Technical data. Danfoss DHP-A

Technical data Danfoss DHP-A An air heat pump which produces both heat and hot water Can operate efficiently down to -0 C Danfoss TWS tank gives plenty of hot water quickly and with low operating costs Can reduce household heating costs by up to three quarters Only defrosts when, and for as long as, necessary Main parts.... Bipack contents... Dimensions and connections.... Components... Space requirement... Sensors....... Installation principle... 7 Auxiliary heating and energy consumption calculation... 8 Technical data... 9 Power output and graphs... 0 Pressure drop graphs.... VFBMA0

Main parts Heat pump unit Scroll compressor Stainless steel heat exchanger Circulation pumps for brine and heating systems Valves and safety equipment for cooling systems and corresponding electrical components. Water heater 80 litres Internal anti-corrosion protection with copper or stainless steel It has an anode that does not require replacing, which means that it is maintenance-free Defroster tank for outdoor unit Exchange valve The heated water either passes through to the heating system or to the water heater depending on whether heating or hot water is to be produced Auxiliary heat kw electric heating element (. kw at 0 V heat pump installation) Electric heating element control in maximum of five steps Installed on the heating system s supply pipe Covers the demand of extra energy if the heat pump s capacity is exceeded Automatically connected in the heat pump unit if operating mode AUTO is selected. Control equipment Control computer with graphic display Temperature sensors (outdoor, supply pipe, return pipe, brine, defroster, and hot water) Room sensor (option) The control equipment controls the heat pup unit s included components (compressor, circulation pumps, auxiliary heaters and exchange valve) and determines when to start and stop the pump as well as producing heat for the house or hot water. VFBMA0 Technical data

Bipack contents Sizes kw - 0kW: Part no. Quantity Name 08U9 Safety valve 9 bar / Sizes kw: Part no. Quantity Name 08U9 Safety valve 9 bar / 08U70 Outdoor sensor Kimsafe 00 0 08U70 Outdoor sensor Kimsafe 00 0 08U089 Safety valve. bar / 08U089 Safety valve. bar / 08U8 Expansion and bleed tank without valve 08U8 Expansion and bleed tank without valve 08U00 Rubber collar hole -mm 08U00 Rubber collar hole -mm 08U0 Flex. hose DN0 L=0 08U0 Flex. hose DN L=0 08U00 Filling device brine DN 08U007 Filling device brine DN 08U00 Dirt filter with shut-off DN 08U00 Dirt filter with shut-off DN The outdoor unit is supplied as a package containing: Outdoor unit Covers Disassembled stand Necessary screws, nuts and washers. Defroster sensor DHP-A VFBMA0

Dimensions and connections 8 (±0) 9 0 80 0 8 8 00 0 7 9 78 7 0 80 9 0±0 The brine pipes can be connected on either the left or right-hand sides of the heat pump. Position Name Brine in, 8 Cu Brine out, 8 Cu Lead-in for incoming power supply, sensors and communication cable Heating system supply line, Cu: -0 kw, 8 Cu: kw Heating system return line, Cu: -0 kw, 8 Cu: kw Expansion pipe, Cu 7 Hot water pipe, Cu or stainless steel 8 Cold water pipe, Cu or stainless steel 9 Lifting point 0 Expansion outlet brine circuit, DN int. 0 0 7 0 90 00 Position Name Brine in (HP Brine out) 8 Cu Brine out (HP Brine in) 8 Cu VFBMA0 Technical data

Components 7 8 7 9 9 0 0 8 Left view Front view Position 7 8 9 0 Name Water heater, 80 litres Defrosting tank Evaporator, insulated Shunt valve, defrosting Exchange valve, heating system Supply line sensor Heating system circulation pump Auxiliary heating, immersion heater Brine pump brine system Brine in Drying filter Expansion valve Brine out to outdoor unit Right view 7 8 9 0 Hot water temperature sensor (displays maximum temperature) Control panel for control equipment Electrical panel Heating system supply line Compressor Low pressure pressostat Operating pressostats High pressure pressostat Condenser with primary side drain Return line sensor, heating system Brine in to defrosting tank during defrosting Position DHP-A Name Outdoor unit Stand Cover Connection, brine in Connection, brine out Connection, drip tray outlet 7 VFBMA0

Space requirement 90 0 Necessary service space and minimum headroom for heat pump installation. Sensors Outdoor sensor Other sensors C Ohm C kiloohm -0 88 0, -, -0 0,8-88, -0 8 0 7, - 8,0 0 8 0 8,0,8 0 7 0, 0, 0 8 0 8, 0 7, 0 0,0 0,0 0 8 70, 7,7 80, 8,7 90, 9,0 Conversion table for sensors NOTE! When reading the resistance of the sensors, the sensor leads must first be disconnected from the control equipment. VFBMA0 Technical data

Installation principle Supply line Return line Filler tap Location of expansion tank, manometer and safety valve (. bar) at pressurised brine circuit when the outdoor unit is positioned higher than the heat pump. Shut-off valve and strainer Safety valve, 9 bar cold water Flexible hoses Safety valve Exp BRINE HW = Hot water CW = Cold water HW CW Exp Expansion tank Pressure gauge Exp = Expansion Exp BRINE = Expansion brine circuit To outlet Safety valve,. bar Shut-off valve Location of the bleed and expansion tank when the outdoor unit is located at the same level or lower than the heat pump. NOTE! The fluid level in the tank must be above the highest point of the outdoor unit. Brine supply line Strainer Brine return line Filling kit incl. strainer DHP-A VFBMA0 7

Auxiliary heating and energy consumption calculation The auxiliary heater is made up of an electric heating element on the supply pipe that has three outputs, ADD.HEAT, ADD.HEAT and ADD.HEAT, and can be controlled in five steps for three phase installations. For three phase, 00V, installations: Step = ADD.HEAT = kw Step = ADD.HEAT = kw Step = ADD.HEAT + ADD.HEAT = 9 kw Step = ADD.HEAT + ADD.HEAT = kw Step = ADD.HEAT + ADD.HEAT + ADD.HEAT = kw For a single phase installation the auxiliary heater is made up of an electric heating element on the supply pipe that has two outputs, ADD.HEAT and ADD.HEAT, and can be controlled in three steps. For single phase, 0V, installations: Step = ADD.HEAT =. kw Step = ADD.HEAT = kw Step = ADD.HEAT + ADD.HEAT =. kw In the event of an alarm, the auxiliary heater engages automatically. The energy consumption calculation is difficult to specify exactly, but the average output for a normal house with normal hot water consumption in the following tables gives a relatively accurate result for each heat pump and heating system. Remember that the operating time for the heat pump installation must exceed one year before the specified values in the table are valid. The energy consumption for legionella operation is included in the hours for ADD.HEAT. The specified outputs include the circulation pumps and also the outdoor unit s fan. DHP-A - -8-0 - Under floor heating.90 kw.0 kw.00 kw.0 kw Radiators.0 kw.0 kw.0 kw.0 kw To calculate the energy consumption: Press either the right or left button once to open the INFORMATION main menu. The cursor is in the OPERATION menu option. Press the down button to move the cursor to the OPERAT.TIME menu option. Open the menu by pressing the right button once. Note how many hours the following values have: HEAT PUMP, ADD.HEAT, ADD.HEAT and ADD.HEAT. Find the value for the average output that corresponds to your heat pump and heating system in the table above, and multiply it by the number of HEAT PUMP hours. Note the result. Multiply the number of ADD.HEAT hours by. Note the result. 7 Multiply the number of ADD.HEAT hours by. Note the result. 8 Multiply the number of ADD.HEAT hours by. Note the result. 9 Add up the multiplied values to obtain the total energy consumption. 8 VFBMA0 Technical data

Technical data Heat pump DHP-A, DHP-AL 8 0 Refrigerant Type R0A R0A R0A R0A Amount kg 0.9..0.0 Test pressure MPa.... Design pressure MPa.... Compressor Type Scroll Scroll Scroll Scroll Oil POE POE POE POE Electrical data -N Main supply Volt Rated power, compressor kw Auxiliary heater, max kw steps Start current A Circuit breaker A Electrical data -N Main supply Volt Rated power, compressor kw Auxiliary heater, max kw steps Start current A Circuit breaker A Performance Output capacity kw Heat factor Output capacity kw Heat factor Nominal flow 8 Cooling circuit l/s Heating circuit l/s External available Cooling circuit kpa pressure 9 Heating circuit kpa Lowest outdoor temperature allowed for o C compressor start Max/min temperature Cooling circuit o C Heating circuit o C Pressure switches Low pressure MPa Operating MPa High pressure MPa Fan speed outdoor unit, low/high rpm Air flow m /h Sound power level 0 db(a) Fan output W Sound pressure level away from outdoor unit m db(a) m db(a) 8 m db(a) m db(a) 00V -N 00V -N 00V -N 00V -N.0... //9// //9// //9// //9// 9 0 / /0 / / /0 / / /0 / /0 / / 0 / 7 0 / 7 0 / 7 / 7 0V -N 0V -N 0V -N 0V -N....7.//..//..//..//. 8 97 08 / /0 / /0 /0 /0 /0 /0.0 7.0 8. 9.8.9..8.0.7 7.7 9. 0.8..9..7 0. 0. 0. 0. 0. 0. 0. 0. 0 0-0 -0-0 -0 0/- 0/- 0/- 0/- /0 /0 /0 /0 0.08 0.08 0.08 0.08./.8./.8./.8./.8.0.0.0.0 00/0 00/0 00/800 00/800 00/00 00/00 00/900 00/900 / / /8 /8 0/0 0/0 0/8 0/8 / / / / / / /7 /7 8/8 8/8 9/ 9/ / / / / Max. pipe lenght (Ø8mm between heat pump m 0 (0+0) 0 (0+0) 0 (0+0) 0 (0+0) and outdoor unit) Anti freeze media Ethylene glycol Ethylene glycol Ethylene glycol Ethylene glycol Water heater volume l 80 80 80 80 Weight, DHP-A / outdoor unit Weight, DHP-AL / DWH-A kg kg 0/9 0/9 0/9 8/9 /0 /0 /0 /0 ) At AW according to EN (including circulation pumps and outdoor unit). ) At A7W according to EN (including circulation pumps and outdoor unit). ) Heat pump with kw auxiliary heater (-N. kw). ) Heat pump with kw auxiliary heater (-N kw). ) Heat pump with 9 kw auxiliary heater (-N. kw). ) kw auxiliary heater (compressor off). 7) kw auxiliary heater (compressor off). 8) Nominal flow: heating circuit Δ0K, cooling circuit ΔK. 9) Pressure drop that must not be exceeded outside the heat pump without the nominal flow being reduced. 0) Sound power level measured according to EN ISO 7. ) Sound pressure level calculated according to EN ISO 0. ) For DHP-A, -AL models, do not use propylene glycol or ethanol. ) The levels represent the average values for a measurement box shaped surface whose sides have the given perpendicular distance to the outdoor unit s sides. ) The levels represent the average values for a hemispherical surface with the given radius and the outdoor unit in the centre of the sphere. DHP-A VFBMA0 9

Power output and * graphs The data shown in the graphs is according to EN including circulation pumps and outdoor unit. DHP-A, supply line C Heating capacity Power output (kw) and Power input Outdoor temperature ( C) DHP-A, supply line C Heating capacity Power output (kw) and Power input Outdoor temperature ( C) *) = Coefficient of Performance 0 VFBMA0 Technical data

Power output and graphs The data shown in the graphs is according to EN including circulation pumps and outdoor unit. DHP-A 8, supply line C Heating capacity Power output (kw) and Power input Outdoor temperature ( C) DHP-A 8, supply line C Heating capacity Power output (kw) and Power input Outdoor temperature ( C) DHP-A VFBMA0

Power output and graphs The data shown in the graphs is according to EN including circulation pumps and outdoor unit. DHP-A 0, supply line C Heating capacity Power output (kw) and 0 9 8 7 0 Power input Outdoor temperature ( C) DHP-A 0, supply line C 0 Heating capacity Power output (kw) and 9 8 7 0 Power input Outdoor temperature ( C) VFBMA0 Technical data

Power output and graphs The data shown in the graphs is according to EN including circulation pumps and outdoor unit. Power output (kw) and 0 9 8 7 0 DHP-A, supply line C Heating capacity Power input Outdoor temperature ( C) Power output (kw) and 0 9 8 7 0 DHP-A, supply line C Heating capacity Power input Outdoor temperature ( C) DHP-A VFBMA0

Pressure drop graphs - Warm side Heat pump, DHP-A Pressure drop warm side, estimated from measurements Pressure drop (kpa) Volume flow, water (l/s) Heat pump, DHP-A8 Pressure drop warm side, estimated from measurements Pressure drop (kpa) Volume flow, water (l/s) VFBMA0 Technical data

Pressure drop graphs - Warm side Heat pump, DHP-A0 Pressure drop warm side, estimated from measurements Pressure drop (kpa) Volume flow, water (l/s) Heat pump, DHP-A Pressure drop warm side, estimated from measurements Pressure drop (kpa) Volume flow, water (l/s) DHP-A VFBMA0

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