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Uitgebreid gamma
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Referentielijsten * Lucht / water * Bodem / water * Water / water * Overzichtstabel
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Prijsvergelijk
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Verbruikskostenvergelijk
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Hydraulische schema's
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Jaarrendement (SPDF)
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Aanvraagformulier
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10-jaar waarborg
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Aansluitschema’s
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01. Zeer uitgebreid gamma
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02. Referentielijsten Detached house in D-06184 Kabelsketal with Air-to-water heat pump for outdoor installation LA 8AS Building data • • • • • • •
Location: D-06184 Kabelsketal Building type: Detached house Type: New building Heated living area: 110 m² Built in: 1993 Heat distribution system: Panel heating Insulation level of the building envelope: normal
Heat pump installation in the garden
Costs of the heat pump heating system • Investment costs: 13.000 EUR (Material costs of heat pump and accessories, Material costs of the heat distribution system, Total installation costs of the entire heat pump heating system) • Average energy consumption: 5.000 kWh/per year • Average electricity tariff: 16.7 ct/kWh • Average energy costs: 833 EUR/per year
House side view facing the heat pump
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and second heat generator (bivalent) max. set heating water temperature: 38 °C Heat consumption of the building: 7,70 kW Second heat generator: Gas heating
Hot water preparation • • • • • •
Number of persons: 2 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 2hrs/day
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Heat pump technology
Dimplex heat pump reference system
Other in D-79426 Buggingen with Air-to-water heat pump for outdoor installation LA 8AS Building data • • • • • • •
Location: D-79426 Buggingen Building type: Other Type: New building Heated living area: 100 m² Built in: 2007 Heat distribution system: Radiators Insulation level of the building envelope: good
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 3.000 kWh/per year • Average electricity tariff: 13.5 ct/kWh • Average energy costs: 405 EUR/per year Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 55 °C Heat consumption of the building: 5 kW Heating output of the immersion heater: 6 kW
System description • In 2001, the Miners' Association (German: Bergmannsverein) was able to purchase an old run-down tunnel that was originally used as a cold store and, during World War II, as an air raid shelter for the population. Over a 3-year construction period, former coal miners painstakingly excavated the tunnel by hand, extending and developing it in miners' fashion, and equipped it with original mining machines and devices. The rail network, with a length of approximately 110 m, is secured with iron and wood expansions and equipped with pit lighting, signal systems and pit rails. Visitors can get an impression of the miners' work and the mining operations thanks to fully functional machines such as chain conveyors, scraper winches and drills. In 2007, the "Kalimuseum" and a lecture theatre were rebuilt and equipped with a heat pump heating system. Page 5
Dimplex heat pump reference system
Terraced house in D-65838 Kriftel with Air-to-water heat pump for outdoor installation LA 8AS Building data • • • • • • • •
Location: D-65838 Kriftel Building type: Terraced house Type: Renovation Heated living area: 120 m² Built in: 1960 Heat distribution system: Radiators / Panel heating Insulation level of the building envelope: normal Oil consumption prior to conversion: 2500 l/per year
LA 8 heat pump on steel construction
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 3.750 kWh/per year • Average electricity tariff: 14.8 ct/kWh • Average energy costs: 555 EUR/per year • Oil consumption prior to conversion: 2.000 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 1.445 EUR/per year
LA 8 heat pump
Heat pump operation • • • •
Heat source: Air Operating mode: Heat pump only (monovalent) max. set heating water temperature: 55 °C Heat consumption of the building: 8,40 kW
Prior to conversion
Hot water preparation • • • • • •
Number of persons: 4 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 2hrs/day
System description • Mid-terrace house building with living space of approx. 120 m² over 4 storeys, built in 1960. The heat pump heats the building via a radiator heating and underfloor heating system. Domestic hot water preparation is ensured via a 400 litre heat pump cylinder. The heat pump is located in front of the kitchen window and the ambient noises are louder than the heat pump.
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Dimplex heat pump reference system
Terraced house in D-90592 Schwarzenbruck with Air-to-water heat pump for outdoor installation LA 9PS Building data • • • • • • •
Location: D-90592 Schwarzenbruck Building type: Terraced house Type: Renovation Heated living area: 91 m² Built in: 1965 Heat distribution system: Radiators Insulation level of the building envelope: normal
View from the street, with house
Costs of the heat pump heating system • Investment costs: 10.789 EUR (Total installation costs of the entire heat pump heating system) • Average energy consumption: 4.550 kWh/per year • Average electricity tariff: 15.3 ct/kWh • Average energy costs: 696 EUR/per year View from the terrace
Heat pump operation • • • •
Heat source: Air Operating mode: Heat pump only (monovalent) max. set heating water temperature: 58 °C Heat consumption of the building: 6,50 kW
Hot water preparation • • • • • •
Number of persons: 1 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Electric cylinder Flange heater in hot water cylinder: no Utility company shut-off times: 2hrs/day
System description • This system, with an LA 9 PS, meets all the requirements of terrace houses: Higher flow temperatures for radiators. Compact design for the garden, which is too small in any case. Low-noise operation is very important for the neighbourhood.
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System hydraulics, compact design
Dimplex heat pump reference system
Multiple unit building in D-88634 Herdwangen with Air-to-water heat pump for outdoor installation LA 11AS Building data • • • • • • •
Location: D-88634 Herdwangen Building type: Multiple unit building Type: Renovation Heated living area: 250 m² Built in: 2000 Heat distribution system: Panel heating Insulation level of the building envelope: good
LA 11AS air-to-water heat pump
Costs of the heat pump heating system • Investment costs: 13.000 EUR (Material costs of heat pump and accessories) • Average energy consumption: 9.334 kWh/per year • Average electricity tariff: 13.5 ct/kWh • Average energy costs: 1.260 EUR/per year Heat pump operation • Heat source: Air • Operating mode: HP and immersion heater (mono energy) • max. set heating water temperature: 40 °C
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Complete house view
Dimplex heat pump reference system
Multiple unit building in D-79312 EM - Windenreute with Air-to-water heat pump for outdoor installation LA 12TU Building data • • • • • • •
Location: D-79312 EM - Windenreute Building type: Multiple unit building Type: New building Heated living area: 288 m² Built in: 2009 Heat distribution system: Panel heating Insulation level of the building envelope: very good
Exterior view street
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 5.400 kWh/per year • Average electricity tariff: 13.5 ct/kWh • Average energy costs: 729 EUR/per year
Utility room
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 35 °C Heat consumption of the building: 11,50 kW Heating output of the immersion heater: 6 kW LA 12 TU with a wall clearance of 0.7m
Hot water preparation • • • • • •
Number of persons: 5 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 3hrs/day
Regulation
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Dimplex heat pump reference system
Multiple unit building in D-79837 St. Blasien with Air-to-water heat pump for outdoor installation LA 16AS Building data • • • • • • • •
Location: D-79837 St. Blasien Building type: Multiple unit building Type: Renovation Heated living area: 240 m² Built in: 1976 Heat distribution system: Radiators / Panel heating Insulation level of the building envelope: normal Oil consumption prior to conversion: 5250 l/per year
The Dimplex LA 16AS heat pump heats the house of the family of 6
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 13.000 kWh/per year • Average electricity tariff: 14.8 ct/kWh • Average energy costs: 1.924 EUR/per year • Oil consumption prior to conversion: 4.200 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 2.276 EUR/per year
Photo of the building from the south
Heat pump operation • • • •
Heat source: Air Operating mode: Heat pump only (monovalent) max. set heating water temperature: 55 °C Heat consumption of the building: 16,80 kW
Photo of the dome of the St. Blasien dome church
Hot water preparation • • • • • •
Number of persons: 6 Increased hot water requirement: yes Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 2hrs/day
System description • The building is a house for 6 people with a living space of approximately 240 m². Built in 1976. The heat pump heats the building via radiators and an underfloor heating system. Hot water supply is ensured via a heat pump cylinder with a capacity of 400l. Page 10
Dimplex LA 16AS heat pump
Dimplex heat pump reference system
Detached house in D-06774 Mühlbeck with Air-to-water heat pump for outdoor installation LA 16AS Building data • • • • • • • •
Location: D-06774 Mühlbeck Building type: Detached house Type: Renovation Heated living area: 200 m² Built in: 1968 Heat distribution system: Radiators / Panel heating Insulation level of the building envelope: normal Gas consumption prior to conversion: 2900 m³/per year
Costs of the heat pump heating system • Investment costs: 15.700 EUR (Material costs of heat pump and accessories, Material costs of the heat distribution system, Total installation costs of the entire heat pump heating system) • Average energy consumption: 6.000 kWh/per year • Average electricity tariff: 16.7 ct/kWh • Average energy costs: 1.000 EUR/per year • Gas consumption prior to conversion: 1.792 EUR (at a gas price of 61.8 ct/m³) • Savings through heat pump: 793 EUR Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 55 °C Heat consumption of the building: 12 kW Heating output of the immersion heater: 4.5 kW
Hot water preparation • • • • • •
Number of persons: 2 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 2hrs/day
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Dimplex heat pump reference system
Detached house in D-04838 Jesewitz OT Liemehna with Air-to-water heat pump for outdoor installation LA 16AS Building data • • • • • • •
Location: D-04838 Jesewitz OT Liemehna Building type: Detached house Type: Renovation Heated living area: 165 m² Built in: 1975 Heat distribution system: Radiators / Panel heating Insulation level of the building envelope: normal
Costs of the heat pump heating system • Investment costs: 14.000 EUR (Material costs of heat pump and accessories, Material costs of the heat distribution system, Total installation costs of the entire heat pump heating system) • Average energy consumption: 8.000 kWh/per year • Average electricity tariff: 16.7 ct/kWh • Average energy costs: 1.333 EUR/per year Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 55 °C Heat consumption of the building: 14 kW Heating output of the immersion heater: 4.5 kW
Hot water preparation • • • • • •
Number of persons: 3 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 2hrs/day
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Dimplex heat pump reference system
Detached house in D-95502 Himmelkron with Air-to-water heat pump for outdoor installation LA 16AS Building data • • • • • • •
Location: D-95502 Himmelkron Building type: Detached house Type: New building Heated living area: 170 m² Built in: 2008 Heat distribution system: Panel heating Insulation level of the building envelope: good
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 6.500 kWh/per year • Average electricity tariff: 13.0 ct/kWh • Average energy costs: 845 EUR/per year Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 35 °C Heat consumption of the building: 60 kW Heating output of the immersion heater: 12 kW
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LA 16AS air-to-water heat pump for outdoor installation
Dimplex heat pump reference system
Detached house in D-95349 Thurnau with Air-to-water heat pump for outdoor installation LA 16AS Building data • • • • • • •
Location: D-95349 Thurnau Building type: Detached house Type: Renovation Heated living area: 160 m² Built in: 1980 Heat distribution system: Radiators Insulation level of the building envelope: normal
Installation and start-up, September 2009
Entry lane, garden fence
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 8.919 kWh/per year • Average electricity tariff: 14.1 ct/kWh • Average energy costs: 1.258 EUR/per year
Installation on the street, no complaints!
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 50 °C Heat consumption of the building: 11,20 kW Heating output of the immersion heater: 6 kW A lot of snow in the winter of 2009/2010
Hot water preparation • • • • • •
Number of persons: 5 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: None
System description • Detached house with a granny flat, built in 1980. Conversion from night storage heaters to an LA16AS air-to-water heat pump in combination with low-temperature radiators. The granny flat is currently not heated by the heat pump; however, domestic hot water is prepared centrally.
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Approximately 20 cm of snow on the heat pump, no problem!
Winter landscape with heat pump
Dimplex heat pump reference system
Detached house in D-90559 Burgthann with Air-to-water heat pump for outdoor installation LA 16AS Building data • • • • • • • •
Location: D-90559 Burgthann Building type: Detached house Type: Renovation Heated living area: 120 m² Built in: 1979 Heat distribution system: Panel heating Insulation level of the building envelope: good Oil consumption prior to conversion: 3000 l/per year
View from garden
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 7.266 kWh/per year • Average electricity tariff: 15.3 ct/kWh • Average energy costs: 1.112 EUR/per year • Oil consumption prior to conversion: 2.400 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 1.288 EUR/per year
View from pavement
Heat pump operation • Heat source: Air • Operating mode: HP and other renewable energies (bivalent renewable) • max. set heating water temperature: 40 °C • Heat consumption of the building: 12 kW • Alternative heat generator: Solid fuel (wood or coal) Hot water preparation • • • • • •
Number of persons: 3 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: no Utility company shut-off times: 2hrs/day
1000l bivalent cylinder with mixer
System description • This system consists of an LA16AS and an existing lump wood boiler which has been included in a 1000l bivalent cylinder. Domestic hot water is heated by the heat pump for heating purposes or the lump wood boiler. The buffer tank with an electric heating element for the heat pump circuit (1/10 nominal flow rate) was constructed by the customer due to space requirements, and was fixed to the wall. The wood boiler is heated on cold winter days. Page 15
Distribution system for DHW and heating with system separation
Dimplex heat pump reference system
Detached house in D-09579 Grünhainichen with Air-to-water heat pump for outdoor installation LA 16AS Building data • • • • • • • •
Location: D-09579 Grünhainichen Building type: Detached house Type: Renovation Heated living area: 147 m² Built in: 1995 Heat distribution system: Radiators Insulation level of the building envelope: good Gas consumption prior to conversion: 3750 m³/per year
The home of the Enzmann family with the Dimplex heat pump in front.
Costs of the heat pump heating system • Investment costs: 12.000 EUR (Material costs of heat pump and accessories) • Average energy consumption: 10.500 kWh/per year • Average electricity tariff: 14.8 ct/kWh • Average energy costs: 1.550 EUR/per year • Gas consumption prior to conversion: 2.511 EUR (at a gas price of 66.95 ct/m³) • Savings through heat pump: 961 EUR
Close-up of the heat pump under the stairs
Heat pump operation • • • •
Heat source: Air Operating mode: Heat pump only (monovalent) max. set heating water temperature: 46 °C Heat consumption of the building: 8 kW
The Dimplex heat pump also serves the Enzmann family well in winter.
Hot water preparation • • • • • •
Number of persons: 3 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 3hrs/day The hot water cylinder for the heat pump in the boiler room
System description • Energy costs from Sept 06 bis Sept 07 for heating and domestic hot water: 1335 euros energy costs from Sept 07 bis Sept 08 for heating and hot water: 1678 euros energy costs from Sept 08 to May 09 for heating and domestic hot water due to the unusually cold winter: 1919 euros
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Manifold in the cellar
Dimplex heat pump reference system
Detached house in D-95145 Oberkotzau with Air-to-water heat pump for outdoor installation LA 16ASR Building data • • • • • • •
Location: D-95145 Oberkotzau Building type: Detached house Type: New building Heated living area: 190 m² Built in: 2005 Heat distribution system: Panel heating Insulation level of the building envelope: very good
A perfectly heated or cooled house for the family in Oberkotzau
Costs of the heat pump heating system • Investment costs: 17.650 EUR (Material costs of heat pump and accessories, Total installation costs of the entire heat pump heating system) • Average energy consumption: 7.256 kWh/per year • Average electricity tariff: 14.1 ct/kWh • Average energy costs: 1.023 EUR/per year
Dimplex heat pump is ideally suited to the design-oriented environment of new buildings
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 35 °C Heat consumption of the building: 13,50 kW Heating output of the immersion heater: 6 kW The boiler room with a hot water cylinder and a heat pump manager
Hot water preparation • • • •
Number of persons: 3 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes • Flange heater in hot water cylinder: yes • Utility company shut-off times: 2hrs/day System description • Reversible air-to-water heat pump for heating and cooling via underfloor heating. The waste heat produced in cooling operation is used for domestic hot water preparation.
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The heat pump harmoniously blends in with the garden environment
Dimplex heat pump reference system
Multiple unit building in D-66646 Marpingen with Air-to-water heat pump for outdoor installation LA 17PS Building data • • • • • • •
Location: D-66646 Marpingen Building type: Multiple unit building Type: Renovation Heated living area: 190 m² Built in: 1982 Heat distribution system: Radiators Insulation level of the building envelope: normal
Heat pump in the garden
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 8.135 kWh/per year • Average electricity tariff: 15.5 ct/kWh • Average energy costs: 1.263 EUR/per year
Solar energy system
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 40 °C Heat consumption of the building: 19 kW Heating output of the immersion heater: 9 kW Control of heat pump and solar energy system
Hot water preparation • • • • • •
Number of persons: 5 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: None
System description • The house is completely heated by OLYMP aluminium radiators. These are designed in such a way that the radiators can run at 45°C. This system is additionally supported by a 10.5 m² solar energy system. Prior to the complete retrofitting measures, the house was heated by night storage heaters.
Page 18
Heating room
Dimplex heat pump reference system
Detached house in D-37133 Friedland with Air-to-water heat pump for outdoor installation LA 17PS Building data • • • • • • • •
Location: D-37133 Friedland Building type: Detached house Type: Renovation Heated living area: 192 m² Built in: 1959 Heat distribution system: Radiators / Panel heating Insulation level of the building envelope: good Oil consumption prior to conversion: 3100 l/per year
Costs of the heat pump heating system • Investment costs: 17.500 EUR (Material costs of heat pump and accessories, Material costs of the heat distribution system, Total installation costs of the entire heat pump heating system) • Average energy consumption: 7.800 kWh/per year • Average electricity tariff: 15.0 ct/kWh • Average energy costs: 1.170 EUR/per year • Oil consumption prior to conversion: 2.480 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 1.310 EUR/per year Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 50 °C Heat consumption of the building: 10,60 kW Heating output of the immersion heater: 6 kW
Hot water preparation • • • • • •
Number of persons: 4 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: None
System description • House with own conservatory
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Dimplex heat pump reference system
Detached house in D-37133 Friedland with Air-to-water heat pump for outdoor installation LA 17PS Building data • • • • • • • •
Location: D-37133 Friedland Building type: Detached house Type: Renovation Heated living area: 167 m² Built in: 1958 Heat distribution system: Radiators Insulation level of the building envelope: normal Oil consumption prior to conversion: 3800 l/per year
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 9.200 kWh/per year • Average electricity tariff: 16.0 ct/kWh • Average energy costs: 1.472 EUR/per year • Oil consumption prior to conversion: 3.040 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 1.568 EUR/per year Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 55 °C Heat consumption of the building: 15 kW Heating output of the immersion heater: 6 kW
Hot water preparation • • • •
Number of persons: 2 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes • Flange heater in hot water cylinder: yes • Utility company shut-off times: None System description • Modernisation of old buildings, customer-specific room temperature in kitchen and living room at least 25°C
Page 20
Dimplex heat pump reference system
Detached house in D-37133 Friedland with Air-to-water heat pump for outdoor installation LA 17PS Building data • • • • • • • •
Location: D-37133 Friedland Building type: Detached house Type: Renovation Heated living area: 212 m² Built in: 1995 Heat distribution system: Radiators / Panel heating Insulation level of the building envelope: normal Gas consumption prior to conversion: 3883 m³/per year
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 9.800 kWh/per year • Average electricity tariff: 15.0 ct/kWh • Average energy costs: 1.470 EUR/per year • Gas consumption prior to conversion: 2.400 EUR (at a gas price of 61.8 ct/m³) • Savings through heat pump: 930 EUR Heat pump operation • • • •
Heat source: Air Operating mode: Heat pump only (monovalent) max. set heating water temperature: 50 °C Heat consumption of the building: 10,60 kW
Contact If you have any questions about the system or for a viewing please contact • Contact person: Hr. J. Linne, Company Linne, Telephone: +49 (0)5504 / 386 • Viewing possible in: D-37133 Friedland
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Dimplex heat pump reference system
Multiple unit building in D-78247 Binningen with Air-to-water heat pump for outdoor installation LA 17PS Building data • • • • • • • •
Location: D-78247 Binningen Building type: Multiple unit building Type: Renovation Heated living area: 180 m² Built in: 1914 Heat distribution system: Radiators Insulation level of the building envelope: normal Oil consumption prior to conversion: 4200 l/per year
House view
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 9.800 kWh/per year • Average electricity tariff: 13.5 ct/kWh • Average energy costs: 1.323 EUR/per year • Oil consumption prior to conversion: 3.360 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 2.037 EUR/per year
Heat pump LA17PS
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 55 °C Heat consumption of the building: 15,80 kW Heating output of the immersion heater: 6 kW
Utility room
Hot water preparation • • • •
Number of persons: 5 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes • Flange heater in hot water cylinder: yes • Utility company shut-off times: 3hrs/day
publicly accessible temperature indicator
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Dimplex heat pump reference system
Detached house in D-89555 Steinheim with Air-to-water heat pump for outdoor installation LA 17TU Building data • • • • • • •
Location: D-89555 Steinheim Building type: Detached house Type: Renovation Heated living area: 190 m² Built in: 1985 Heat distribution system: Radiators Insulation level of the building envelope: normal
Outdoor installation
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 9.230 kWh/per year • Average electricity tariff: 13.0 ct/kWh • Average energy costs: 1.200 EUR/per year
House view
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 55 °C Heat consumption of the building: 15 kW Heating output of the immersion heater: 6 kW
Hot water preparation • • • • • •
Number of persons: 5 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: no Utility company shut-off times: 2hrs/day
Heating distribution with buffer tank
System description • The existing oil heating system in the above-mentioned building with 1 heating circuit via radiators was to be replaced by a modern heat pump system. The detached house was built in 1985; an indoor installation was out of the question because they wanted to make use of the additionally gained space in another way. The house is located in a 100% residential area, which is why the new DIMPLEX high-efficiency air-to-water heat pump with state-of-the-art ventilator technology, which effectively excluded the noise pollution problem, was chosen. The Dimplex series used also convinced the end customer of its merits thanks to its extremely high seasonal performance factors (despite higher flow temperatures) and the associated "State subsidy/MIP". Domestic hot water preparation for 5 people is also ensured via the heat pump. Page 23
Hot water cylinder
Dimplex heat pump reference system
Multiple unit building in D-78315 Radolfzell with Air-to-water heat pump for outdoor installation LA 17TU Building data • • • • • • • •
Location: D-78315 Radolfzell Building type: Multiple unit building Type: Renovation Heated living area: 213 m² Built in: 1978 Heat distribution system: Panel heating Insulation level of the building envelope: good Oil consumption prior to conversion: 4000 l/per year
LA17TU heat pump
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 6.930 kWh/per year • Average electricity tariff: 13.5 ct/kWh • Average energy costs: 936 EUR/per year • Oil consumption prior to conversion: 3.200 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 2.264 EUR/per year Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 35 °C Heat consumption of the building: 17,60 kW Heating output of the immersion heater: 6 kW
Hot water preparation • • • • • •
Number of persons: 5 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 3hrs/day
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Utility room
Dimplex heat pump reference system
Detached house in D-97906 Faulbach with Air-to-water heat pump for outdoor installation LA 17TU Building data • • • • • • •
Location: D-97906 Faulbach Building type: Detached house Type: Renovation Heated living area: 260 m² Built in: 1985 Heat distribution system: Panel heating Insulation level of the building envelope: good
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 6.919 kWh/per year • Average electricity tariff: 13.5 ct/kWh • Average energy costs: 935 EUR/per year Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 50 °C Heat consumption of the building: 17 kW Heating output of the immersion heater: 6 kW
Hot water preparation • • • • • •
Number of persons: 3 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Hot water heat pump Flange heater in hot water cylinder: no Utility company shut-off times: 4hrs/day
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Dimplex heat pump reference system
Industrial building in D-79346 Endingen with Air-to-water heat pump for outdoor installation LA 24AS Building data • • • • • • •
Location: D-79346 Endingen Building type: Industrial building Type: New building Heated living area: 400 m² Built in: 2008 Heat distribution system: Panel heating Insulation level of the building envelope: good
Building view from the south
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 10.100 kWh/per year • Average electricity tariff: 13.5 ct/kWh • Average energy costs: 1.364 EUR/per year
Building side view
Heat pump operation • Heat source: Air • max. set heating water temperature: 35 °C
System description • The building was constructed in 2008. As regards the orientation, importance was attached to optimum use of the sun's energy. This is why the building has a monopitch roof oriented exactly to the south. This roof is covered with 30.26 kW/p photovoltaics. The heat pump system is thus operated in a completely CO2-neutral way.
LA24AS heat pump
Business owner
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Dimplex heat pump reference system
Detached house in D-90562 Kalchreuth with Air-to-water heat pump for outdoor installation LA 25TU Building data • • • • • • • •
Location: D-90562 Kalchreuth Building type: Detached house Type: Renovation Heated living area: 300 m² Built in: 1990 Heat distribution system: Radiators / Panel heating Insulation level of the building envelope: normal Oil consumption prior to conversion: 6000 l/per year
Heat pump location
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 14.000 kWh/per year • Average electricity tariff: 16.8 ct/kWh • Average energy costs: 2.352 EUR/per year • Oil consumption prior to conversion: 4.800 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 2.448 EUR/per year
House view
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 45 °C Heat consumption of the building: 21 kW Heating output of the immersion heater: 12 kW
Utility room
Hot water preparation • • • • • •
Number of persons: 6 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 4hrs/day
Heat pump from the front
System description The existing oil heating system in the above-mentioned building with 2 heating circuits (underfloor heating + radiators) was to be replaced by a modern heat pump system. An indoor installation was out of the question, because the owners wanted to make use of the additionally gained space in another way. The outdoor installation was complicated by the surrounding dense development (residential area). They therefore chose the new DIMPLEX high-efficiency air-to-water heat pump featuring state-of-the-art ventilator technology. This meant that the problem of noise pollution could effectively be excluded. The Dimplex series used also convinced the end customer of its merits thanks to its extremely high seasonal performance factors (despite higher flow temperatures) and the associated "State Page 27 subsidy/MIP".
The occupants are happy with the new, extremely silent Dimplex heat pump
Heat pump front view
Dimplex heat pump reference system
Multiple unit building in D-78112 St. Georgen Schwarzwald with Air-to-water heat pump for outdoor installation LA 25TU Building data • • • • • • • •
Location: D-78112 St. Georgen Schwarzwald Building type: Multiple unit building Type: Renovation Heated living area: 230 m² Built in: 1984 Heat distribution system: Panel heating Insulation level of the building envelope: normal Oil consumption prior to conversion: 2300 l/per year
House view
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 5.200 kWh/per year • Average electricity tariff: 16.1 ct/kWh • Average energy costs: 839 EUR/per year • Oil consumption prior to conversion: 1.840 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 1.001 EUR/per year
LA25TU high-efficiency heat pump
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 40 °C Heat consumption of the building: 21 kW Heating output of the immersion heater: 6 kW
Hot water preparation • • • • • •
Number of persons: 4 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 4hrs/day
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Utility room
Dimplex heat pump reference system
Detached house in D-07356 Bad Lobenstein with Air-to-water heat pump for outdoor installation LA 25TU Building data • • • • • •
Location: D-07356 Bad Lobenstein Building type: Detached house Type: New building Heated living area: 285 m² Built in: 2010 Heat distribution system: Panel heating / Fan convectors • Insulation level of the building envelope: very good Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 7.700 kWh/per year • Average electricity tariff: 14.4 ct/kWh • Average energy costs: 1.109 EUR/per year Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 38 °C Heat consumption of the building: 15,70 kW Heating output of the immersion heater: 12 kW
Hot water preparation • • • •
Number of persons: 4 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes • Flange heater in hot water cylinder: yes • Utility company shut-off times: 3hrs/day
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Dimplex heat pump reference system
Industrial building in D-79379 Müllheim with Air-to-water heat pump for outdoor installation LA 28AS Building data • • • • • • •
Location: D-79379 Müllheim Building type: Industrial building Type: New building Heated living area: 620 m² Built in: 2007 Heat distribution system: Panel heating Insulation level of the building envelope: very good
LA28AS heat pump
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 17.360 kWh/per year • Average electricity tariff: 15.5 ct/kWh • Average energy costs: 2.691 EUR/per year
Outdoor installation
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 35 °C Heat consumption of the building: 26 kW Heating output of the immersion heater: 12 kW Hydraulic connection
Contact If you have any questions about the system or for a viewing please contact • Contact person: Herr Andreas Hirtler, Company Glen Dimplex, Telephone: +49 (0)160/90113568 • Viewing possible in: D-79379 Müllheim System description
Concrete core cooling
• The industrial building in Hacherstrasse is used as a warehouse. Concrete core cooling was chosen as a heat distribution system here, because it transfers the heat uniformly and with no draughts. The decision was made in favour of a heat pump because of the lower operating costs as compared to other heating systems. The billing for the winter of 2008/2009 - with costs of €2,200 - confirmed this. Page 30
Dimplex heat pump reference system
Other in D-97753 Karlstadt with Air-to-water heat pump for outdoor installation LA 28AS Building data • • • • • • •
Location: D-97753 Karlstadt Building type: Other Type: New building Heated living area: 408 m² Built in: 2007 Heat distribution system: Panel heating Insulation level of the building envelope: good
Costs of the heat pump heating system
House front
Side view of the house
• Investment costs: 29.660 EUR (Material costs of heat pump and accessories, Total installation costs of the entire heat pump heating system) • Average energy consumption: 15.893 kWh/per year • Average electricity tariff: 12.8 ct/kWh • Average energy costs: 2.034 EUR/per year Dining room area
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 35 °C Heat consumption of the building: 23 kW Heating output of the immersion heater: 5 kW Living area
Hot water preparation • • • •
Number of persons: 4 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes • Flange heater in hot water cylinder: yes • Utility company shut-off times: 4hrs/day
Heat pump behind the house
System description • The house, with a size of 408m², was designed by the architect Lisa Kraft from Karlstadt, and includes her living rooms and office spaces. It was built in the Bauhaus style with a business-like and clear structure, and is heated by a Dimplex heat pump. The hot water is distributed via panel heaters in the floor and in the walls. You can visit the architect's website at http://www.lisa-kraft.de/home.htm Page 31
Utility room with hot water cylinder in the basement of the house
Dimplex heat pump reference system
Detached house in D-53909 Zülpich with Air-to-water heat pump for outdoor installation LA 28AS Building data • • • • • • •
Location: D-53909 Zülpich Building type: Detached house Type: Renovation Heated living area: 600 m² Built in: 1977 Heat distribution system: Radiators Insulation level of the building envelope: normal
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 25.000 kWh/per year • Average electricity tariff: 16.0 ct/kWh • Average energy costs: 4.000 EUR/per year Heat pump operation • • • • •
Heat source: Air Operating mode: HP and second heat generator (bivalent) max. set heating water temperature: 50 °C Heat consumption of the building: 50 kW Second heat generator: Oil heating
Hot water preparation • • • • • •
Number of persons: 2 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 4hrs/day
System description • Air-to-water heat pump which fulfils the heating requirements of the house in bivalent operation with the existing oil heating system. The domestic water and swimming pool heating is additionally supported by a solar energy system.
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Dimplex heat pump reference system
Industrial building in D-09496 Marienberg with Air-to-water heat pump for outdoor installation LA 40AS Building data • • • • • • • •
Location: D-09496 Marienberg Building type: Industrial building Type: Renovation Heated living area: 1.000 m² Built in: 2008 Heat distribution system: Radiators / Panel heating Insulation level of the building envelope: normal Gas consumption prior to conversion: 130000 m³/per year
Costs of the heat pump heating system
Winter view of the heat pump
Distribution system
• Investment costs: 30.000 EUR (Material costs of heat pump and accessories, Total installation costs of the entire heat pump heating system) • Average energy consumption: 26.000 kWh/per year • Average electricity tariff: 14.8 ct/kWh • Average energy costs: 3.838 EUR/per year • Gas consumption prior to conversion: 80.340 EUR (at a gas price of 61.8 ct/m³) • Savings through heat pump: 76.502 EUR
Connection pipe regulation
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and second heat generator (bivalent) max. set heating water temperature: 48 °C Heat consumption of the building: 80 kW Second heat generator: Gas heating
Buffer tank, 1100 litres
Hot water preparation • • • •
Number of persons: 0 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Heat pump for heating purposes • Flange heater in hot water cylinder: no • Utility company shut-off times: 3hrs/day
90 kW gas boiler, manifold bar heating circuits
System description • Bivalent heating of the office rooms (approx. 1,000m²) Bivalence point -3°C. Second heat generator 90 kW gas boiler. No domestic hot water preparation. Page 33
Rear view of heat pump and factory building supplied by it
Dimplex heat pump reference system
Other in D-79837 St. Blasien with Air-to-water heat pump for outdoor installation LA40AS Building data • • • • • • • •
Location: D-79837 St. Blasien Building type: Other Type: Renovation Heated living area: 462 m² Built in: 1936 Heat distribution system: Radiators Insulation level of the building envelope: good Oil consumption prior to conversion: 6800 l/per year
Evangelical wooden church, St. Blasien
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 15.061 kWh/per year • Average electricity tariff: 15.8 ct/kWh • Average energy costs: 2.380 EUR/per year • Oil consumption prior to conversion: 5.440 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 3.060 EUR/per year
Exterior view with LA40AS
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 40 °C Heat consumption of the building: 27 kW Heating output of the immersion heater: 7.5 kW Dimplex heat pump
System description • The Christ Church in St. Blasien was built in 1936. The architect, Professor Otto Bartning, who is from the Black Forest himself, designs a church that is based as closely on the Black Forest house as possible. The evangelical Black Forest wooden church thus comes into existence. The church was destroyed by a fire in 1989, and was then rebuilt in 1991. The nave is heated very slowly using an air register. Radiators are installed for heating in the adjacent rooms and the basement.
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Nave
Dimplex heat pump reference system
Multiple unit building in D-79837 St. Blasien with Air-to-water heat pump for outdoor installation LA 40TU Building data • • • • • • • •
Location: D-79837 St. Blasien Building type: Multiple unit building Type: Renovation Heated living area: 456 m² Built in: 1905 Heat distribution system: Radiators Insulation level of the building envelope: normal Oil consumption prior to conversion: 8000 l/per year
St. Blasien ministry
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 14.100 kWh/per year • Average electricity tariff: 14.5 ct/kWh • Average energy costs: 2.045 EUR/per year • Oil consumption prior to conversion: 6.400 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 4.356 EUR/per year
LA40TU heat pump
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 55 °C Heat consumption of the building: 25,20 kW Heating output of the immersion heater: 12 kW LA40TU heat pump
Hot water preparation • • • • • •
Number of persons: 6 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 3hrs/day
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Dimplex heat pump reference system
Multiple unit building in D-37133 Friedland with Air-to-water heat pump for outdoor installation LA 40TU Building data • • • • • • • •
Location: D-37133 Friedland Building type: Multiple unit building Type: Renovation Heated living area: 340 m² Built in: 1954 Heat distribution system: Radiators Insulation level of the building envelope: normal Oil consumption prior to conversion: 9000 l/per year
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 21.000 kWh/per year • Average electricity tariff: 16.0 ct/kWh • Average energy costs: 3.360 EUR/per year • Energy costs of the second heat generator (average): 500 EUR/per year • Oil consumption prior to conversion: 7.200 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 3.340 EUR/per year (incl. second heat generator) Heat pump operation • • • • •
Heat source: Air Operating mode: HP and second heat generator (bivalent) max. set heating water temperature: 55 °C Heat consumption of the building: 30,60 kW Second heat generator: Oil heating
Hot water preparation • • • • • •
Number of persons: 10 Increased hot water requirement: yes Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: no Utility company shut-off times: 1hr/day
System description • The house was partially insulated. The building owner wished to retain the on-site oil heating system; this would, however, not have been necessary, despite the harsh winter of 2009/ 2010. Without the oil heating, the savings on the energy costs would have been even greater. Page 36
Dimplex heat pump reference system
Multiple unit building in D-79111 Freiburg - Rieselfeld with Air-to-water heat pump for outdoor installation 3x LA40TU, 1xLA35TUR Building data • • • • • • •
Location: D-79111 Freiburg - Rieselfeld Building type: Multiple unit building Type: New building Heated living area: 2.500 m² Built in: 2009 Heat distribution system: Panel heating Insulation level of the building envelope: very good
Multiple unit building
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 50.440 kWh/per year • Average electricity tariff: 13.5 ct/kWh • Average energy costs: 6.809 EUR/per year Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 35 °C Heat consumption of the building: 125 kW Heating output of the immersion heater: 36 kW Regulation
Hot water preparation • • • •
Number of persons: > 12 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes • Flange heater in hot water cylinder: yes • Utility company shut-off times: 3hrs/day Hydraulics with volume expander
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Dimplex heat pump reference system
Detached house in D-34466 Wolfhagen with Air-to-water heat pump for indoor installation LI 9TE Building data • • • • • • •
Location: D-34466 Wolfhagen Building type: Detached house Type: New building Heated living area: 180 m² Built in: 2010 Heat distribution system: Panel heating Insulation level of the building envelope: good
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 7.500 kWh/per year • Average electricity tariff: 17.0 ct/kWh • Average energy costs: 1.275 EUR/per year Heat pump operation • • • •
Heat source: Air Operating mode: Heat pump only (monovalent) max. set heating water temperature: 38 °C Heat consumption of the building: 9,90 kW
Hot water preparation • • • • • •
Number of persons: 3 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: None
Contact If you have any questions about the system please contact • Contact person: Hr. Schwarz, Company Ulrich, Telephone: +49 (0)5542 / 4369 System description • Air-to-water heat pump for indoor installation Page 38
Dimplex heat pump reference system
Terraced house in D-72644 Oberboihingen with Air-to-water heat pump for indoor installation LI 11TE Building data • • • • • • • •
Location: D-72644 Oberboihingen Building type: Terraced house Type: Renovation Heated living area: 132 m² Built in: 1981 Heat distribution system: Radiators Insulation level of the building envelope: good Oil consumption prior to conversion: 1650 l/per year
Heat pump with air ducts from the outside and to the outside
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 4.600 kWh/per year • Average electricity tariff: 14.0 ct/kWh • Average energy costs: 644 EUR/per year • Oil consumption prior to conversion: 1.320 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 676 EUR/per year
Old oil heating system
Heat pump operation • • • •
Heat source: Air Operating mode: Heat pump only (monovalent) max. set heating water temperature: 52 °C Heat consumption of the building: 4,60 kW
Hot water preparation
Non-detached house, front view
• • • •
Number of persons: 5 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes • Flange heater in hot water cylinder: yes • Utility company shut-off times: 3hrs/day System description • Viewings possible by arrangement via heating technician.
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Air intake opening for heat pump on the house
Dimplex heat pump reference system
Multiple unit building in D-54589 Stadtkyll with Air-to-water heat pump for indoor installation LI 16TE Building data • • • • • • •
Location: D-54589 Stadtkyll Building type: Multiple unit building Type: New building Heated living area: 320 m² Built in: 2008 Heat distribution system: Panel heating Insulation level of the building envelope: good
Heat pump system
Costs of the heat pump heating system • Investment costs: 19.500 EUR (Material costs of heat pump and accessories, Material costs of the heat distribution system, Total installation costs of the entire heat pump heating system) • Average energy consumption: 9.000 kWh/per year • Average electricity tariff: 15.0 ct/kWh • Average energy costs: 1.350 EUR/per year
Heat distribution
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 35 °C Heat consumption of the building: 15 kW Heating output of the immersion heater: 6 kW
Hot water preparation • • • • • •
Number of persons: 6 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 2hrs/day
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Air shafts
Dimplex heat pump reference system
Multiple unit building in D-08525 Plauen with Air-to-water heat pump for indoor installation LI 40AS Building data • • • • • • •
Location: D-08525 Plauen Building type: Multiple unit building Type: New building Heated living area: 572 m² Built in: 2010 Heat distribution system: Panel heating Insulation level of the building envelope: very good
The installation location of the air-to-water heat pump is the underground car park
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 15.000 kWh/per year • Average electricity tariff: 16.6 ct/kWh • Average energy costs: 2.490 EUR/per year
2nd view of the heat pump
Heat pump operation • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 38 °C Heating output of the immersion heater: 12 kW
System description
Air outlet flap for the heat pump
• New multiple-unit building with 6 apartments being completely heated with underfloor heating. The heat pump is located in the underground car park of the building. Domestic hot water preparation is carried out in a decentralised way via a continuous-flow heater.
Multiple unit building, outside view
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Dimplex heat pump reference system
Terraced house in D-73326 Deggingen with Air-to-water heat pump for indoor installation LIKI 14TE Building data • • • • • • • •
Location: D-73326 Deggingen Building type: Terraced house Type: Renovation Heated living area: 130 m² Built in: 1964 Heat distribution system: Radiators Insulation level of the building envelope: good Oil consumption prior to conversion: 3200 l/per year
Building view
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 7.811 kWh/per year • Average electricity tariff: 13.0 ct/kWh • Average energy costs: 1.015 EUR/per year • Oil consumption prior to conversion: 2.560 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 1.545 EUR/per year
Installation location garage
Heat pump operation • • • • •
Heat source: Air Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 58 °C Heat consumption of the building: 11,50 kW Heating output of the immersion heater: 6 kW
Integration of heating system
Hot water preparation • • • •
Number of persons: 4 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Heat pump for heating purposes • Flange heater in hot water cylinder: yes • Utility company shut-off times: None
Heat pump connections
System description • The entire house is heated by heating elements, which have partly been replaced. The building has also been insulated.
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Dimplex heat pump reference system
Detached house in D-95030 Hof with Brine-to-water heat pump SI 7TE Building data • • • • • • •
Location: D-95030 Hof Building type: Detached house Type: New building Heated living area: 150 m² Built in: 2002 Heat distribution system: Panel heating Insulation level of the building envelope: very good
House, exterior view
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 4.251 kWh/per year • Average electricity tariff: 14.0 ct/kWh • Average energy costs: 597 EUR/per year Heat pump operation • • • • •
Dimplex heat pump with short tenant
Heat source: Ground Ground type: Ground heat collector Operating mode: Heat pump only (monovalent) max. set heating water temperature: 35 °C Heat consumption of the building: 7 kW
Hot water preparation • • • • • •
Number of persons: 4 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: no Utility company shut-off times: 1hr/day
System description • Brine-to-water heat pump for heating operation via underfloor heating. The collector was installed independently. The domestic ventilation unit (exhaust air) LWP 300W utilises the exhaust air energy for domestic hot water preparation.
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Dimplex heat pump reference system
Detached house in D-53229 Bonn with Brine-to-water heat pump SI 11TE Building data • • • • • • • •
Location: D-53229 Bonn Building type: Detached house Type: Renovation Heated living area: 200 m² Built in: 1999 Heat distribution system: Panel heating Insulation level of the building envelope: good Gas consumption prior to conversion: 2791 m³/per year
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 5.022 kWh/per year • Average electricity tariff: 16.0 ct/kWh • Average energy costs: 804 EUR/per year • Gas consumption prior to conversion: 1.725 EUR (at a gas price of 61.8 ct/m³) • Savings through heat pump: 921 EUR Heat pump operation • Heat source: Ground • Ground type: Borehole heat exchanger • Operating mode: HP and other renewable energies (bivalent renewable) • max. set heating water temperature: 35 °C • Heat consumption of the building: 11 kW • Alternative heat generator: Solar Hot water preparation • • • • • •
Number of persons: 4 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 4hrs/day
System description • Brine-to-water heat pump with borehole heat exchangers. The 2nd heat generator is a set of solar collectors on the roof of the house, which supplies the occupants with hot water. Page 44
Dimplex heat pump reference system
Detached house in D-03058 Neuhausen - Spree with Brine-to-water heat pump SI 14TE Building data • • • • • • • •
Location: D-03058 Neuhausen - Spree Building type: Detached house Type: Renovation Heated living area: 180 m² Built in: 1994 Heat distribution system: Panel heating Insulation level of the building envelope: good Oil consumption prior to conversion: 2600 l/per year
External view of the Kossack family home
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 4.651 kWh/per year • Average electricity tariff: 16.4 ct/kWh • Average energy costs: 763 EUR/per year • Oil consumption prior to conversion: 2.080 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 1.317 EUR/per year
The heat pump and the hot water heat pump hardly take up any space compared to the previous oil heating
Heat pump operation • • • • •
Heat source: Ground Ground type: Borehole heat exchanger Operating mode: Heat pump only (monovalent) max. set heating water temperature: 38 °C Heat consumption of the building: 13 kW Thanks to the space saving, it was possible to build this cosy hobby room
Hot water preparation • • • • • •
Number of persons: 4 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Hot water heat pump Flange heater in hot water cylinder: yes Utility company shut-off times: 3hrs/day
System description • The family home was converted from oil to heat pump heating during heating renovation work in 2008. The family gained state support to the value of € 3,000 for converting to a heating system with renewable energy as part of the state's market incentive programme. Page 45
Pleasant and efficient heat thanks to the underfloor heating which was installed when the building was constructed
Dimplex heat pump reference system
Detached house in D-04316 Leipzig with Brine-to-water heat pump SIK 14TE Building data • • • • • • • •
Location: D-04316 Leipzig Building type: Detached house Type: Renovation Heated living area: 170 m² Built in: 1978 Heat distribution system: Radiators Insulation level of the building envelope: normal Oil consumption prior to conversion: 2500 l/per year
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 5.800 kWh/per year • Average electricity tariff: 16.7 ct/kWh • Average energy costs: 966 EUR/per year • Oil consumption prior to conversion: 2.000 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 1.034 EUR/per year Heat pump operation • • • • •
Heat source: Ground Ground type: Borehole heat exchanger Operating mode: Heat pump only (monovalent) max. set heating water temperature: 55 °C Heat consumption of the building: 11 kW
Hot water preparation • • • • • •
Number of persons: 2 Increased hot water requirement: no Circulation pipe: no Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 2hrs/day
Page 46
Heat pump with buffer tank and DHW
Dimplex heat pump reference system
Multiple unit building in D-67746 Merzweiler with Water-to-water heat pump WI 14TE Building data • • • • • • • •
Location: D-67746 Merzweiler Building type: Multiple unit building Type: Renovation Heated living area: 330 m² Built in: 1862 Heat distribution system: Radiators / Panel heating Insulation level of the building envelope: good Oil consumption prior to conversion: 4500 l/per year
View of the building facade: Old forge converted into a residential home and architect's office
Costs of the heat pump heating system • Please request investment costs directly from the heating technician, see contact person below • Average energy consumption: 8.000 kWh/per year • Average electricity tariff: 14.0 ct/kWh • Average energy costs: 1.120 EUR/per year • Oil consumption prior to conversion: 3.600 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 2.480 EUR/per year
Boiler room
Heat pump operation • • • • •
Heat source: Ground water Operating mode: HP and immersion heater (mono energy) max. set heating water temperature: 45 °C Heat consumption of the building: 12,20 kW Heating output of the immersion heater: 6 kW
Boiler room
Hot water preparation • • • • • •
Number of persons: 6 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: None
Water-to-water heat pump installed indoors
System description • The existing farmhouse (including adjacent buildings) was completely renovated in 2008, in which it was converted into a residential building and an architectural office. The original external structure of the buildings was retained. Removal of the old oil heating and installation of the water-to-water heat pump. Page 47
Rear view of the building
Dimplex heat pump reference system
Multiple unit building in D-79356 Eichstetten with Water-to-water heat pump WI 22TE Building data • • • • • • • •
Location: D-79356 Eichstetten Building type: Multiple unit building Type: Renovation Heated living area: 380 m² Built in: 1979 Heat distribution system: Radiators Insulation level of the building envelope: good Oil consumption prior to conversion: 5000 l/per year
Building view
Costs of the heat pump heating system • Investment costs: 23.000 EUR (Material costs of heat pump and accessories) • Average energy consumption: 8.800 kWh/per year • Average electricity tariff: 13.5 ct/kWh • Average energy costs: 1.188 EUR/per year • Oil consumption prior to conversion: 4.000 EUR per year (at an oil price of 80 ct/l) • Savings through heat pump: 2.812 EUR/per year
Boiler room
Heat pump operation • • • •
Heat source: Ground water Operating mode: Heat pump only (monovalent) max. set heating water temperature: 55 °C Heat consumption of the building: 19 kW Boiler room
Hot water preparation • • • • • •
Number of persons: 8 Increased hot water requirement: no Circulation pipe: yes Domestic hot water preparation via: Heat pump for heating purposes Flange heater in hot water cylinder: yes Utility company shut-off times: 2hrs/day
Page 48
Referentielijst warmtepompen België 23/aug/11
Lucht / Water warmtepompen Buitenopstelling Type WP LA 9 TU LA 9 PS LA 11 AS LA 11 AS LA 11 AS LA 11 PS LA 11 PS LA 11 TAS LA 11 TAS LA 11 TAS LA 11 TAS LA 11 TAS LA 12 TU LA 16 AS LA 16 AS LA 16 AS LA 16 AS LA 16 AS LA 16 AS LA 16 AS LA 16 AS LA 16 ASR LA 16 AS LA 16 MS LA 16 TAS LA 16 TAS La 16 TAS LA 16 TAS LA 16 TAS LA 16 TAS LA 16 TAS LA 16 TAS LA 17 PS LA 17 PS LA 17 PS LA 17 PS LA 17 PS LA 20 AS LA 20 AS LA 20 AS LA 20 AS LA 20 AS LA 22 PS LA 22 PS LA 22 PS LA 24 AS LA 24 AS LA 25 TU LA 26 HS LA 26 PS LA 26 PS LA 26 PS LA 28 AS LA 35 TUR+ LA 35 TUR+ LA 35 TUR+ LA 40 AS LA 40 AS LA 40 TU.
aantal 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 f 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 1 1 1 1 1
Type boiler PSW 100 PSW 100 WWSP 332 WWSP 332 WWSP 332
aantal 1 1 1 1 1
Buffervat WWSP 332 EVL 996 PSW 200 PSW 200 PSW 200 PSW 100 WWSP 332 WWSP 332 WWSP 332 WWSP 332 WWSP 332 WWSP 332
aantal
1 1 1 1 1
PSW 100 PSW 200 PSW 200 PSW 200 PSW 200 PSW 200 PSW 100 BWP 30 H WWSP 880 WWSP 880 WWSP 880 WWSP 880 WWSP 332 PSW 200 PSW 200 PSW 200 PSW 200 230 WWSP 332 PSW 100 PSW 200 PSW 200 PSW 200
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
PSW 200 WWSP 332 WWSP 880
1
WWSP 332
1
PSW 200 PSW 200 WWSP 880 WWSP 332 WWSP 332 PSW 200 PSW 200 BWP 30 H BWP 30 H WWSP 880 WWSP 332 PSW 200 WWSP 332 WWSP 332 PSW 200
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
WWSP 880 WWSP 332 PSW 200
1 1 1
PSW 200 PSW 200 PSW 200 WWSP 880 PSW 200 PSW 200 WWSP 900 PSW 200 PSW 200 PSW 500 WWSP 880 BWP 30 H
1 1 1 1 1 1 1 1 1 1 2 1
PSW 200 PSW 200 PSW 100 PSW 200 PSW 200 PSW 200 EVL 996
1 1 1 1 1 1 1 1
BWP 30 H
WWSP 332 PSW 200 PSW 200 PSW 200 PSW 200 WWSP 900 PSW 200 PSW 200 WWSP 880
1 1 1 1 1 1 1
WWSP 880 WWSP 332 WWSP 880 PSW 200
1 1 1 1
WWSP 900 PSW 200
1
WWSP 332 WWSP 900 PSW 500 PSW 200
1 1 1
Page 49
Woonplaats Hasselt Landen Zelem Genk Souveraine Lummen Stevoort Diepenbeek Diepenbeek Beringen Meersel Wellen Walshoutem Koersel Sint‐Truiden Tongeren Hoeselt Bilzen Linter Tongeren Tienen Tongeren Maasmechelen Overijse Alken Tongeren Kuringen Olen Nieuwerkerken Riemst Tessenderlo Antwerpen Opoeteren Diepenbeek Zepperen Bilzen As Gingelom Wommersom Herk‐de‐Stad Merkelbeek Relegem Heusden‐zolder Maaseik Kuringen Wilderen Alken Vielsalm Sint‐Truiden Kerkom Hasselt Linter Zonhoven Sint‐Truiden Meerhout Destelbergen Munsterbilzen Vollezele Stevoort
LA 60 TU LA 60 TU
1 1
PSW 500 PSW 500
1 1
WWSP 900 LWP 300 W
Zepperen Sint‐Truiden
1 1 1 1
BWP 30 HLW PSP 140E PSW 200 PSW 200
1 1 1 1
PSP 140 E WWSP 880
1
BWP 30 HS
1
Binnenopstelling LI 16 TE Li 16 TER+ Li 24 TE Li 28 TE
Ordingen Corswarem Genk Alsemberg
Bodem / Water warmtepompen Type WP Si 5 TE Si 5 TE Si 5 TE Si 5 TE Si 5 TE Si 5 TE Si 5 TE Si 5 TE Si 7 ME Si 7 TE Si 7 TE Si 7 TE Si 7 TE Si 7 TE Si 9 ME Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 Te Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE Si 9 TE SIK 9 TE SIK 9 TE SIK 9 TE SIK 9 TE
aantal Type boiler 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
SZB 680 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 WWSP 332
aantal Buffervat
1 1 1 1 1
aantal Woonplaats
PSW 100 SYL 250 WWSP 880 WWSP 332 WWSP 332 WWSP 332 WWSP 332
1 1 1 1
WWSP 880 WWSP 332 WWSP 332 WWSP 332 PSW 100 PSW 100 PSW 200 PSW 200
1 1 1 1 1 1
WWSP 332 BWP 30 H PSP 100 E PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
PSW 100 PSW 100 PSW 100 PSW 100 PSW 100
1 1 1 1 1
PSW 100
1
PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSP 100 E PSW 100 PSW 100
1 1 1 1 1 1 1 1
WWSP 880 WWSP 880 WWSP 332 WWSP 332 SZB 690 WWSP 332 WWSP 332 WWSP 332 WWSP 332 WWSP 332 WWSP 332 WWSP 332 WWSP 332 WWSP 332 WWSP 332 WWSP 900 WWSP 880 WWSP 332 WWSP 332 WWSP 332 WWSP 332
PSP 100 E PSW 100 PSW 100 WWSP 880 WWSP 332 WWSP 332 PSP 100 E
1 1 1 1 1 1 1
WWSP 332 WWSP 880 WWSP 332 PSP 100 ? PSP 100 E WWSP 332
1
WWSP 332 WWSP 332 WWSP 332
Page 50
1 1 1 1 1 1 1 1 1 1 1 1
Diest St. Katelijne Waver Landen Baelen Diepenbeek Broechem Tongeren Langdorp Beersel Werchter Tienen Mechelen Hoepertingen Herk de Stad Everberg Peer Overpelt Peer (Linde) Zonhoven Tienen Peer Heers diepenbeek Beerzel Sint‐Truiden Riemst Opwijk Borgloon Heusden‐Zolder Heusden‐Zolder Tielt‐Winge Zonhoven Bilzen Alken Ham Herent Alken Heusden‐Zolder Zonhoven Martenslinde Holsbeek zonhoven Kinrooi Voort Diepenbeek Schelle Halen Meerhout Rotselaar Dilsen‐Stokkem Lummen Lommel Wellen Beringen Kortenaken
Si 11 ME Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 Te Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE Si 11 TE SIH 11 TE SIH 11 TE SiH 11 TE SIK 11 ME SIK 11 TE Si 12 TR Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE Si 14 TE SIK 14 Sik 14 TE Sik 14 TE Si 17 TE Si 17 TE Si 17 Te Si 17 TE Si 21 TE Si 24 TE Si 24 TE Si 24 TE Si 37 TE Si 37 TE Si 50 TU HPK 7 TE HPK 7 TE HPK 7 TE HPK 7 TE HPK 7 TE HPK 9 TE
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
PSW 100 PSW 100 PSW 100 PSW 200
1 1 1 1
PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100
1 1 1 1 1 1 1 1 1
PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 100 PSW 200 WWSP 332 PSW 100
1 1 1 1 1 1 1 1 1 1 1
WWSP 332 WWSP 332 WWSP 880 WWSP 880 PSW 200 PSW 100 PSW 100 PSW 100 PSW 100 PSW 200 PSW 100 PSW 100 PSW 100
1 1 1 1 1 1 1 1 1 1 1 1 1
PSW 100 PSW 200
1 1
PSP 100 E PSW 100 PSP 100 E PSP 100 E WWSP 442 E WWSP 442 E WWSP 900 WWSP 900 WWSP 880 PSW 200 BWP 30 H WWSP 900
1 1 1 1 1 1 1 1 1 1 1 1
WWSP 880 WWSP 880 PSW 200 PSW 500 WWSP 332 WWSP 332 WWSP 332 WWSP 880 WWSP 332 WWSP 332
1 1 1 1 1 1 1 1 1 1
WWSP 332
1
WWSP 880 WWSP 332 WWSP 332 WWSP 332 WWSP 332
WWSP 880 WWSP 332 WWSP 880 WWSP 332 WWSP 332 WWSP 332 WWSP 332 WWSP 332 WWSP 900 WWSP 332 WWSP 332 WWSP 880 WWSP 332
1 1 1 1 1 1
PSW 200 WWSP 332
1
PSP 100 E PSW 100 PSP 100 E PSW 100 WWSP 900 WWSP 900
1 1 1 1
LWP 300 W WWSP 880 WWSP 880
WWSP 880 WWSP 880 WWSP 880 WWSP 880 WWSP 880 WWSP 880+FLHU70 WWSP 880 WWSP 880 PSP 100 PSP 100 E PSW 200
1 1 1
PSW 200
1
PSW 200 PSW 200 PSW 200 PSW 200 PSW 500
1 1 1 1 1
WWSP 900+flhu 70 PSP 100
2 1
PSP 100 E PSP 100 PSP 100 PSP 100
1 1 1 1
Page 51
1 1 1 1
Lincent Zonhoven Landen Spalbeek/hasselt Gingelom Neerpelt Werchter Kortenaken Tongeren Zonhoven Opwijk Kuringen Herk de Stad Tielen Zonhoven Bree Hoegaarden Zoutleeuw Zoutleeuw Hoepertingen Landen Hechtel‐Eksel Vliermaal Neeroeteren Neeroeteren Koersel Rotselaar Bekkevoort Halen Meeuwen‐Gruitr Bocholt Destelbergen Opglabbeek Hannut Paal Kortenaken Lubbeek Genk Opglabbeek Opwijk Ranst Brecht Maasmechelen Rotselaar Hoeselt Houthalen Kuringen Heist od Berg Berloz Ekeren Hulshout Hasselt Ham Destelbergen Leut Gaasbeek Brussel Sint‐Truiden Linter Sint‐Truiden Brasschaat Neerpelt Peer Schaffen‐Diest Kesselo Hamont‐Achel Berloz
HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK 9 TE HPK9 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 11 TE HPK 14 TE HPK 14 TE HPK 14 TE HPK 14 TE HPK 14 TE HPK 14 TE HPK 14 TE HPK 14 TE HPK 14 TE
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
Type WP WI 9 TE Wi 9 TE WI 14 TE Wi 14 TE Wi 14 TE Wi 14 TE Wi 14 TE Wi 14 TE Wi 14 TE Wi 18 TE Wi 18 TE Wi 22 TE Wi 22 TE Wi 22 TE
aantal 1 1 2 1 1 1 1 1 1 1 1 1 1 1
AWP 30 HLW BWP 30 H WWSP 332 WWSP 332 BWP 30 H BWP 30 H WWSP 332 BWP 30 H
1 1 1 1 1 1 1 1
BWP 30 H WWSP 332
1 1
WWSP 332 PSP 100 E PSP 100 E PSP 100 E PSP 100 E PSP 100 E WWSP 332 WWSP 332 WWSP 332 WWSP 900 WWSP 332 WWSP 332 WWSP 332 WWSP 900 WWSP 332
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
BWP 30 H PSP 100 E PSP 100 E PSP 100 E PSP 100 E PSP 100 E PSP 100 E PSP 100 E PSP 100 E PSP 100 E PSP 100 E WWSP 332 WWSP 442 E WWSP 442 E
1 1 1 1 1 1 1 1 1 1 1 1 1 1
WWSP 332 WWSP 332 WWSP 880 WWSP 332
1 1 1 1
PSP 100 PSP 100 PSP 100 PSP 100 E PSP 100 E PSP 100 PSP 100 PSP 100 PSP 100 E PSP 100 E PSP 100 E PSP 100 PSP 100 E WWSP 332
1 1 1 1 1 1 1 1 1 1 1 1 1
WWSP 332 WWSP 332 PSP 100 E PSP 100 E PSP 100 E PSP 100 E PSP 100 PSP 100 E PSP 100 E PSP 100 E PSP 100
1 1 1 1 1 1 1 1 1 1
PSP 100 E
1
WWSP 332 WWSP 442E WWSP 332 WWSP 880 WWSP 880 WWSP 332 WWSP 442E PSP 100 PSP 100 PSP 100 PSP 100 PSP 100 PSP 100 E PSW 100 PSP 100 E
1 1 1 1 1 1 1 1 1 1 1
Zutendaal Lummen Leut Neerpelt Herk‐de‐Stad Heers Heers Bassenge Genk Wellen Leuven Oostakker Lichtaart Hulshout Alken Riemst Mol Vlijtingen Alken zonhoven Wellen Heusden‐Zolder Dilsen‐Stokkem Bierbeek Aarschot Genk Landen Tongeren Hechtel‐Eksel St Lambr. Herk Heusden‐Zolder Bevel Westerlo Meeuwen Ninove(Aalst) Meerhout Schelle Rummen Werchter Wilderen Bree Panne Remicourt Tienen Gelinden Heusden‐Zolder Berloz
Water / Water warmtepompen Type boiler WWSP 332 WWSP 332 PSW 200 WWSP 442 E WWSP 900 WWSp 900 PSP 100 E PSW 100 WWSP 442 E WWSP 880 PSW 200 WWSP 900 PSW 200 PSW 200
aantal 1 1 1 1 1 1 1 1 1 1 1 1 1 1
Buffervat PSW 200 PSW 100 BWP 30H PSW 100 PSW 200 PSW 200
aantal 1 1 2 1 1 1
WWSP 332 PSP 100
1
WWSP 880 PSW 200 WWSP 332 WWSP 880
Page 52
1 1
Woonplaats Dilsen‐Stokkem Hechtel‐Eksel Sint‐Truiden ADC Meisse Houthalen Lummen Vliermaalroot Sint‐Truiden Ophasselt Sint‐Truiden Houthalen Oud turnhout Kinrooi
03. Prijsvergelijk Dimplex warmtepompen
LUCHT WATER WARMTEPOMP TE VERWARMEN OPPERVLAKTE Warmtepomp type S.P.F. warmtepomp Warmtepomp Stookplaatsinrichting + buffervat 300liter Boiler sanitair warm water TOTAAL (excl. BTW)
120m² 180m² 240m² LA 9TU LA 11TAS LA 16TAS 4,14 3,9 3,6 8.350 € 7.395 € 8.495 € 2.480 € 2.480 € 2.480 € 1.874 € 1.874 € 1.874 € 12.704 € 11.749 € 12.849 €
GEOTHERMISCHE WARMTEPOMP - HORIZONTALE CAPTATIE TE VERWARMEN OPPERVLAKTE Warmtepomp type S.P.F. warmtepomp Warmtepomp Stookplaatsinrichting + buffervat 300liter Boiler sanitair warm water Captatienet (geen grondwerken) TOTAAL (excl. BTW)
120m² SI 7TE 4,22 5.564 € 2.130 € 1.874 € 1.097 € 10.665 €
180m² SI 9TE 4,29 5.946 € 2.130 € 1.874 € 1.274 € 11.224 €
240m² SI 11TE 4,31 6.548 € 2.130 € 1.874 € 1.625 € 12.177 €
120m² 3.600 € 3.600 €
180m² 5.400 € 5.400 €
240m² 7.200 € 7.200 €
Verticale captatie eveneens mogelijk VLOERVERWARMING TE VERWARMEN OPPERVLAKTE Vloerverwarming TOTAAL (excl. BTW) Berekend op basis van een nieuwbouwwoning of in een bestaande woning met een K peil van 45 of lager . Prijzen geldig op 21/02/2011
Page 53
04. Verbruikskostenvergelijk Merk Dimplex LA 9TU
Uiterst efficiënte lucht/waterwarmtepomp voor universele plaatsing buiten Gegevens gebouw(en) en warmtebehoefte Standaard buitentemperatuur: -10 °C, Bivalentiepunt: -7 °C, Aantal volledig benutte uren per jaar: 1829 Gebouwomhulling: normaal geïsoleerd (verwarmingsgrenstemperatuur 15 °C), 120 m² Verwarmd woonoppervlak met Vloerverwarming 35 °C Berekende warmtebehoefte: 6 kW (Specifieke warmtebehoefte: 50 W/m²) , Mono-energetisch Jaarlijkse energiebehoefte voor verwarming: 10.974 kWh Warmwaterbereiding voor 4 persoon/personen met 30 l / persoon zonder Circulatieleiding Warmwaterbereiding: Verwarmingswarmtepomp met Flensverwarming Spertijdfactor: 1
Bedrijfskostenvergelijking op basis van opgegeven waarden en individuele gegevens
Specifieke energieprijs Jaarlijkse benuttingsgraad verwarmen Energiekosten verwarming Energiekosten warmwaterbereiding Jaarlijkse basisprijs / meterkosten Stroomverbruik brander Schoorsteenveger incl. emissiemeting Onderhoudscontract / service Kosten per maand Kosten per jaar Extra kosten per jaar* CO2-emissies per jaar** Gebruikte omgevingsenergie:
Warmtepomp mono-energetisch 19.3 ct/kWh 4,23
Gasverwarming
Olieverwarming
6.3 ct/kWh 85 %
80 ct/l 80 %
517 € 111 €
813 € 164 €
1.089 € 220 €
100 €
150 €
80 €
0€ 0€
40 € 60 €
80 € 80 €
0? 61 ? 727 ?
100 ? 111 ? 1.328 ? 600 ? 25.86 kg/m²a
150 ? 142 ? 1.698 ? 971 ? 42.87 kg/m²a
15.23 kg/m²a 9.938 kWh
* vergeleken met de warmtepomp ** Volgens GEMIS rekening houdend met de ingevoerde jaarlijkse benuttingsgraad Energie besparen in de renovatiesector De maximaal benodigde vertrektemperatuur heeft een sterke invloed op de efficiëntie van een warmtepompverwarmingssysteem, omdat elke graad reducering van de vertrektemperatuur een besparing van het energieverbruik van ca. 2,5 % oplevert. Bij installaties met radiatoren kan door het ombouwen op door een ventilator ondersteunde verwarmingsoppervlakken, zogeheten ventilatorconvectoren, een lagere systeemtemperatuur worden bereikt. Wettelijke aanwijzing: De bedrijfskostencalculator bepaalt de jaarlijkse vermogencoëfficiënt van een warmtepompverwarmingssysteem volgens de VDI 4650 en berekent uit de ingevoerde en opgeslagen waarden de te verwachten bedrijfskosten bij normaal gebruik, 20 °C kamer- en 45 °C warmwatertemperatuur. De warmtepomp moet volgens de gegevens in de projecteringsdocumenten, hydraulisch en regelingstechnisch optimaal geïntegreerd zijn. Hiervoor moet de uitvoerbaarheid ter plekke door een vakman worden gecontroleerd. De berekening wordt conform de Duitse berekeningsvoorschriften gemaakt en bij toepassing in andere landen moet de zinnigheid hiervan worden getoetst. Elke gebruiker dient de informatie zorgvuldig te controleren, met name op actualiteit, juistheid en volledigheid. Alle schadeclaims worden uitgesloten, voor zover geen wettelijke of in geval van opzet of van grove nalatigheid verplichte aansprakelijkheid geldt. Bètaversie om te testen, resultaten niet bindend!
Page 54
Verbruikskostenvergelijk Merk Dimplex LA 11TAS
; Plaats van opstelling: Buiten
Gegevens gebouw(en) en warmtebehoefte Standaard buitentemperatuur: -10 °C, Bivalentiepunt: -5 °C, Aantal volledig benutte uren per jaar: 1829 Gebouwomhulling: normaal geïsoleerd (verwarmingsgrenstemperatuur 15 °C), 180 m² Verwarmd woonoppervlak met Vloerverwarming 35 °C Berekende warmtebehoefte: 9 kW (Specifieke warmtebehoefte: 50 W/m²) , Mono-energetisch Jaarlijkse energiebehoefte voor verwarming: 16.461 kWh Warmwaterbereiding voor 4 persoon/personen met 30 l / persoon zonder Circulatieleiding Warmwaterbereiding: Verwarmingswarmtepomp met Flensverwarming Spertijdfactor: 1
Bedrijfskostenvergelijking op basis van opgegeven waarden en individuele gegevens
Specifieke energieprijs Jaarlijkse benuttingsgraad verwarmen Energiekosten verwarming Energiekosten warmwaterbereiding Jaarlijkse basisprijs / meterkosten Stroomverbruik brander Schoorsteenveger incl. emissiemeting Onderhoudscontract / service Kosten per maand Kosten per jaar Extra kosten per jaar* CO2-emissies per jaar** Gebruikte omgevingsenergie:
Warmtepomp mono-energetisch 19.3 ct/kWh 3,97
Gasverwarming
Olieverwarming
6.3 ct/kWh 85 %
80 ct/l 80 %
848 € 132 €
1.220 € 178 €
1.633 € 238 €
100 €
150 €
80 €
0€ 0€
40 € 60 €
80 € 80 €
0? 90 ? 1.079 ?
100 ? 146 ? 1.748 ? 668 ? 24.65 kg/m²a
150 ? 188 ? 2.261 ? 1.181 ? 40.86 kg/m²a
15.85 kg/m²a 13.781 kWh
* vergeleken met de warmtepomp ** Volgens GEMIS rekening houdend met de ingevoerde jaarlijkse benuttingsgraad Energie besparen in de renovatiesector De maximaal benodigde vertrektemperatuur heeft een sterke invloed op de efficiëntie van een warmtepompverwarmingssysteem, omdat elke graad reducering van de vertrektemperatuur een besparing van het energieverbruik van ca. 2,5 % oplevert. Bij installaties met radiatoren kan door het ombouwen op door een ventilator ondersteunde verwarmingsoppervlakken, zogeheten ventilatorconvectoren, een lagere systeemtemperatuur worden bereikt. Wettelijke aanwijzing: De bedrijfskostencalculator bepaalt de jaarlijkse vermogencoëfficiënt van een warmtepompverwarmingssysteem volgens de VDI 4650 en berekent uit de ingevoerde en opgeslagen waarden de te verwachten bedrijfskosten bij normaal gebruik, 20 °C kamer- en 45 °C warmwatertemperatuur. De warmtepomp moet volgens de gegevens in de projecteringsdocumenten, hydraulisch en regelingstechnisch optimaal geïntegreerd zijn. Hiervoor moet de uitvoerbaarheid ter plekke door een vakman worden gecontroleerd. De berekening wordt conform de Duitse berekeningsvoorschriften gemaakt en bij toepassing in andere landen moet de zinnigheid hiervan worden getoetst. Elke gebruiker dient de informatie zorgvuldig te controleren, met name op actualiteit, juistheid en volledigheid. Alle schadeclaims worden uitgesloten, voor zover geen wettelijke of in geval van opzet of van grove nalatigheid verplichte aansprakelijkheid geldt. Bètaversie om te testen, resultaten niet bindend!
Page 55
Verbruikskostenvergelijk Merk Dimplex LA 16TAS
; Plaats van opstelling: Buiten
Gegevens gebouw(en) en warmtebehoefte Standaard buitentemperatuur: -10 °C, Bivalentiepunt: -6 °C, Aantal volledig benutte uren per jaar: 1829 Gebouwomhulling: normaal geïsoleerd (verwarmingsgrenstemperatuur 15 °C), 240 m² Verwarmd woonoppervlak met Vloerverwarming 35 °C Berekende warmtebehoefte: 12 kW (Specifieke warmtebehoefte: 50 W/m²) , Mono-energetisch Jaarlijkse energiebehoefte voor verwarming: 21.948 kWh Warmwaterbereiding voor 4 persoon/personen met 30 l / persoon zonder Circulatieleiding Warmwaterbereiding: Verwarmingswarmtepomp met Flensverwarming Spertijdfactor: 1
Bedrijfskostenvergelijking op basis van opgegeven waarden en individuele gegevens
Specifieke energieprijs Jaarlijkse benuttingsgraad verwarmen Energiekosten verwarming Energiekosten warmwaterbereiding Jaarlijkse basisprijs / meterkosten Stroomverbruik brander Schoorsteenveger incl. emissiemeting Onderhoudscontract / service Kosten per maand Kosten per jaar Extra kosten per jaar* CO2-emissies per jaar** Gebruikte omgevingsenergie:
Warmtepomp mono-energetisch 19.3 ct/kWh 3,68
Gasverwarming
Olieverwarming
6.3 ct/kWh 85 %
80 ct/l 80 %
1.182 € 143 €
1.627 € 186 €
2.177 € 248 €
100 €
150 €
80 €
0€ 0€
40 € 60 €
80 € 80 €
0? 119 ? 1.425 ?
100 ? 180 ? 2.162 ? 738 ? 23.97 kg/m²a
150 ? 235 ? 2.816 ? 1.391 ? 39.73 kg/m²a
16.07 kg/m²a 17.588 kWh
* vergeleken met de warmtepomp ** Volgens GEMIS rekening houdend met de ingevoerde jaarlijkse benuttingsgraad Energie besparen in de renovatiesector De maximaal benodigde vertrektemperatuur heeft een sterke invloed op de efficiëntie van een warmtepompverwarmingssysteem, omdat elke graad reducering van de vertrektemperatuur een besparing van het energieverbruik van ca. 2,5 % oplevert. Bij installaties met radiatoren kan door het ombouwen op door een ventilator ondersteunde verwarmingsoppervlakken, zogeheten ventilatorconvectoren, een lagere systeemtemperatuur worden bereikt. Wettelijke aanwijzing: De bedrijfskostencalculator bepaalt de jaarlijkse vermogencoëfficiënt van een warmtepompverwarmingssysteem volgens de VDI 4650 en berekent uit de ingevoerde en opgeslagen waarden de te verwachten bedrijfskosten bij normaal gebruik, 20 °C kamer- en 45 °C warmwatertemperatuur. De warmtepomp moet volgens de gegevens in de projecteringsdocumenten, hydraulisch en regelingstechnisch optimaal geïntegreerd zijn. Hiervoor moet de uitvoerbaarheid ter plekke door een vakman worden gecontroleerd. De berekening wordt conform de Duitse berekeningsvoorschriften gemaakt en bij toepassing in andere landen moet de zinnigheid hiervan worden getoetst. Elke gebruiker dient de informatie zorgvuldig te controleren, met name op actualiteit, juistheid en volledigheid. Alle schadeclaims worden uitgesloten, voor zover geen wettelijke of in geval van opzet of van grove nalatigheid verplichte aansprakelijkheid geldt. Bètaversie om te testen, resultaten niet bindend!
Page 56
Verbruikskostenvergelijk Merk Dimplex SI 7TE
Grond/water-warmtepomp; Plaats van opstelling: Binnenshuis Gegevens gebouw(en) en warmtebehoefte Standaard buitentemperatuur: -10 °C, Aantal volledig benutte uren per jaar: 1829 Gebouwomhulling: normaal geïsoleerd (verwarmingsgrenstemperatuur 15 °C), 120 m² Verwarmd woonoppervlak met Vloerverwarming 35 °C Berekende warmtebehoefte: 6 kW (Specifieke warmtebehoefte: 50 W/m²) , Monovalent, Aardwarmtecollector Jaarlijkse energiebehoefte voor verwarming: 10.974 kWh Warmwaterbereiding voor 4 persoon/personen met 30 l / persoon zonder Circulatieleiding Warmwaterbereiding: Verwarmingswarmtepomp met Flensverwarming Spertijdfactor: 1
Bedrijfskostenvergelijking op basis van opgegeven waarden en individuele gegevens
Specifieke energieprijs Jaarlijkse benuttingsgraad verwarmen Energiekosten verwarming Energiekosten warmwaterbereiding Jaarlijkse basisprijs / meterkosten Stroomverbruik brander Schoorsteenveger incl. emissiemeting Onderhoudscontract / service Kosten per maand Kosten per jaar Extra kosten per jaar* CO2-emissies per jaar** Gebruikte omgevingsenergie:
Warmtepomp monovalent 19.3 ct/kWh 4,23
Gasverwarming
Olieverwarming
6.0 ct/kWh 85 %
60 ct/l 80 %
501 € 120 €
775 € 156 €
817 € 165 €
100 €
150 €
80 €
0€ 0€
40 € 60 €
80 € 80 €
0? 60 ? 720 ?
100 ? 107 ? 1.281 ? 561 ? 25.86 kg/m²a
150 ? 114 ? 1.371 ? 651 ? 42.87 kg/m²a
15.06 kg/m²a 9.975 kWh
* vergeleken met de warmtepomp ** Volgens GEMIS rekening houdend met de ingevoerde jaarlijkse benuttingsgraad Energie besparen in de renovatiesector De maximaal benodigde vertrektemperatuur heeft een sterke invloed op de efficiëntie van een warmtepompverwarmingssysteem, omdat elke graad reducering van de vertrektemperatuur een besparing van het energieverbruik van ca. 2,5 % oplevert. Bij installaties met radiatoren kan door het ombouwen op door een ventilator ondersteunde verwarmingsoppervlakken, zogeheten ventilatorconvectoren, een lagere systeemtemperatuur worden bereikt. Wettelijke aanwijzing: De bedrijfskostencalculator bepaalt de jaarlijkse vermogencoëfficiënt van een warmtepompverwarmingssysteem volgens de VDI 4650 en berekent uit de ingevoerde en opgeslagen waarden de te verwachten bedrijfskosten bij normaal gebruik, 20 °C kamer- en 45 °C warmwatertemperatuur. De warmtepomp moet volgens de gegevens in de projecteringsdocumenten, hydraulisch en regelingstechnisch optimaal geïntegreerd zijn. Hiervoor moet de uitvoerbaarheid ter plekke door een vakman worden gecontroleerd. De berekening wordt conform de Duitse berekeningsvoorschriften gemaakt en bij toepassing in andere landen moet de zinnigheid hiervan worden getoetst. Elke gebruiker dient de informatie zorgvuldig te controleren, met name op actualiteit, juistheid en volledigheid. Alle schadeclaims worden uitgesloten, voor zover geen wettelijke of in geval van opzet of van grove nalatigheid verplichte aansprakelijkheid geldt. Bètaversie om te testen, resultaten niet bindend!
Page 57
Verbruikskostenvergelijk Merk Dimplex SI 9TE
Grond/water-warmtepomp; Plaats van opstelling: Binnenshuis Gegevens gebouw(en) en warmtebehoefte Standaard buitentemperatuur: -10 °C, Aantal volledig benutte uren per jaar: 1829 Gebouwomhulling: normaal geïsoleerd (verwarmingsgrenstemperatuur 15 °C), 180 m² Verwarmd woonoppervlak met Vloerverwarming 35 °C Berekende warmtebehoefte: 9 kW (Specifieke warmtebehoefte: 50 W/m²) , Monovalent, Aardwarmtecollector Jaarlijkse energiebehoefte voor verwarming: 16.461 kWh Warmwaterbereiding voor 4 persoon/personen met 30 l / persoon zonder Circulatieleiding Warmwaterbereiding: Verwarmingswarmtepomp met Flensverwarming Spertijdfactor: 1
Bedrijfskostenvergelijking op basis van opgegeven waarden en individuele gegevens
Specifieke energieprijs Jaarlijkse benuttingsgraad verwarmen Energiekosten verwarming Energiekosten warmwaterbereiding Jaarlijkse basisprijs / meterkosten Stroomverbruik brander Schoorsteenveger incl. emissiemeting Onderhoudscontract / service Kosten per maand Kosten per jaar Extra kosten per jaar* CO2-emissies per jaar** Gebruikte omgevingsenergie:
Warmtepomp monovalent 19.3 ct/kWh 4,33
Gasverwarming
Olieverwarming
6.0 ct/kWh 85 %
60 ct/l 80 %
734 € 127 €
1.162 € 169 €
1.225 € 178 €
100 €
150 €
80 €
0€ 0€
40 € 60 €
80 € 80 €
0? 80 ? 960 ?
100 ? 140 ? 1.681 ? 721 ? 24.65 kg/m²a
150 ? 149 ? 1.793 ? 833 ? 40.86 kg/m²a
13.92 kg/m²a 14.398 kWh
* vergeleken met de warmtepomp ** Volgens GEMIS rekening houdend met de ingevoerde jaarlijkse benuttingsgraad Energie besparen in de renovatiesector De maximaal benodigde vertrektemperatuur heeft een sterke invloed op de efficiëntie van een warmtepompverwarmingssysteem, omdat elke graad reducering van de vertrektemperatuur een besparing van het energieverbruik van ca. 2,5 % oplevert. Bij installaties met radiatoren kan door het ombouwen op door een ventilator ondersteunde verwarmingsoppervlakken, zogeheten ventilatorconvectoren, een lagere systeemtemperatuur worden bereikt. Wettelijke aanwijzing: De bedrijfskostencalculator bepaalt de jaarlijkse vermogencoëfficiënt van een warmtepompverwarmingssysteem volgens de VDI 4650 en berekent uit de ingevoerde en opgeslagen waarden de te verwachten bedrijfskosten bij normaal gebruik, 20 °C kamer- en 45 °C warmwatertemperatuur. De warmtepomp moet volgens de gegevens in de projecteringsdocumenten, hydraulisch en regelingstechnisch optimaal geïntegreerd zijn. Hiervoor moet de uitvoerbaarheid ter plekke door een vakman worden gecontroleerd. De berekening wordt conform de Duitse berekeningsvoorschriften gemaakt en bij toepassing in andere landen moet de zinnigheid hiervan worden getoetst. Elke gebruiker dient de informatie zorgvuldig te controleren, met name op actualiteit, juistheid en volledigheid. Alle schadeclaims worden uitgesloten, voor zover geen wettelijke of in geval van opzet of van grove nalatigheid verplichte aansprakelijkheid geldt. Bètaversie om te testen, resultaten niet bindend!
Page 58
Verbruikskostenvergelijk Merk Dimplex SI 11TE
Grond/water-warmtepomp; Plaats van opstelling: Binnenshuis Gegevens gebouw(en) en warmtebehoefte Standaard buitentemperatuur: -10 °C, Bivalentiepunt: -9 °C, Aantal volledig benutte uren per jaar: 1829 Gebouwomhulling: normaal geïsoleerd (verwarmingsgrenstemperatuur 15 °C), 240 m² Verwarmd woonoppervlak met Vloerverwarming 35 °C Berekende warmtebehoefte: 12 kW (Specifieke warmtebehoefte: 50 W/m²) , Mono-energetisch, Aardwarmtecollector Jaarlijkse energiebehoefte voor verwarming: 21.948 kWh Warmwaterbereiding voor 4 persoon/personen met 30 l / persoon zonder Circulatieleiding Warmwaterbereiding: Verwarmingswarmtepomp met Flensverwarming Spertijdfactor: 1
Bedrijfskostenvergelijking op basis van opgegeven waarden en individuele gegevens
Specifieke energieprijs Jaarlijkse benuttingsgraad verwarmen Energiekosten verwarming Energiekosten warmwaterbereiding Jaarlijkse basisprijs / meterkosten Stroomverbruik brander Schoorsteenveger incl. emissiemeting Onderhoudscontract / service Kosten per maand Kosten per jaar Extra kosten per jaar* CO2-emissies per jaar** Gebruikte omgevingsenergie:
Warmtepomp mono-energetisch 19.3 ct/kWh 4,34
Gasverwarming
Olieverwarming
6.3 ct/kWh 85 %
80 ct/l 80 %
1.009 € 136 €
1.627 € 186 €
2.177 € 248 €
100 €
150 €
80 €
0€ 0€
40 € 60 €
80 € 80 €
0? 104 ? 1.244 ?
100 ? 180 ? 2.162 ? 918 ? 23.97 kg/m²a
150 ? 235 ? 2.816 ? 1.572 ? 39.73 kg/m²a
13.88 kg/m²a 18.523 kWh
* vergeleken met de warmtepomp ** Volgens GEMIS rekening houdend met de ingevoerde jaarlijkse benuttingsgraad Energie besparen in de renovatiesector De maximaal benodigde vertrektemperatuur heeft een sterke invloed op de efficiëntie van een warmtepompverwarmingssysteem, omdat elke graad reducering van de vertrektemperatuur een besparing van het energieverbruik van ca. 2,5 % oplevert. Bij installaties met radiatoren kan door het ombouwen op door een ventilator ondersteunde verwarmingsoppervlakken, zogeheten ventilatorconvectoren, een lagere systeemtemperatuur worden bereikt. Wettelijke aanwijzing: De bedrijfskostencalculator bepaalt de jaarlijkse vermogencoëfficiënt van een warmtepompverwarmingssysteem volgens de VDI 4650 en berekent uit de ingevoerde en opgeslagen waarden de te verwachten bedrijfskosten bij normaal gebruik, 20 °C kamer- en 45 °C warmwatertemperatuur. De warmtepomp moet volgens de gegevens in de projecteringsdocumenten, hydraulisch en regelingstechnisch optimaal geïntegreerd zijn. Hiervoor moet de uitvoerbaarheid ter plekke door een vakman worden gecontroleerd. De berekening wordt conform de Duitse berekeningsvoorschriften gemaakt en bij toepassing in andere landen moet de zinnigheid hiervan worden getoetst. Elke gebruiker dient de informatie zorgvuldig te controleren, met name op actualiteit, juistheid en volledigheid. Alle schadeclaims worden uitgesloten, voor zover geen wettelijke of in geval van opzet of van grove nalatigheid verplichte aansprakelijkheid geldt. Bètaversie om te testen, resultaten niet bindend!
Page 59
05. Hydraulische schema’s
Meer dan 570 hydraulische schema’s zijn online terug te vinden voor elke individuele toepassing van warmtepompen.
Of het nu gaat over lucht / water, bodem / water of water / water - toepassingen, •
al of niet in combina�e met aanmaak van sanitair warm water,
•
in monovalente of bivalente werking,
•
met of zonder ac�eve of passieve koeling,
•
gekoppeld met hernieuwbare energieën of met zwembadverwarming,
alle combina�es vindt u hier terug.
Mocht u toch nog zo crea�ef zijn en een combina�e vinden die hier nog niet bijstaat, tekenen wij deze zelf graag voor u uit.
Hierbij vindt u al enkele van de 570 schema’s terug.
Weblink: http://www.dimplex.de/nc/nl/professional/onlineplanner/hydraulische-integratie.html
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06. Kant-en-klare offertes Merk Dimplex SI 9ME
Bodem/water-warmtepomp Bestelkenmerk: SI 9ME Plaats van opstelling: Binnen Vertrektemperatuur max. 58 °C Behuizing met kunststof poederlaag Verwarmingswarmtepomp voor installatie binnen met geïntegreerde regeling WPM 2007 plus. Het in een bruinrode designkap geïntegreerde bedieningsgedeelte kan d.m.v. een wandmontageset (speciaal toebehoren MS PGD) ook als draadgebonden afstandsbediening worden gebruikt. Variabele aansluitmogelijkheden voor de aansluitingen van het glycolwater en van de verwarmingsinstallatie op de achterwand van de behuizing. Qua geluid geoptimaliseerd door geïsoleerde metalen behuizing en dubbele van trillingen losgekoppelde compressor. Economiseur voor hoge prestaties Universele constructiewijze met optionele warmwaterbereiding en flexibele uitbreidingsmogelijkheden voor: - Bivalent of bivalent-hernieuwbare werkwijze - Verdeelsystemen met ongemengde en gemengde verwarmingscircuits Softstarter en lastschuif voor glycolwater-circulatiepomp geïntegreerd; voor- en retourvoeler geïntegreerd; buitenvoeler (norm NTC-2), vuilfilter voor glycolwatercircuit worden meegeleverd. De warmtepomp voldoet aan de geldige normen en veiligheidsvoorschriften evenals aan de technische aansluitvoorwaarden (TAB) van de betreffende elektriciteitsmaatschappij.
Technische gegevens Dimplex Bodem/water-warmtepomp (Lage temperatuur) Bestelkenmerk
SI 9ME
Kleur behuizing
wit (overeenkomstig RAL 9003)
Onderste gebruiksgrens warmtebron (verwarmingsmodus) / Bovenste gebruiksgrens warmtebron (verwarmingsmodus) / Prestatie B0/W35*
-5 tot 25 °C 8,90 kW / 4,00
Verwarmingsvermogen 1 compressor / Prestatie B0/W45
8,70 kW / 3,10
Nominaal electriciteitsverbruik conform EN 14511 bij B0/W35
2,22 kW
Geluidsvermogensniveau apparaat
51 dB (A)
Koelmiddel / Koelmiddelhoeveelheid
R407C / 1,70 kg
Max. debiet verwarmingswater / Drukverlies
1,50 m³/h / 9200 Pa
Warmtebrondebeit (min.)
2 m³/h
Afmetingen (B x H x D)**
650 x 805 x 462 mm
Gewicht
118 kg
Aansluitspanning
1/N/PE ~230 V, 50 Hz
Beveiliging
C 20 A
Aansluiting warmtebron
1 ¼ Zoll
** Let erop dat er voor de buisaansluiting, bediening en het onderhoud extra ruimte nodig is.
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Offertevoorbeeld installaties SI 9ME Beschrijving
Bestel-
Artikel-
Voorbeeld
kenmerk.
nummer
aantal
SI 9ME SYL 250
353030 352260
1
AP SVT SVT 200 SVT 300 SVT 400 AFN 825 SWPR 500
348900 348910 348920 348930 328610 337500
1
PSP 100E CTHK 631 PSW 100 PSW 200 PSW 500 VSH BS KPV 25 EB KPV UP 60 UP 80 DDV 25 WWM 25 UPE 60 VTB 25 MMH 25
353360 336180 351090 339830 339210 347790 346590 348650 340300 340310 358390 346600 358870 339870 348640
1
HDLR 450 HCT 300
337450 351210
HL 11C HL 16C HL 26C HL 36C
351730 351740 351750 351760
WWSP 229E WWSP 332 FLH 25M SVK 852 WWSP 880
353380 346610 349430 326660 337880
WWSP 442E
353370
PWS 332
348620
PWD 750
349100
VTB 25 WWM 25 WPG 25 UP 60
339870 346600 356030 340300
NWPM
356960
EWPM
356970
LWPM 410 RBG WPM MS PGD AP PGD FG 3115 KRRV 003 TVS 400 WMZ 25
339410 339700 353810 356570 336620 322070 336330 358220
Warmtepomp Bodem/water-warmtepomp Elastische onderleg-dempingsstrook
Toebehoren voor warmtebronnen Aansluitpakket glycolwatercircuitverdeler Glycolwatercircuitverdeler 2-voudig Glycolwatercircuitverdeler 3-voudig Glycolwatercircuitverdeler 4-voudig Antivriesmiddel voor het glycolwatercircuit 20 l Lagedrukpressostaat glycolwater
3
Hydraulisch toebehoren Onderbouw-buffertank Dompelweerstand 2,0 kW; ~230 V Stand-buffertank 100 l* Stand-buffertank 200 l* Universele buffertank 500 l* Verbindingsset verwarmen voor bodem/water-warmtepomp Compactverdeler met overloopventiel Uitbreidingsmodule EB KPV Circulatiepompen voor verwarmingswater Circulatiepompen voor verwarmingswater Dubbel differentiedrukloze verdeler Warmwatermodule / module ongemengd verwarmingscircuit. Elektronisch geregelde circulatiepomp voor verwarmingswater Verdelerbalkjes Module gemengd verwarmingscircuit met temperatuurvoeler
1 1 1
Toebehoren voor verwarmen Buismodule voor dompelweerstand* Radiator 3kW
Toebehoren voor verwarmen en koelen Ventilatorconvector verwarmen/koelen* Ventilatorconvector verwarmen/koelen* Ventilatorconvector verwarmen/koelen* Ventilatorconvector verwarmen/koelen*
Toebehoren warmwaterbereiding Onderbouw-warmwaterboiler* Warmwaterboiler 300l met temperatuurvoeler Flensverwarming FLH 25M Veiligheidsklepcombinatie Warmwaterboiler 400 l met temperatuurvoeler* Design-warmwaterboiler met plaatstalen delen van de behuizing en temperatuurvoeler* Combinatieopslag verwarming & warmwaterbereiding* Combi-boiler voor verwarming en centrale doorloop opwarming van drinkwater.* Verdelerbalkjes Warmwatermodule / module ongemengd verwarmingscircuit. Pompmodule DN 25 voor directe aansluiting van de warmwaterboiler Circulatiepompen voor verwarmingswater
Regelingstechnisch toebehoren Uitbreiding voor een ethernetwerkverbinding Expansiemodule voor de aansluiting van de WPM 2006/2007 op een KNX/EIB-bus. Uitbreiding voor een Modbus-aansluiting Relaismodule zwembad / afstands-storingsindicator Wandmontagekit MS PGD Afstandsbediening voor WPM 2006/2007/EconPlus/R* Buitentemperatuurvoeler met behuizing Thermostaat voor verwarming en warm water Telefoon-afstandsschakeltoestel Warmtevolumeteller
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1 1
1 1 1
Stuk(s)
Prijs
Beschrijving
Bestel-
Artikel-
Voorbeeld
kenmerk.
nummer
aantal
DWU 25 DWU 40 ZWU 25 ZWU 32
347760 347770 348940 348950
RKS WPM
342220
RTK 601U RTK 602U TPW WPM
355610 355620 350970
SOLPU 1
356230
Stuk(s)
Prijs
Toebehoren voor passief koelen Driewegverdeelklep* Driewegverdeelklep* Tweewegafsluiters* Tweewegafsluiters*
Regelingstechnisch toebehoren (koelen) Airconditioningsstation voor het meten van temperatuur en luchtvochtigheid Kamertemperatuurregelaar verwarmen/koelen* Kamertemperatuurregelaar verwarmen/koelen Dauwpuntbewaker*
1
Toebehoren zonne-energie Zonnestation * Overige specifieke accessoires beschikbaar / vereist
Opmerkingen: De accessoires voor warmtebronnen zijn ontworpen voor grondspiralen in overeenstemming met projectdocumenten. In geval van afwijkende afmetingen c.q. bij grondsondes dient de vrije verdichting gecontroleerd te worden. Belangrijke aanwijzing: De combinatie van componenten en de aangegeven hoeveelheden vormen een vrijblijvende voorbeeldinstallatie, die gecontroleerd en indien nodig individueel aangepast moet worden. De pompdimensionering dient op basis van het drukverlies van de installatie en het minimale verwarmingswaterdebiet van de warmtepomp gecontroleerd te worden.
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07. Jaarrendement of SPF-berekening Snelle methode voor de berekening van de jaarlijkse vermogencoëfficiënt van een Dimplex-warmtepompsysteem De jaarlijkse vermogencoëfficiënt van het geïnstalleerde warmtepompsysteem wordt met behulp van de vereenvoudigde korte berekeningsmethode aan de hand van de correctiefactoren F(werking) en F(condensor) conform VDI 4650 alsook het/de vermogencoëfficiënt(en) COP conform DIN EN 14511 als volgt bepaald:
Stap 1: Selectie van de geldige berekeningsvergelijking voor SI 9ME, Merk Dimplex i) Constructie van de warmtepomp : Grond/waterwarmtepomp: Jaarlijkse vermogencoëfficiënt in de monovalente verwarmingsmodus = COP11 * F(werking) * F(condensor) / F(pompen) Jaarlijkse vermogencoëfficiënt in de warmwatermodus = COP11 * F(werking) * F(condensor) / F(pompen)
Stap 2: Relevante vermogencoëfficiënt(en) COP van de warmtepomp bepalen i) Volgens DIN EN 14511 gemeten vermogencoëfficiënt(en) voor Grond/waterwarmtepomp gebruiken: Werking met 1 compressor:
Vermogencoëfficiënt COP11: 4.00 (bij B0/W35)
Stap 3: Correctiefactor voor pompvermogen Installatie met tussenkringloop: Geen tussenkringloop noodzakelijk Correctiefactor voor pekelwaterpomp bepaald: Pekelpakket (200 W) Correctiefactor F(pompen): 1.075
Stap 4: Correctiefactor voor afwijkende temperatuurverschillen bij de condensor bepalen i) Het bij de proefbankmeting ingestelde temperatuurverschil bepalen:
5 K Temperatuurverschil verwarmingswater aan de condensor onder proefbankomstandigheden
ii) Daadwerkelijk temperatuurverschil verwarmingswater onder bedrijfsomstandigheden bepalen: 7 K temperatuurverschil bij de condensor onder bedrijfsomstandigheden, zie i)
iii) Correctiefactor F(condensor) bepalen:
Correctiefactor verwarmingsmodus / warmwatermodus: 1.02 / 1.051
Stap 5: Correctiefactor voor de onderhavige bedrijfsomstandigheden bepalen i) Maximale vertrektemperatuur op de genormeerde dag van systeemberekening vastleggen Maximale vertrektemperatuur op de genormde dag van systeemberekening: 35 °C
ii) Minimale warmtebrontemperatuur bepalen resp. locatie vastleggen Grond/water: minimale glycolwatertemperatuur: 0 °C
iii) Correctiefactor(en) warmtebron bepalen op basis van handmatige invoer: Grond/waterwarmtepomp (B0/W35): Correctiefactor: F(werking): 1,087 (Verwarmingsmodus) Correctiefactor: F(werking): 0,890 (Warmwatermodus)
Stap 6: Berekening van de jaarlijkse vermogencoëfficiënt: Genormeerde jaarlijkse vermogencoëfficiënt van de warmtepomp in de monovalente verwarmingsmodus: 4,13 Opmerking: Conform VDI 4650 wordt telkens een genormeerde jaarlijkse vermogencoëfficiënt voor de verwarmingsmodus en de warmwaterbereiding berekend. De totale jaarlijkse vermogencoëfficiënt is het resultaat van een vast aangenomen aandeel warmwaterbereiding van 18 %. Het aandeel van een aanwezige verwarmingsondersteuning door een ketel (bivalente werking) of een elektrisch verwarmingselement (mono-energetisch-parallelle werking) worden op basis van het bivalentiepunt en het vermogensaandeel van de warmtepomp berekend.
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08. Aanvraagformulier Dimplex warmtepompen
01. Woning : Nieuwbouw / Renova�e:_____ K waarde :_______ bouwjaar : ______ Vrijstaand ( 4 façades ) / Half open ( 3 façades ) / Rijwoning ( 2 façades )
02. Te verwarmen oppervlakte: gelijkvloers ______ m² badkamer: ______ m² Actuele verwarming : ________________________
eerste verdiep: ______ m²
03. Verbruik actuele verwarming met gas ( in m3 ) of mazout ( in l ) : In 2008 : …………………………….in 2009 : ………………………….. in 2010 : …………………………….. Koken gebeurd : elektrisch / op gas.
Vloerverwarming of 04. Afgi�esysteem : Radiatoren : aan 55 °C / 65 °C / 75°C Wandverwarming : Plafondverwarming : 05. Warmtepompsysteem :
Zwembadverwarming : groo�e zwembad : …………m3 Binnen / buiten / afgedekt en ingebouwd.
Lucht/Water Binnenopstelling Buitenopstelling
Bodem/water Water/water horizontaal capta�enet ver�cale aardsonde Oppervlakte tuin : ……………m2 Koeling gewenst : ac�eve koeling / passieve koeling / geen.
06. Sanitair warm water : aantal personen : ……… douche / bad / beide huidig systeem : boiler is vrijstaand / ingebouwd in gas- of mazoutbrander nieuw systeem : met warmtepomp / standalone toestel / met extra…….….....zonnepanelen 07. Start der werken : ____________________ architect : _______________________________________ Werfadres : ______________________________________________________________________ 08. Gegevens bouwheer :
Naam : ______________________________________________________
Adres : _______________________________ plaats____________________________________ Telefoon : ____________________________
E-mailadres:_______________________________
09. Aanwezige spanning : 230V mono / 3 x 230V / 3 x 400V + N. 10. Infovraag : zuiver informa�ef / concrete plannen/ offerte gewenst. 11. Plan woning toe te voegen indien in het bezit van een plan. + aanwezige isola�ewaardes. 12. Indien vloerverwarming gewenst , dient oppervlakte van de kamers individueel te worden opgegeven. 13. Geïnteresseerd in een infoavond : JA / NEEN Datum : _______________
Code
:
OOOO
Ingevuld door : _________________
Engels Thermocomfort-Paardenmarkt 83-2000 Antwerpen-T:03 231 88 84-F:03 231 01 74-
[email protected]
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09. Unieke omnium waarborg
Page 69
10. Aansluitschema’s
Page 70
Notities
Page 71
Versie 110912TM
Invoerder Dimplex Belux:
www.thermocomfort.be
Engels Thermo Comfort, Paardenmarkt 83 B-2000 Antwerpen T: 03 231 88 84 - F: 03 231 01 74 -
[email protected]
Strategic Heat Pump Partner:
www.zet.be
ZET bvba, Spookvliegerlaan 1131 B-3800 Sint-Truiden T: 011 69 75 76 - F: 011 67 33 50 -
[email protected]