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solutions for heat-pump systems

Heat pumps use low-grade heat from the air or the ground and boost it to a higher temperature level to heat your home and provide domestic hot water. Our solutions for heat pumps reduce the need for heat pumps to operate at high temperature levels for domestic hot water preparation, increasing their efficiency and durability, while at the same time ensuring that the safety and comfort of your domestic hot water supply is not compromised.
Our systems can be combined with almost any heat pump, so you can achieve the best possible domestic hot water performance in combination with the heat pump of your choice.

domestic hot water system

Our domestic hot water system for heat pumps provides plentiful hot water, so you don’t have to worry about running out when friends stay over, or when the kids need an extra bath. To offer you the highest degree in domestic hot water safety, our systems do not store any potable hot water, but instead heat is stored safely in a buffer tank connected to the heating circuit. Potable hot water is generated on-demand by our Hot Water Unit, which transfers heat from the buffer tank to the potable water using its highly efficient heat exchanger.

DMP solar thermal system

Our DMP Solar Thermal System generates free heat directly from the sun, so taking an extra long shower doesn’t cost the earth! We use highly efficient vacuum tube collectors, connected directly to the buffer tank, to create a robust, maintenance-free solar thermal system, ideal for combining with heat pumps. Our unique solar thermal system, using our patented Thermo-Differential Valve technology, ensures that high-grade heat is generated at the required temperature for domestic hot water production, so that free heat from the sun is immediately available, and the heat pump can stay off for longer.

buffer tank charging system

Our buffer tanks for domestic hot water preparation are directly charged by the heat pump, without using a heat exchanger in the tank, which increases the durability and efficiency of the heat pump, and reduces the charging time of the buffer tank, so you never have to wait for hot water to be available. Our heat-pump tank-charging system uses the patented Thermo-Differential Valve to make sure that when the heat-pump starts charging your buffer tank, the hot layer at the top is not disturbed, and you can continue to enjoy an uninterrupted hot water supply. In the final stages of charging, when the temperature of the heat pump is high enough to generate domestic hot water, the buffer tank is heated from the top down, for optimal charging performance.

  • heat pump system schema
  • heat pump system schema

    When the hot tap is opened, the Hot Water Unit rapidly takes heat from the top of the buffer tank to heat the water using its efficient plate heat exchanger.

  • heat pump system schema

    When the hot tap is opened, the Hot Water Unit rapidly takes heat from the top of the buffer tank to heat the water using its efficient plate heat exchanger.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, on sunny days often enough to heat the whole tank, so the heat pump can stay off.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, on sunny days often enough to heat the whole tank, so the heat pump can stay off.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, on sunny days often enough to heat the whole tank, so the heat pump can stay off.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, on sunny days often enough to heat the whole tank, so the heat pump can stay off.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, on sunny days often enough to heat the whole tank, so the heat pump can stay off.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, on sunny days often enough to heat the whole tank, so the heat pump can stay off.

  • heat pump system schema

    The Buffer Tank Charging System first heats up the bottom part of the tank in multiple cycles, leaving the top part undisturbed to protect the high-grade heat. In the last stage of the charging cycle, when the temperature supplied by the heat pump approaches the target temperature, the Thermo-Differential Valve opens to heat the buffer tank from the top down, for optimum performance of the heat pump.

  • heat pump system schema

    The Buffer Tank Charging System first heats up the bottom part of the tank in multiple cycles, leaving the top part undisturbed to protect the high-grade heat. In the last stage of the charging cycle, when the temperature supplied by the heat pump approaches the target temperature, the Thermo-Differential Valve opens to heat the buffer tank from the top down, for optimum performance of the heat pump.

  • heat pump system schema

    The Buffer Tank Charging System first heats up the bottom part of the tank in multiple cycles, leaving the top part undisturbed to protect the high-grade heat. In the last stage of the charging cycle, when the temperature supplied by the heat pump approaches the target temperature, the Thermo-Differential Valve opens to heat the buffer tank from the top down, for optimum performance of the heat pump.

  • heat pump system schema

    The Buffer Tank Charging System first heats up the bottom part of the tank in multiple cycles, leaving the top part undisturbed to protect the high-grade heat. In the last stage of the charging cycle, when the temperature supplied by the heat pump approaches the target temperature, the Thermo-Differential Valve opens to heat the buffer tank from the top down, for optimum performance of the heat pump.

Solutions for Biomass Systems

Biomass systems burn wood (pellets) to provide heat to your home and are a great option for combining with existing space heating systems using radiators. Our solutions for Biomass Systems allow the biomass burner to be switched off outside the heating season for up to 6 months by combining it with our efficient and maintenance-free DMP Solar Thermal system, so you can enjoy your summers without a care about your heating system!
Our systems can be combined with many different types of biomass burners, in many different arrangements, so you can achieve the best possible performance in combination with the biomass burner of your choice.

domestic hot water system

Our domestic hot water system for biomass systems provides plentiful hot water, so you don’t have to worry about running out when friends stay over, or when the kids need an extra bath. To offer you the highest degree in domestic hot water safety, our systems do not store any potable hot water, but instead heat is stored safely in a buffer tank connected to the heating circuit. Potable hot water is generated on-demand by our Hot Water Unit, which transfers heat from the buffer tank to the potable water using its highly efficient heat exchanger.

DMP solar thermal system

Our Solar/Biomass Combi-System makes maximum use of free heat from the sun, both for hot water and for space heating, so your biomass boiler can be switched off from spring until autumn. Our DMP Solar Thermal System is particularly suitable for use in a combi-system with a biomass boiler, since it generates heat directly at the temperature for domestic hot water preparation, so you don’t have to wait for the whole storage tank to heat up before you can enjoy your free heat from the sun. Our maintenance-free solar system also allows you to use a large area of solar collectors to increase the period that the biomass boiler can be switched off, since any overheating of the collectors during summer does not lead to degradation problems.

  • heat pump system schema
  • heat pump system schema

    When the hot tap is opened, the Hot Water Unit rapidly takes heat from the top of the buffer tank to heat the water using its efficient plate heat exchanger.

  • heat pump system schema

    When the hot tap is opened, the Hot Water Unit rapidly takes heat from the top of the buffer tank to heat the water using its efficient plate heat exchanger.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, generating sufficient heat for domestic hot water preparation throughout summer, as well as supporting space heating during winter.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, generating sufficient heat for domestic hot water preparation throughout summer, as well as supporting space heating during winter.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, generating sufficient heat for domestic hot water preparation throughout summer, as well as supporting space heating during winter.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, generating sufficient heat for domestic hot water preparation throughout summer, as well as supporting space heating during winter.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, generating sufficient heat for domestic hot water preparation throughout summer, as well as supporting space heating during winter.

  • heat pump system schema

    The DMP Solar System lifts the temperature in the solar circuit to the required level in multiple passes, and once it reaches the temperature in the top of the buffer tank, the Thermo-Differential Valve opens to discharge the high-grade heat into the top of the buffer tank. This cycle is repeated many times in one day, generating sufficient heat for domestic hot water preparation throughout summer, as well as supporting space heating during winter.

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information for professionals

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