat. This makes them suitable for both the modernisation of an older building and for new build projects.

High potential for savings

Heat pumps contribute to a careful approach to the environment. At the same time, they offer the opportunity to reduce costs. The following tables illustrate the savings potential. The following table illustrates the savings potential.

TechnologyGas savingsCO₂ savings/yearEnergy cost savings/year
Air source heat pump  Vitocal 250-A*100 %35 %€1900
Air source heat pump  Vitocal 250-A + power storage*100 %100 %€4440
Gas condensing boiler + hybrid heat pump  Vitocal 250-SH*86 %34 %€1710

* The values given were determined by simulations assuming standard household profiles for the Potsdam site. Single-family house with 4-person household (existing with gas boiler), 150 square metres of living space and a gas consumption of 2500 cubic metres. Rounded consumption costs using standard values (EID). The energy prices of the Federal Statistical Office were used for the economic efficiency calculation. Investment costs: Viessmann gross list price plus average installation costs nationwide (may vary individually).

Note: Our calculations are theoretical examples based on various assumptions and dependent on certain general conditions. We assume no liability for the correctness and transferability to actual systems. The actual costs and possible savings may differ and must be calculated in each individual case based on the specifics of the respective location and the general conditions there.

Heating according to the refrigerator principle

The heat pump works according to a simple principle and is amazingly effective. Put simply, it works like a refrigerator – but in reverse. While a refrigerator directs heat to the outside, heat pumps take energy from the ground, the air or the groundwater and transfer it into the living space via the heating system.

Getting hotter towards the centre: At an initial temperature of between 5 and 18 °C, a flow temperature of up to 72 °C is achieved.

Refrigerant circuit of Viessmann heat pumps briefly explained

The design of the refrigerant circuit is crucial for the efficiency of a heat pump. Viessmann uses the most advanced components for this.  They contribute to quiet, low-vibration and extremely durable operation:

    • Thermal energy from nature is used to vaporize a refrigerant that boils at a low temperature.
    • A power-driven compressor compresses the resulting gas and brings it to a higher temperature level.    
    • The thermal energy it contains is transferred to the heating circuit via a heat exchanger.    
    • The refrigerant, which is still under pressure, liquefies again and is expanded in an expansion valve.
    • The temperature drops and the cycle or heating with a heat pump starts again.

    You can learn in detail about how this process works in the section entitled How the heat pump works. You will also find a summary of the power requirements of a heat pump and tips on how to reduce electricity costs.

    Note on refrigerants used

    Heat pumps need refrigerants: Today's heat pumps mostly contain fluorinated greenhouse gases (F-gases). These are either harmful to the climate (so-called HFCs) or pollute the environment via water pollution (so-called HFOs). The sustainable alternative is natural refrigerants (for example propane/R290). In reporting on per- and polyfluorinated chemicals (PFASs), refrigerants in heat pumps have been described as "toxic" - but this only applies to HFOs. Natural KMs including R290 and HFCs are not toxic. Viessmann is converting all heat pumps to natural refrigerants (R290) in perspective. Currently we are still using the HFCs R32, R410A, R407C. The two HFO domestic hot water heat pumps will be replaced by 2024. The HFO large heat pumps will be gradually converted over the next few years.

    Germany and the EU are tightening the rules for refrigerants for more climate and environmental protection. Viessmann actively supports an accelerated direct switch to natural refrigerants without a "detour" via HFOs. An ambitious new regulation is not a "brakeman" for heat pump targets (as many from the chemical or airco industry often claim): it creates legal certainty for billions invested in heat pumps and supports a rapid ramp-up.  

    We support BEG funding in Germany with incentives for natural refrigerants:  

    • Since 01.01.2023: additional subsidy bonus of 5% for heat pumps with natural refrigerants.  
    • 01.01.2028: in principle, only heat pumps with natural refrigerants will be eligible for support

    The types of heat pump differ according to the energy source

    Heat pumps use environmental energy to heat rooms and water. This requires different sources to be tapped. The best heat source for the heat pump in each individual case depends on local conditions and the heat demand. Viessmann heat pumps have been on the market since the 1970s and use various energy sources:

    • Air
    • Ground
    • Water
    • Waste heat
    • Ice store

    Homeowners and modernisers have a wide choice of heat pumps from Viessmann, with models to suit all heat sources and needs. With the right technology from Viessmann, you can keep your heating costs low from day one, and reduce the burden on the environment. More information on heat pumps is also available in the heizung.de heat pump guide.

    Heat from the air

    Air is available everywhere, and it's free of charge. In addition, ambient air always contains heat – even if it feels chilly outside. The lower, physical temperature limit is -273.15 degrees Celsius. This means that any temperature above this still contains thermal energy that can be used. Even if it might be possible in theory, economical operation with an air source heat pump can only be achieved down to around -20 degrees Celsius. The heat pump can be positioned both indoors and out. For detailed information on how this heat pump works, see: How the air source heat pump works.

    [1] Vitocal heat pump
    [2] DHW cylinder
    [3] Heating water buffer cylinder

    Heat from the ground

    An enormous amount of energy lies dormant in the earth, and it's almost inexhaustible. This heat source boasts relatively high and constant temperatures. Starting at a depth of around 10 metres, these temperatures remain relatively high, even throughout the winter. As depth increases, so do temperatures, and with them the amount of thermal energy. With the help of a brine/water heat pump, a fraction of this energy can be used for central heating and DHW.

    There are two common methods of providing heat for the heat pump:

    •   Geothermal collectors such as surface and trench collectors or energy absorbing mats are laid close to the surface and absorb thermal energy over their large surfaces in order to then transfer it to the heat pump.
    • Geothermal probes, on the other hand, are sunk into the earth vertically or at an angle and extract thermal energy from a depth of 40 to 100 metres. Accordingly, they require less space than geothermal collectors.

    When compared to air source heat pumps, brine/water heat pumps generally achieve higher efficiencies, regardless of the method of heat extraction. On the other hand, the planning effort is higher due to the large amount of space required, or the official approval. For more information on this heat source, see the section entitled How the brine/water heat pump works.

    [1] Vitocal heat pump
    [2] DHW cylinder
    [3] Heating water buffer cylinder

    Heat from groundwater

    Groundwater is also an excellent energy store, providing constant temperatures of over ten degrees Celsius all year round. In order to be able to use the thermal energy, a well system consisting of delivery and return wells is needed. A key aspect when planning this kind of heat pump is water protection. In some circumstances, the responsible authorities may refuse to grant approval for a water/water heat pump. It is important to make a corresponding enquiry with the authority before purchasing.

    But even in areas where a well system is permitted, this does not automatically mean economic operation. This is because the composition of the water has a decisive influence on smooth and efficient heat pump operation. If use of a water/water heat pump is not possible, the brine/water heat pump with ice stores or geothermal collectors is a good alternative in practice.

    [1] Vitocal heat pump
    [2] DHW cylinder
    [3] Heating water buffer cylinder

    A  DHW heat pump  is only used to provide DHW. Both recirculation air and extract air can be used as heat sources. It is decoupled from the actual heating system and, with the appropriate components, can make optimum use of self-generated solar power.

    • Recirculated air as a heat source:  If the DHW heat pump uses the recirculation air as a heat source, it also dehumidifies the room and thus protects it from the risk of mould growth.
    • Exhaust air as a heat source: If, on the other hand, it is coupled to an existing air distribution system, it can even ventilate rooms in a controlled manner. To avoid negative pressure, an active ventilation air pipe is required.  

    Viessmann DHW heat pumps are designed for recirculation or extract air operation and are optionally available with an integrated solar heat exchanger and solar control unit for direct use of solar energy.

    Heat from the ground, the air and the sun

    The ice store concept combines airborne and geothermal energy, and can also use insolation as a heat source. The ice store system is suitable for all buildings with high heat or cooling demands. This is why it is mainly used in commercial and local authority projects.

    • Ice storage tank for heating:  The ice store is a cistern filled with water that is buried just below the surface of the earth. Inside is a spiral of pipes, which in turn have antifreeze flowing through them. The water in the cistern serves as a heat source, using, among other things, the heat in the earth to regenerate itself again and again. If the ice store is combined with a solar/air absorber on the roof, this extracts heat from the ambient air and solar radiation and feeds it into the storage unit. You can learn more about the process in detail in the section entitled Ice energy store.
    • Ice store for cooling: In the summer months, the ice energy store can also be used to cool buildings naturally. For this purpose, the water in the ice store is turned to ice at the end of the heating season by extracting energy and interrupting the regeneration process. The resulting ice serves as a reservoir for natural cooling.

    [1] Vitocal heat pump
    [2] Ice store
    [3] Solar/air absorber

    Heat pumps are not only of interest to owners of detached houses and apartment buildings. Commercial enterprises, local authorities and industry also rely on this efficient and clean technology. Highly efficient systems are used, designed for permanently high requirements and offering a wide range of outputs. Large Viessmann heat pumps cover output ranges from 50 to 600  kW and can also cope with high flow temperatures of up to 90  degrees Celsius. In addition to the ground, groundwater and extract air can also be used as a source of heat. In industrial applications in particular, waste heat can also serve as an energy supplier. In any case, large Viessmann heat pumps use free energy sources to the fullest extent possible. Large heat pumps are even more effective when used in combination with an ice energy store, thus combining the strengths of different heat sources. Similar to most heat pumps in the smaller output range, many large heat pumps can also be used for cooling purpose. For more detailed information, see the section entitled Large heat pumps.

    Retrofitting large heat pumps in a dual mode system

    Contrary to popular belief, heat pumps are not only used in new build projects in the industrial, commercial or local authority sectors. System owners can also use them in modernisation projects. This is because a large Viessmann heat pump can be perfectly combined with existing heating systems. So traditional oil or gas heating systems can be supplemented with a heat pump. The heat pump is used to take over the base load of DHW and heating energy. In the event of a peak load, either the gas or oil boiler can then be switched on to cover the demand. This form of heating system in industrial settings not only lowers heating costs effectively, but also reduces CO₂ emissions and is therefore an absolute positive when it comes to climate protection.

    A comprehensive preparation and planning phase are important

    There is a wide choice of heat pumps for commercial and local authorities uses. Each case comes with individual requirements. To find the right heat pump for the case in question, we recommend a comprehensive preparation and planning phase. One of our competent Viessmann partners will be ready to support you.

    Cascade of Viessmann Vitocal 300-G-Pro heat pumps

    Viessmann heat pump generations since 1978 till 2022

    Generation I

    Clockwise from top left to bottom right: Heat pump L08, heat pump L02, heat pump WWK-02, Vitocal 300 (type BW).

    Generation II

    Clockwise from top left to bottom right: Vitocal 300 (type WW), Vitotres, Vitocal 350, Vitocal 350 with Vitocell 100.

    Generation III

    Clockwise from top left to bottom right: Vitocal 300-G, Vitocal 200-S, Vitocal 300-A, Vitocal 200-A.

    Latest Generation

    Vitocal 250-A: The high-quality air/water heat pump in monoblock design with a flow temperature of up to 70 °C especially for modernization. Output range: 7.3 to 8.1 kW (for A7/W35). With One Base (E3) control generation. Outdoor unit in Vitographit.

    Advice on a heat pump

    Before renting or buying a heat pump, a few questions need to be clarified. After all, the energy solution should suit the house and meet individual requirements. Below we have listed a few questions that are relevant when choosing a heat pump and whose answers provide a good basis for decision-making. Further information on the topics can be found in the linked guides.

    • Should the heat pump be installed in an existing building or in a new building?
    • Should the system be for a single-family home or a multi-family home?
    • Should the new heat pump supplement an existing heating system?
    • What is the current consumption for heating and hot water in the household?
    • What needs to be considered when tapping different environmental energy sources?
    • Are permits required for the development of environmental heat?
      • Permit for the heat pump
    • Are there any regulations regarding distances from neighboring buildings or noise levels?
    • Is a buffer or heat storage tank absolutely necessary?
      • Buffer storage tank for heat pumps
    • What potential savings can be achieved compared to other heating systems?
    • What temperatures can be achieved for heating and hot water and is this sufficient for your own heating behavior?
    • How can you actively increase the service life through regular maintenance?
    • What accompanying measures need to be taken into account when planning a heat pump?
    • Are there sensible combination options?
    • What type of heat pump would you like to have installed?
    • What costs are incurred for the purchase and installation?
    • How and to what extent can the costs be reduced by subsidizing the heat pump?
    • How high are the costs for the efficient operation of a heat pump?
    • Is the heat pump insured or can this be supplemented?  

    Coefficient of performance COP – what does it mean?

    Heating with heat pumps from Viessmann means relying on proven technology and protecting the environment at the same time. That's because all appliances feature carefully matched components and a high COP. COP (coefficient of performance) is a snapshot of the ratio of useful heat generated and drive energy used.

    When designing a system, however, it's important to take into account the expected operation over a whole year. To do this, the amount of heat delivered is calculated in relation to the total electrical demand of the heat pump system, taking into account the power for pumps, control units, etc. The result is called the seasonal performance factor or SPF.

    Downloads and links on heat pumps

    Heating with airborne and geothermal energy – making the best possible use of renewables. The brochure below provides detailed information on sustainable and environmentally responsible heat generation using heat pumps from Viessmann. It includes an overview of all current heat pumps and their key technical data, as well as lots of useful information about accessories, service, subsidies and financing options.

    Product range

    The output range of Viessmann brine/water heat pumps ranges from 5.6 to 84.6  kW.  Detailed information on specifications and features of the heat pumps can be found on the respective product pages.

    Vitocal 200-G

    Brine/water heat pump
    Rated heating output: 5.8 to 22.6 kW
    Small footprint
    Barely audible
    Cooling function

    Vitocal 222-G

    Brine/water heat pump
    Rated heating output: 5.8 to 10.4 kW
    Integral DHW cylinder
    Compact dimensions
    Barely audible

    Viessmann air source heat pumps are available in an output range from 4.0  to 250  kW.  Further information is also available on the Vitocal product pages.

    Vitocal 250-A

    Air source heat pump
    Rated heating output: 2.6 to 13.4 kW
    Specially developed for modernisation
    Particularly efficient, sustainable operation
    Cooling function

    Vitocal 252-A

    Air source heat pump
    Rated heating output: 2.6 to 13.4 kW
    Integral DHW cylinder
    Specially developed for modernisation
    Cooling function

    Vitocal 150-A

    Air source heat pump
    Rated heating output: 2.6 to 14.9 kW
    High energy efficiency
    Sustainable operation
    Cooling function

    Vitocal 200-A

    Air source heat pump
    Rated heating output: 7.5 kW
    Ideal for indoor installation
    Quiet operation
    Mechanical ventilation as the ideal addition

    Vitocal 200-A

    Air source heat pump
    Rated heating output: 4.0 to 12.0 kW
    Separate indoor and outdoor units
    Highest efficiency in the smallest of spaces
    Ideal for use in densely built-up areas

    Vitocal 222-A

    Air source heat pump
    Rated heating output: 3.8 to 11.6 kW
    Integral DHW cylinder
    Heating and cooling in one
    Highest efficiency in the smallest of spaces

    The output range of Viessmann split heat pumps ranges from 4.0  to 12  kW.  The linked product page provide a good basis for decision-making.    

    Vitocal 222-S

    Split air source heat pump
    Rated heating output: 2.6 to 10.4 kW
    Cylinder capacity: 190 l
    Cooling function
    Particularly quiet operation

    For detailed information on Viessmann DHW heat pumps, click on the respective product page.

    Vitocal 262-A type T2W

    DHW heat pumps
    High DHW convenience
    Ideal addition to existing systems
    Natural refrigerant R290
    Low sound emissions

    Vitocal 262-A

    DHW heat pump
    Low running costs
    Low sound emissions
    Natural refrigerant R290
    Operation via ViCare app

    Vitocal 060-A

    DHW heat pump
    High performance values
    Quiet operation
    Quick heat-up function
    Intuitive and simple operation

    On the product pages below you will find information on our large heat pumps in output ranges of up to 600  kW and suitable system solutions for different applications and different heat sources.

    Vitocal 250-A PRO

    Large heat pump
    Nominal heating output: 39.5 kW
    Heating, cooling and water heating with one appliance
    For monovalent or bivalent operation
    Available as cascade solution for higher output
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