Panasonic Aquarea WH-MDF06E3E5 series Design Handbook Download Page 1

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2014

DESIGN HANDBOOK

for split and compact systems

Order-Nr. A2W-SPX-140519-016

Aquarea Air

Water-heatpump – heating and cooling systems

DESIGN HANDBOOK

for Bi-Bloc and Monobloc systems

Summary of Contents for Aquarea WH-MDF06E3E5 series

Page 1: ...2014 DESIGN HANDBOOK for split and compact systems Order Nr A2W SPX 140519 016 Aquarea Air Water heatpump heating and cooling systems DESIGN HANDBOOK for Bi Bloc and Monobloc systems ...

Page 2: ... 14 9 three phase WH SDC16F6E5 WH UD16FE5 Heating cooling 16 6 single phase WH SDC16F9E8 WH UD16FE8 Heating cooling 16 9 three phase WH MDC05F3E5 Heating cooling 5 3 single phase WH MDF06E3E5 Heating 6 3 single phase WH MDF09E3E5 Heating 9 3 single phase WH MDC09E3E5 Heating cooling 9 3 single phase WH MDF09C3E8 Heating 9 3 three phase WH MDC09C3E8 Heating cooling 9 3 three phase WH MDF12C6E5 Heat...

Page 3: ...se WH MXC09D3E5 Heating cooling 9 3 single phase WH MXF09D3E8 Heating 9 3 three phase WH MXC09D3E8 Heating cooling 9 3 three phase WH MXF12D6E5 Heating 12 6 single phase WH MXC12D6E5 Heating cooling 12 6 single phase WH MXF12D9E8 Heating 12 9 three phase WH MXC12D9E8 Heating cooling 12 9 three phase Aquarea HT WH SHF09F3E5 WH UH09FE5 Heating 9 3 single phase WH SHF09F3E8 WH UH09FE8 Heating 9 3 thr...

Page 4: ... 6 single phase WH SDC12C6E5 WH UD12CE5 Heating cooling 12 6 single phase WH SDF12C9E8 WH UD12CE8 Heating 12 9 three phase WH SDC12C9E8 WH UD12CE8 Heating cooling 12 9 three phase WH SDF14C6E5 WH UD14CE5 Heating 14 6 single phase WH SDC14C6E5 WH UD14CE5 Heating cooling 14 6 single phase WH SDF14C9E8 WH UD14CE8 Heating 14 9 three phase WH SDC14C9E8 WH UD14CE8 Heating cooling 14 9 three phase WH SDF...

Page 5: ...9D3E8 WH UX09DE8 Heating cooling 9 3 three phase WH SXF12D6E5 WH UX12DE5 Heating 12 6 single phase WH SXC12D6E5 WH UX12DE5 Heating cooling 12 6 single phase WH SXF12D9E8 WH UX12DE8 Heating 12 9 three phase WH SXC12D9E8 WH UX12DE8 Heating cooling 12 9 three phase Aquarea HT WH SHF09D3E5 WH UH09DE5 Heating 9 3 single phase WH SHF09D3E8 WH UH09DE8 Heating 9 3 three phase WH SHF12D6E5 WH UH12DE5 Heati...

Page 6: ...19 Series 20 Bi Bloc and Monobloc system 21 3 Products functions and technical data 22 3 1 Bi Bloc system 22 3 1 1 Product features 22 Hydromodule 24 Outdoor unit 27 Technical data 30 3 2 Monobloc system 38 3 2 1 Monobloc unit 40 Technical data 42 3 3 Accessories 44 3 3 1 Hot water tank 44 3 3 2 Extras 53 4 Closed loop control 54 4 1 Design 54 4 2 Functions 54 4 2 1 Basic functions 54 4 2 2 Furthe...

Page 7: ...ces from monobloc unit 83 Fastening of the monobloc unit 84 5 10 Acoustics 85 5 10 1 Sound pressure level 85 5 10 2 Sound power levels for estimation of sound pressure level 86 5 11 Cooling 89 5 11 1 Cooling with underfloor heating 89 5 11 2 Cooling with fan convectors 89 5 12 Electrical connection 90 5 12 1 Power supply 90 5 12 2 Connections to the inputs and outputs 93 5 12 3 DNO and tariffs 94 ...

Page 8: ...t utilise a boiler which generates tem peratures of several hundred degrees during the combustion process a heat pump generates only the temperature that is needed In doing so the Aquarea air water heat pump utilises the heat energy in the surrounding air to heat buildings and provide hot water In other words the system utilises the freely available environmental air Electricity is needed only to ...

Page 9: ...t from the ambient envi ronment figure 5 on the previous page This process is a continuous cycle and can be controlled by the inverter plus technology of the Aquarea heat pump so that the current heat re quirement is catered for Reversing the cycle process causes the unit to act like a refrigerator This allows Aquarea heat pumps to be used also for air conditioning The Coefficient of Performance C...

Page 10: ...e same time fuel prices oil gas wood pellets are sub ject to strong price fluctuations and are becoming increasingly more expensive In contrast an Aquarea heat pump utilises up to 80 free ambient heat can be used Electrical energy must be used only for the remaining 20 of the heat pump operation In comparison with a direct electric heater the amount of electrical energy used for the same heat prod...

Page 11: ...edited with the Microgeneration Certification Scheme MCS www microgenerationcertification org Comparison of power consumption of an Aquarea heat pump to a direct electric heater for the same electricity input 80 20 1 2 1 Aquarea heat pump 2 Conventional electric heating Note Panasonic offers a free program for sizing heat pumps with which the seasonal performance factor can be calculated according...

Page 12: ...nd is inversely proportional to the heat requirement This means that the most heat must be generated when the heat source is at its coldest state This must be accounted for during the planning phase so that the required internal temperatures are always achieved Likewise the noise of the fans and air flow must be considered by ensur ing minimum distances from neighbouring plots as well as by select...

Page 13: ...r details see the chapter 3 It is generally true that the larger the difference between outside temper ature and the temperature of the generated heat the lower the perfor mance factor of the heat pump Since high temperature differences oc cur extremely rarely with correctly designed heat pump systems in the course of the year temporary heating with an additional electric heater is often accepted ...

Page 14: ... are used they should be planned likewise with a low design temperature of e g 45 C in order to ensure a high efficiency of the heat pump system An additional electric heater of 3 to 9kW caters for sustained heating comfort even under very low outside temperatures due to the mono energetic mode A bivalent operation in combination with an external heater is a possible alternative The Aquarea heat p...

Page 15: ...ot at all connected with reduced comfort However with lower stored temperatures attention must be paid to the danger of legionella which especially thrive within the range 30 to 45 C The Panasonic hot water cyinders are equipped with an electric immersion heater which can be activated for legionella control on a periodic timer basis Aquarea heat pumps can be combined easily with solar thermal inst...

Page 16: ...he cooling mode with high relative humidity This must be ruled out particularly with radiant panels via a dew point sensor the supply water temperature must be raised through mixing with the return flow or the cooling mode must be switched off in an emergency Fan convectors can be operated with much lower supply water temperatures in comparison to radiant panels in the cooling mode and therefore h...

Page 17: ...ase voltage supply 5 2 4 1 Systematics WH S D C 07 F 3 E 5 Systematics of hyrdomodule Indoore unit Bi Bloc WH air water heat pump S Split unit D Aquarea LT X Aquarea T CAP H Aquarea HT F Only heating C Heating and cooling2 Nominal heating capacity 03 to 16 3 to 16kW1 C D E F Generation Capacity of the additional electric heater 3 3kW 6 6kW 9 9kW Market E Europe Electricity supply 5 single phase 8 ...

Page 18: ...urope Electricity supply 5 single phase 8 three phase WH Air water heat pump U Split unit D Aquarea LT X Aquarea T CAP1 H Aquarea HT Nominal heating capacity 03 to 16 3 to 16kW1 C D E F Generation Market E Europe Voltage supply 5 single phase 8 three phase Systematics of outdoor unit Bi Bloc Systematics of monobloc unit 1 The available power classes differ depending on the respective series The ta...

Page 19: ...three phase Overview of series and model variants Aquarea LT Aquarea T CAP Aquarea HT Bi Bloc system The variety of properties and functions of the Aquarea heat pumps leads to a large number of different model variants which often only differ from one another through small differences like the capacity of the additional electric heater Externally viewed the units are nearly similar apart from dist...

Page 20: ...er temperature and capacity stability at very low outside temperatures as follows Maximum supply water temperature 55 C Capacity at very low outside temperatures kW heating capacity varies Maximum supply water temperature 55 C Capacity at very low outside temperatures Heating capacity is constant up to 15 C at 35 C output water temperature Maximum supply water temperature 65 C Capacity at very low...

Page 21: ...eating system is in danger of freezing due to power failure or when the power supplier cuts off the supply The heat pump is operated via a wired remote control that is mounted inside the building and is connected to the Monobloc unit by means of a 15 metre long cable Bi Bloc system Monobloc system Bi Bloc and Monobloc system 1 4 3 5 2 2 1 Refrigerant circuit 2 Heating circuit water 3 Outdoor unit ...

Page 22: ... environmentally compatible refrigerant R410A with Aquarea LT and T CAP and R407C with Aquarea HT does no damage to the ozone layer All units from generation E onwards are equipped with high efficiency pumps optimum control by means of room thermostats room thermostats not supplied models for heating mode as well as heating and cooling mode are available optimised capacity depending on the return ...

Page 23: ...for models up to 9kW piping up to 40 metres with a height difference of up to 30 metres for models with 12 to 16kW the piping connection to the outdoor units can occur in four directions front rear side bottom Supply water temperature C Outside temperature C Cooling mode1 Maximum 20 43 Minimum 5 16 Heating mode Maximum 55 652 35 Minimum 25 203 1 valid for models with cooling mode 2 valid for Aquar...

Page 24: ...re control 7 FI RCD circuit breakers differs from model to model see Detail A 8 Cabinet front plate 9 Cabinet 10 Handle 11 Overload protection 12 Additional electric heater 13 10L Expansion vessel 14 Cable passage 15 Deaeration POWER SUPPLY 1 N L POWER SUPPLY 2 N L POWER SUPPLY 1 N L POWER SUPPLY 2 N L POWER SUPPLY 2 POWER SUPPLY 1 LA1 LA2 LA3 N N L POWER SUPPLY 3 LC1 LC2 LC3 N POWER SUPPLY 1 LA1 ...

Page 25: ...oard 2 Controller 3 Safety valve 4 Flow rate cut out 5 Manometer water pressure gauge 6 3 stage water circulation pump Figure shows standard pump 7 FI RCD circuit breakers differs from model to model see Detail A 8 Cable passage 9 Cabinet front plate 10 Cabinet 11 Handle 12 Overload protection differs from one model to the other see Detail B 13 Additional electric heater 3 6 and or 9kW 14 10l Expa...

Page 26: ...ndbook 07 2014 Products functions and technical data Bi Bloc system Hydromodule Dimensional drawing for hydromodule 1 Front view 2 Side view 3 Bottom view Dimensions of hydromodule in mm 98 5 97 5 38 502 892 353 271 241 228 5 97 5 205 5 1 2 3 ...

Page 27: ...al data Bi Bloc system Outdoor unit 540 622 330 298 23 124 846 69 160 298 37 2 3 1 Outdoor unit Dimensional drawing for outdoor unit with one fan 3 and 5kW 1 Front view 2 Side view 3 Bottom view Dimensions of outdoor unit with one fan 3 and 5 kW in mm The air flow is depicted by arrows ...

Page 28: ...nical data Bi Bloc system Outdoor unit 620 795 400 355 320 24 140 900 140 320 2 3 1 Outdoor unit Dimensional drawing for outdoor unit with one fan 7 and 9kW 1 Front view 2 Side view 3 Top view Dimensions of outdoor unit with one fan 7 and 9 kW in mm The air flow is depicted by arrows ...

Page 29: ...ctions and technical data Bi Bloc system Outdoor unit 1 340 400 355 320 900 320 2 3 620 140 140 1 24 Dimensional drawing for outdoor unit with two fans 1 Front view 2 Side view 3 Top view Dimensions of outdoor unit with two fans in mm The air flow is depicted by arrows ...

Page 30: ...sumption A2 W55 kW 1 49 2 07 3 16 4 18 4 4 4 55 4 55 Coefficient of performance A2 W55 2 15 1 98 1 9 2 18 2 16 2 15 2 15 Cooling capacity A35 W7 kW 3 2 4 5 6 7 10 11 5 12 2 Power consumption A35 W7 kW 1 04 1 67 2 28 2 88 3 65 4 36 4 76 Coefficient of performance EER A35 W7 3 08 2 69 2 63 2 43 2 81 2 64 2 56 Unit data Dimensions H W D mm 892 502 353 Weight kg 43 44 43 44 43 43 45 45 46 Water side c...

Page 31: ... 9 12 1 86 2 51 2 94 3 82 1 89 2 53 1 77 2 49 3 74 1 94 2 69 1 94 2 69 4 84 7 74 4 42 4 14 4 89 4 79 5 06 4 71 4 28 4 64 4 46 4 64 4 46 8 8 9 1 9 5 9 8 9 12 9 12 16 9 10 8 9 10 8 3 98 4 18 4 4 4 55 4 11 5 51 4 07 5 47 7 5 3 92 4 9 3 91 4 7 2 21 2 18 2 16 2 15 2 19 2 18 2 21 2 19 2 13 2 3 2 2 2 3 2 3 7 10 11 5 12 2 7 10 7 10 12 2 2 21 3 51 4 4 4 8 2 25 3 6 2 21 3 56 4 76 3 17 2 85 2 61 2 54 3 11 2 ...

Page 32: ...ow rate heating cooling m min 31 9 38 1 34 4 39 3 46 56 3 51 56 3 80 93 3 84 97 8 90 97 8 Unit data Dimensions H W D mm 622 824 298 795 900 320 1 340 900 320 Weight kg 39 66 101 Pipe diameter liquid mm Zoll 6 35 1 4 9 52 3 8 Pipe diameter gas mm Zoll 12 70 1 2 15 88 5 8 Refrigerant kg 1 2 R410A 1 45 R410A 2 55 R410A Pipe length m 3 to 15 3 to 30 Nominal pipe length m 7 Pre filled pipe length m 10 ...

Page 33: ...A7 W55 663 A7 W35 633 A7 W55 673 A7 W35 633 A7 W45 653 A7 W55 693 66 67 66 67 490 550 510 600 540 630 580 630 490 550 520 600 490 530 520 600 500 680 490 520 490 520 530 590 550 640 580 670 620 670 530 590 560 640 550 590 560 640 540 720 530 560 530 560 76 8 89 5 80 93 3 84 97 8 90 97 8 76 8 89 5 80 93 3 76 8 89 5 80 93 3 76 109 4 76 8 80 76 8 80 1 340 900 320 108 107 109 119 104 102 9 52 3 8 9 52...

Page 34: ...55 1 9 2 18 2 16 2 15 2 15 Cooling capacity A35 W7 kW 6 7 10 11 5 12 2 Power consumption A35 W7 kW 2 3 2 9 3 6 4 4 4 8 Coefficient of performance EER A35 W7 2 61 2 41 2 78 2 61 2 54 Unit data Dimensions H W D mm 892 502 353 Weight kg 43 45 43 45 49 51 49 51 49 51 Water side connection inch AG R 1 Pump speed stepping 3 Pump power consumption max W 100 75 100 75 190 Volumetric flow rate of heating c...

Page 35: ... 78 1 98 2 73 4 82 4 75 4 42 4 89 4 79 4 84 4 68 4 79 4 29 4 55 4 4 8 8 9 1 9 5 9 12 9 12 9 10 8 9 10 8 3 98 4 18 4 4 4 11 5 51 4 11 5 51 3 92 4 9 3 91 4 7 2 21 2 18 2 16 2 19 2 18 2 19 2 18 2 3 2 2 2 3 2 3 7 10 11 5 12 2 7 10 7 10 2 25 3 55 4 4 4 8 2 25 3 6 2 25 3 6 3 11 2 82 2 61 2 54 3 11 2 78 3 11 2 78 892 502 353 50 51 51 52 51 52 51 52 47 48 49 51 50 51 51 46 50 52 50 52 R 1 3 7 3 7 3 190 19...

Page 36: ... 670 620 670 Air flow rate heating cooling m min 46 56 3 51 56 3 80 93 3 84 97 8 90 97 8 Unit data Dimensions H W D mm 795 900 320 1 340 900 320 Weight kg 66 106 Pipe diameter liquid mm inch 9 52 3 8 Pipe diameter gas mm inch 15 88 5 8 Refrigerant kg 1 45 R410A 2 75 R410A Pipe length m 3 to 30 3 to 40 Nominal pipe length m 7 Pre filled pipe length m 30 Additional refrigerant filling g m 30 50 Max ...

Page 37: ...WH UH09DE8 WH UH12DE8 49 50 51 53 49 50 49 50 49 50 49 50 65 66 71 68 66 67 66 67 53 53 66 67 490 550 510 600 540 630 580 630 490 550 520 600 490 550 520 600 490 520 490 520 530 590 550 640 580 670 620 670 530 590 560 640 530 590 560 640 530 560 530 560 76 8 89 5 80 93 3 84 97 8 90 97 8 76 8 89 5 80 93 3 76 8 89 5 80 93 3 76 8 80 76 8 80 1 340 900 320 109 107 110 105 9 52 3 8 15 88 5 8 2 75 R410A ...

Page 38: ... room thermostats not supplied models for heating mode as well as heating and cooling mode are available Aquarea HT series is only available for heating mode optimised capacity depending on the return water temperature integrated control of the hot water tank and heating system 24 hour timer with operating mode control 3 2 Monobloc system Energy efficiency and environmental friendliness Attention ...

Page 39: ...ircuit breakers for 12 14 and 16kW units only required on Phase out models C D E series Monobloc system no special space requirement inside the building no refrigerant connections easy opening of the unit for maintenance work Supply water temperature C Outside temperature C Cooling mode1 Maximum 20 43 Minimum 5 16 Heating mode Maximum 55 652 35 Minimum 25 203 1 valid for models with cooling mode 2...

Page 40: ...differs from model to model see Detail A 7 Cable passage 8 Front plate 9 Top cabinet plate 10 Overload protection differs from one model to the other see Detail B 11 Additional electric heater 3 6 and or 9kW 12 Expansion vessel 13 Cover 14 Deaeration Connection name a Return water pipe Ø R 1 b Supply water pipe Ø R 1 Components of the Monobloc unit with two fans Detail A left and B right of the co...

Page 41: ...Top view Dimensional drawing for Monobloc unit with 9 to 16kW nominal capacity Dimensional drawing for mini Monobloc unit with 5 to 9kW nominal capacity 865 795 1283 1 154 187 220 275 175 110 83 5 135 160 185 320 39 2 3 150 150 980 400 355 5 320 4 1 Front view 2 Side view 3 Back view 4 Top view Dimensions of Monobloc unit with one fan in mm The air flow is depicted by arrows Dimensions of Monobloc...

Page 42: ...3 Sound power level dB A A7 W35 623 A7 W45 623 A7 W55 623 65 67 60 63 63 64 Fan speed top heating cooling U min 580 700 580 640 490 540 510 600 540 630 580 630 Fan speed bottom heating cooling U min 530 580 550 640 580 670 620 670 Air flow rate heating cooling m min 43 3 47 1 46 7 51 6 76 8 89 5 80 93 3 84 97 8 90 97 8 Unit data Dimensions H W D mm 865 1 283 320 1 410 1 283 320 Weight kg 107 112 1...

Page 43: ... 1 96 2 6 1 9 2 57 1 98 2 73 1 98 2 73 5 03 4 68 4 49 4 23 4 89 4 73 4 74 4 67 4 55 4 4 4 55 4 4 8 8 9 1 9 5 9 8 9 0 12 0 9 0 12 0 9 0 10 8 9 0 10 8 3 98 4 18 4 4 4 55 4 11 5 51 4 11 5 51 3 92 4 9 3 91 4 91 2 21 2 18 2 16 2 15 2 19 2 18 2 19 2 18 2 3 2 2 2 3 2 2 7 2 10 0 11 5 12 4 7 0 10 0 7 0 10 0 2 25 3 6 4 4 4 8 2 25 3 6 2 25 3 6 3 33 2 78 2 61 2 67 3 11 2 78 3 11 2 78 49 50 51 53 49 50 49 50 4...

Page 44: ...motorised valve Tank temperature sensor 6 m cable Cold water inlet PRV combination valve expansion relief Pressure and temperature relief valve Control thermostat Energy cut out thermostat Energy cut out motorised valve indirects only Tundish 3 kW Immersion heater including control and cut out thermostats Expansion vessel mounting bracket flexible hose Technical user product literature Aquarea is ...

Page 45: ...e its own over heat thermostat 3 Aquarea HP cylinders must not be used with solid fuel boilers or steam as the heat source 4 Heat pumps can normally only heat the domestic hot water to between 45 50 60 C The Aquarea heat pump remote controller will operate a cylinder sterilisation on a weekly basis See heat pump manual for further details 5 The cold supply elbow c w drain tapping must be fitted A ...

Page 46: ...ow bottom coil G mm 352 472 548 28mm primary return top coil H mm 467 742 641 28mm primary flow top coil I mm 1 072 1 562 1 791 Dual CT OHT pocket 1 top J mm 732 1 092 1 076 Dual CT OHT pocket 2 bottom K mm 419 539 651 Solar sensor pocket 1 top L mm 882 1 367 1 382 Solar sensor pocket 2 bottom M mm 203 262 334 3kW immersion heater height N mm 457 702 640 Surface area of solar heater coil m 0 68 0 ...

Page 47: ...28mm primary return H mm 275 28mm primary flow I mm 1 545 HP control thermostat J mm 628 Dual CT OHT pocket K mm 628 Solar sensor pocket 1 top L mm Solar sensor pocket 2 bottom M mm 3kW immersion heater height N mm 207 Surface area of solar heater coil m Solar coil pressure loss1 bar Primary heat exchanger surface area m 3 01 Primary heat exchanger thermal rating1 kW 32 8 Primary heat exchanger pr...

Page 48: ...pression 11 Solar coil flow from panel 22mm compression 12 Solar thermostat pocket 13 Drain off Part G3 loose components supplied in a separate box A Combination inlet group incorporating pressure reducing valve strainer check valve balance cold take off point expansion relief valve and expansion vessel connection points B Potable expansion vessels c w flexible hose and wall bracket C Tundish D Du...

Page 49: ...ermostat Part G3 loose components supplied in a separate box A Combination inlet group incorporating pressure reducing valve strainer check valve balance cold take off point expansion relief valve and expansion vessel connection points B Potable expansion vessels c w flexible hose and wall bracket C Tundish D Dual control thermostat and combined overheat thermostat 2 E Three port motorised valve f...

Page 50: ...ump manufacturers instructions Schematic Sealed Primary System Slimline models Heat Pump Warming Overflow Pipe F E Cistern 150mm max Warming Overflow Pipe F E Cistern 150mm max Aquarea HP cylinder without solar heating system Aquarea Slimline HP cylinder without solar heating system P T Relief Valve Tundish Hot Outlet To Drain PRV ERV NRV Stop Tap Kitchen Cold Tap Combination Valve Balanced Cold O...

Page 51: ...d please refer to their manufacturers instructions for further details Domestic hot water and cold water pipes not shown for clarity The cupboard footprint needs to be at least 650mm square for units up to 300 litres 730mm for 400 litre units The base chosen for the cylinder should be level and capable of supporting the weight of the unit when full of water as shown in General Data The discharge p...

Page 52: ...and technical data Accessories I V Combination Valve I V If two Aquareas are coupled together the secondary inlet and outlet pipes must be balanced The units must be fitted on the same level Note No valves must be fitted between the expansion vessel and the storage cylinder s ...

Page 53: ...r coil inside the cylinder Group Designation Description Function Solar CZ NS1P Add on circuit board for solar connection bi bloc systems Circuit board provides commu nication between the solar station on site customer unit and the Aquarea controller CZ NS2P Add on circuit board for solar connection monobloc systems CZ NS3P Add on circuit board for solar connection mini monobloc systems Hot water ...

Page 54: ...troller is provided with other functions that can be activated upon demand For the combination of the Aquarea heat pump with external devices e g a solar thermal installation or a room thermostat the controller offers the required interfaces which if necessary can be used in combination with other accessories Automatic control of supply water temperature for the operating modes heating heating wat...

Page 55: ...ER keys For setting the system time Display and operating keys for easy operation and programming of the Aquarea control via the controller or wired remote control Bi Bloc or monobloc system 10 11 12 13 14 15 16 1 2 3 4 5 6 7 8 9 17 19 18 20 21 25 24 23 22 28 27 26 29 1 OFF ON LED Illuminates during operation and flashes upon occurrence of an error 2 REMOTE display Symbol is displayed when an exte...

Page 56: ...monobloc system SET SELECT SETTING OFF ON WATER OUTLET TIMER OUTDOOR ACTUAL HEATER SETTING STATUS SERVICE DEFROST HEAT COOL TANK QUIET HEATER FORCE BOOSTER STATUS SEARCH CANCEL CLOCK FORCE SERVICE ERROR RESET OFF ON QUIET HEATER MODE CHECK TIMER OPERATION 10 11 12 13 14 15 16 1 2 3 4 5 6 7 8 9 17 19 18 20 21 25 24 23 22 27 26 28 1 OFF ON LED Illuminates during operation and flashes upon occurrence...

Page 57: ...tic restart For controlled start after abrupt interruption of the power supply Sterilisation mode Weekly thermal sterilization of the hot water tank by means of the electric immersion heater Adjustable using the 24 hour timer Whisper quiet operation Reduces the compressor operating frequency as well as the fan speed of the outdoor or Monobloc unit by 80rpm to at least 200rpm thus reducing the nois...

Page 58: ...e activated or de activated via the two step controller The operating mode of the heat pump Heating or Cooling acts like an internal release For example if the heat pump is in the heating mode then closing the circuit L L2 deactivates the heat pump Only when an internal release exists by switching over into the Cooling mode closing the circuit L L2 actually leads to activation of the cooling mode ...

Page 59: ...heating circuits in cooling mode via 2 way directional valves to the connections 1 to 3 of the terminal strip Left Spring loaded 2 way directional valve open without current right Motor driven 2 way directional valve with single pole change over switch To be able to control the Aquarea heat pump by means of an external controller the latter can be activated and deactivated by means of its own inte...

Page 60: ...nal 3 way directional valve will be connected again see also Hydraulic Diagram 4 via the control system of the Aquarea heat pump Connection of the external 3 way directional valve and the input signal of the solar pump to the terminals 19 to 21 or 22 and 23 of the terminal strip The 3 way directional valve has to be connected such that in that it prevents the passage from solar circuit and heat ex...

Page 61: ...d 600 pre defined system dia grams available for quick and clear application In addition to the Aquarea closed loop controller Panasonic also offer the Aquarea Heat Pump Manager HPM as an optional unit for extending the controller functions for special applications This satisfies the additional requirements placed on the control system for complex and flexible heating systems In conjunction with t...

Page 62: ...ating and cooling modes Possibility of connection to a photovoltaic sys tem or an intelligent power grid Smart Grid Night time reduction Energy management system Trend Solar operation Preferential hot water heating Web based access to the controller Available in 10 languages Note With the Aquarea Heat Pump Manager HPM Panasonic offer an additional closed loop controller that can be optionally used...

Page 63: ...itch on recommendation 0 1 4 Maximum operation max requirement The configurable maximum requirements take effect and influence the currently applicable target values drinking water heating room heating max target value cooling max target value of hot water tank and buffer tank Heat pump startup commands 1 1 4 3 6 Smart Grid function via the Heat Pump Manager In conjunction with the Aquarea Heat Pu...

Page 64: ... normal mode The amount of the increased requirement can be set for the individual consumers via a percentage increase of the target values In concrete terms the target temperatures are increased or modified so that for example the target temperature of the hot water tank in operating mode 3 is increased by a minimum of 5 and a maximum of 20 SW Incr 5 and 20 The actual increase or reduction can be...

Page 65: ...limits are not possible The settings for operating state 4 are listed in the following table Terminal assignments In order to use the Aquarea heat pumps in a smart grid the HPM must be assigned the input terminals Inp1 and Inp2 which the electricity provider can then use to influence the operating mode of the controller using the two signalling contacts The controller connections that can be used ...

Page 66: ... room and acoustics 72 and 81 7 Integration of hydraulics and control engineering 90 Panasonic offers the Aquarea Designer for free download at www PanasonicProClub com for easy and quick modelling and optimisation of the heat pump heating systems The program offers the following functions Sizing of heat pumps based on building and consumption data Comprises in house air conditioning and weather d...

Page 67: ...eating load is calculated assuming an outside design temperature θe This value can be derived from CIBSE Guide A Environmental Design table 2 4 In the UK this typically varies beween 1 C and 5 C at sea level This temperature is equal to or is exceeded for 99 of the hours in a year A selection is reproduced in the table below Please note If using the closest location to your site in the table you m...

Page 68: ... m Buildings as from 1995 50 to 75W m Buildings as from 2002 38 to 63W m Low energy building 31 to 50W m Ultra low energy building 19 to 38W m Passive house 13W m Typical values for the specific heat requirement of residential buildings for rough calculation of heating load For a 1992 residential house in London UK with a living space of 120m has a required heating load of 12kW 100W m The standard...

Page 69: ...ount when selecting the model Aquarea HP Cylinder Selection Guide Dwelling type Suggested model Number of bed rooms Number of bathrooms and shower rooms Without solar heating system1 With solar heating system2 1 3 1 bathroom PAW TE18C2E3STD UK PAW TE18C2E3STD UK FA 50 m 2 3 1 bathroom 1 shower room PAW TE18C2E3STD UK PAW TE30C2E3STD UK FA 65 m 2 3 1 bathroom 2 shower rooms PAW TE18C2E3STD UK PAW T...

Page 70: ...E18C2E3SL UK 2 3 1 bathroom 2 shower rooms PAW TE18C2E3SL UK Please note that the two heat exchangers must be connected in parallel to the heat pump circuit when a solar thermal system is not installed as shown in the schematic below Schematic Open Vented Primary System Heat Pump Minimum distance as required by heat pump manufacturers instructions Warming Overflow Pipe F E Cistern 150mm max Schema...

Page 71: ...t measures existing radiators can often be operated at lower temperatures and therefore lower heat outputs For this refer to manufacturers guidance for details of the the output of the radiator at lower supply water temperatures If it is not possible to reduce the supply water temperature to 55 C it is also possible to use supply water temperatures of up to 65 C by using the Aquarea HT series Note...

Page 72: ...itional heat source is only a few percentage of the overall generated energy Bivalent parallel operating mode via an additional heat source Capacity heat pump Capacity of additional heat source Bivalence point 100 Maximum heating load Outside temperature C 15 10 5 0 5 10 15 20 5 6 Operating mode and bivalence point Note The bivalence point is determined individually for each building see for examp...

Page 73: ... of pipe between the outdoor unit and hydromodule Bi Bloc as well as between the Monobloc unit and building must be considered because long pipe runs lead to loss of some heating capacity Not only the capacity of the heat pump but also their supply water temperature at design outside tempera ture is important for correct selection of the heat pump Aquarea heat pumps have an additional electric hea...

Page 74: ...ng power of 9 6kW would require an operating time of 7 2kWh 9 6kW 0 75h Thus if rounded up Tank charging 1h The pipe correction factor owing to a pipe length of 15m one way length with means of 1 0 and 0 83 results in line correction factor 0 92 Total heating capacity 9 6 24h 230 4 10 89kW 24h 1h 0 92 21 16 Factoring in power supplier outages of 2 hours per day Total heating capacity 9 6 24h 230 4...

Page 75: ... For monovalent operation of the heat pump the selected heat pump must provide a larger capacity than the design heating capacity In the above example only the 16 kW heat pump at 35 C flow temperature provides more capacity than required 12 2 kW 12 kW For reasons of economic viability or practicalities such as an existing heating system the heat pump can be sized as a bivalent system Using the 12 ...

Page 76: ... meet 100 of the calculated design space heating requirement When planning the installation room all units and components of the heat pump system that are not installed outside the building must be considered The Hydromodule for the Bi Bloc system Pipes and wall passages should be thought out and arranged with short runs electrical refrigerant and heating pipes Tanks hot water tank as well as buff...

Page 77: ...an damage the unit Adequate circulation of air must be provided inside the room The condensate drained from the hydromodule should be easily channelled out because it can cause damage if not correctly drained if cooling is going to be delivered from heat pump Noise inside the room should be considered Do not install the unit near the door The minimum distances see Figure must be observed The hydro...

Page 78: ...5 m 800 2 500 1 200 800 353 1 2 5 1 2 2 100 Note Because of an installation room volume of 6 25m in the example it is suitable only for Aquarea LT single phase devices up to 9kW heating capacity The use of a device with a larger amount of refrigerant would exceed the practical limit value c for R410A c 0 44kg m and for R407C c 0 31kg m Note The compressor is located in the outdoor unit of the bi b...

Page 79: ... Generally the following points must be observed for the distance between outdoor unit and hydromodule when using the bi bloc system In case the length of the refrigerant piping is greater than the pre filled pipe length of the unit depending upon model 10 15 or 30m see Technical Data additional refrigerant quantities specified in the technical data must be added The maximum length of the refriger...

Page 80: ...s operational service life will be possibly shortened The outdoor unit is to be installed on a concrete foundation or on a stable base frame e g on a building external wall aligned horizon tally and fastened with bolts ø10mm Use additional vibration damping rubber buffers for decoupling For installation locations that can be influenced by strong winds e g when a wind blows between buildings includ...

Page 81: ...id surface The weight of the water in addition to the weight of the unit must be taken into consideration Four M12 anchor bolts with a pull out force greater than 15 000N are required for fastening Minimum requirements for anchoring the outdoor unit to the floor or a foundation left or directly to a base plate right Different for 3kW and 5kW units see dimensioned drawing 1 Base 2 Gravel 3 Strip fo...

Page 82: ...cuit is drained by a system to be provided by the customer manual or automatic Note For details on preventing water pipes freezing and heat and cold protection see the Guidelines BS 5422 and BS 5970 5 9 2 Monobloc system The monobloc system consists of a unit containing one or two fans depending on the power class and model The units differ in physical size see overview on page 3 The water pipes b...

Page 83: ...n of the users or neighbours Use additional vibration damping rubber buffers for If the monobloc unit is installed near the sea in regions with a high content of sulphur or at oily locations e g machine oil etc its operational service life will be possibly shortened For installation locations that can be influenced by strong winds e g when a wind blows between buildings including on building the M...

Page 84: ... weight of unit also the weight of water must be considered Four anchoring bolts M12 are needed for fastening where the tightening force is minimum 15 000N Minimum requirements for anchoring the Monobloc unit to the floor or a foundation left or directly to a base plate right 60mm 300mm 20 80 4 3 3 4 2 1 100 4 800 3 1 5 2 355 460 775 980 300 200 60 1 Base 2 Gravel 3 Strip foundation or base plate ...

Page 85: ...her logarithmically For this reason the sound pressure is not specified as pressure but rather as sound pressure level in decibel dB Values of sound pressure level for typical situations are Noise Sound pressure level in dB A Sound pressure in μPa Perception Forest 20 100 very quiet Library 40 1 000 quiet Speech 55 10 000 normal Street 80 100 000 loud Pneumatic hammer 100 1 000 000 very loud Typic...

Page 86: ... values and may be exceeded by temporary noise peaks The measurable sound pressure level is dependent on the distance to the sound source and decreases with increasing distance The sound power level is a quantity for evaluating the sound source independently of distance and direction of sound propagation It is a calculable quantity that is determined for individual units in laboratory measurements...

Page 87: ...now Wind can increase or decrease the sound pressure level depending on wind direction An estimation of the sound pressure level LAeq at a certain place with a distance r from the heat pump can be calculated with the following formula based on the sound power level LWAeq LAeq LWAeq 10 log Q 4 π r For this one additionally needs the direction factor Q which considers the spatial radiation condition...

Page 88: ...data Directivity factor Q Distance from the sound source in m 1 2 4 5 6 8 10 12 15 2 8 14 20 22 23 5 26 28 29 5 31 5 4 5 11 17 19 20 5 23 25 26 5 28 5 8 2 8 14 16 17 5 20 22 23 5 25 5 Table for rough calculation of the sound pressure level based on the sound power level Note Through the selection of the installation location the sound pressure level can be increased or decreased Installation on re...

Page 89: ... capacity Due to the limits on cooling capacity of underfloor heating systems the room cooling cannot be controlled to a fixed room temperature At least the supply water temperature must be set which prevents the dew point from being negatively exceeded Fan convectors can be operated with much lower supply water tempera tures than underfloor heating systems ie 5 C Accordingly the achievable coolin...

Page 90: ...ctions 9kW three phase POWER SUPPLY 2 POWER SUPPLY 1 LA1 LA2 LA3 N N L 4 5 Electric immersion heater Hydro module outdoor unit and additional electric heater L N L N Power supply 2 LA1 LA2 LA3 N LA1 LA2 LA3 N Power supply 1 Connecting the indoor outdoor unit 1 2 3 4 5 1 2 3 4 5 Fault current protective switch Mains connections 12 to 16kW three phase POWER SUPPLY 2 LC1 LC2 LC3 N POWER SUPPLY 1 LA1 ...

Page 91: ...tective switch Mains connections 12 to 16kW single phase POWER SUPPLY 3 N L POWER SUPPLY 2 N L POWER SUPPLY 1 N L Electric immersion heater Additional electric heater Compact system L2 N2 L2 N2 Power supply 3 L N L N Power supply 1 L1 N1 L1 N1 Power supply 2 Fault current protective switch Mains connections 9kW three phase POWER SUPPLY 1 LA1 LA2 LA3 N POWER SUPPLY 2 N L LA1 LA2 LA3 N LA1 LA2 LA3 N...

Page 92: ...unit 1 2 3 1 2 3 Fault current protective switch Mains connections 9kW three phase POWER SUPPLY 2 POWER SUPPLY 1 LA1 LA2 LA3 N N L 4 5 Electric immersion heater Hydro module outdoor unit and additional electric heater L N L N Power supply 2 LA1 LA2 LA3 N LA1 LA2 LA3 N Power supply 1 Connecting the indoor outdoor unit 1 2 3 4 5 1 2 3 4 5 Fault current protective switch Mains connections 12 to 16kW ...

Page 93: ...f the hot water tank 2 Kohlms 25 C NTC 2 min 0 5mm 17 to 18 Ext control signal Input for external control signal volt free These two terminals are bridged during delivery Connection 1 pole min 3mm contact gap 2 min 0 5mm 19 to 21 Solar 3 way direc tional valve Output for activation of the solar 3 way directional valve Additional solar PCB required 3 min 0 5mm 22 to 23 Solar pump station Input of t...

Page 94: ... circulation pump that circulates the heating water through the heat exchanger system A standard pump or high efficiency pump is used depending on the series and model variant of the Aquarea heat pump Due to the independent control of the high efficiency pumps standard and high efficiency pumps must be handled differently with regard to the hydraulic decoupling of the heat pump circuit and heat co...

Page 95: ...s e g because thermostatic valves close the high efficiency pump detects an increased differential pressure and auto matically reduces the speed and volume flow That ensures that the water circulation pump does not consume electricity unnecessarily The pump supplies the heat transfer system with a lower volume flow until the valves re open and the speed increases automatically due to the decreasin...

Page 96: ...res In line Filter Strainer Note If the total water volume in the system is lower than the specified values the system water volume must be increased using a buffer tank or an additional vessel System volume Magnetic Particle Filter Both types of control reduce the pump speed when the differential pressure or resistance in the heating circuit increases As a result the volume cir culation decreases...

Page 97: ... Rated volume circulation Pump operating head kPa 0 10 20 30 40 50 60 Sample pipe network resistance characteristic curve with a correctly set rated volume circulation at pump level 2 standard pump for the WH MXF12D6E5 When designing the pump delivery head all components of the piping network and their individual resistances must be incorporated at their rated volume flow Components like mixers va...

Page 98: ...total pressure drop of the sub sections multiplied by an estimated supplementary factor of 1 5 0 05 50 60 80 100 140 200 0 06 Pressure drop kPa m Circulation rate l h Circulation rate l min Pressure drop Pa m 20 30 40 50 60 80 100 200 300 400 500 600 700 800 1000 2000 3000 0 3 0 5 0 7 0 8 1 0 1 3 1 7 3 3 5 7 8 10 12 13 17 33 50 0 08 0 1 0 12 0 16 0 2 Tipp 2 Note the rated pipe diameter The pressur...

Page 99: ...racteristic curve see following sections Pump speed 3 Pump speed 2 Pump speed 1 Properties of the standard water circulation pump for the Aquarea heat pumps 7 Phase out model and 9kW single phase 70 60 50 40 30 20 10 0 0 5 10 15 20 25 30 35 Circulation rate l min Pump operating head kPa For dimensioning the pump operating head all components of the piping individual resistances must be considered ...

Page 100: ...06E3E5 WH MDF09E3E5 WH MDC09E3E5 WH SXF09E3E8 and WH SXF12D9E8 Phase out models 70 60 50 40 30 20 10 0 Circulation rate l min Pump operating head kPa 0 10 20 30 40 50 6 7 5 4 3 2 1 70 60 50 40 30 20 10 0 Circulation rate l min Pump operating head kPa 0 10 7 6 5 4 3 2 1 20 30 40 50 Pump delivery head of high efficiency pumps with differential pressure control Properties of the standard water circul...

Page 101: ...ydraulic balancing of the heat transfer system is achieved from correct setting of the circulation rates from regulating valves In this manner a situation where individual building areas are excessively heated up whereas other sections remain cold with low circulation rates is avoided The hydraulic balancing is therefore a question of home comfort and at the same time also a prerequisite for effic...

Page 102: ...c units WH MDC05F3E5 WH MDF06E3E5 and WH MDF09E3E5 with a heating capacity of 5 6 and 9kW respectively have an expansion vessel with only 6 litres capacity Accordingly these units can only be used in heating systems with a total water volume of less than 150 litres The other conditions correspond to those of the other units The required expansion vessel is designed according to the nominal volume ...

Page 103: ... filling them Buffer tanks can fulfil three functions in connection with heat pumps Bridging outage time by electrical supply companies hydraulic decoupling of the heat pump circuits from the heat transfer system and extension of the heat pump service life by preventing frequent switch on and off cycling which reduces the system efficiency Owing to the inverter technology of Aquarea heat pumps the...

Page 104: ... control Note The schematic diagrams show the essential components They serve as help for the planning of actual systems and do not include all the components and safety devices that are needed according to EN 12828 Relevant standards and guidelines must be observed If you will be applying for Renewable Heat Incentive RHI financial support your installation may require metering equipment fitted or...

Page 105: ... CLOSE OPEN N COOL HEAT N L N M M 1 2 3 4 5 min 50 l 1 Cold water connection 2 Room thermostat 3 Outside temperature sensor integrated in the outdoor unit 4 Control for heating circuit mixer building side 5 Hot water tank Schematic illustration relevant standards and guidelines must be observed Vessel for increasing the total water volume to be used when the total volume is lower than the minimum ...

Page 106: ... CLOSE OPEN CLOSE OPEN N COOL HEAT N L N 1 2 3 4 5 4 6 7 min 50 l 1 Cold water connection 2 Room thermostat 3 O utside temperature s ensor integrated in the outdoor unit 4 Control for heating circuit mixer building side 5 Hot water tank 6 2 way directional valve open in the heating mode 7 Dew point sensor building side Schematic illustration relevant standards and guidelines must be observed Vesse...

Page 107: ...EN CLOSE OPEN N COOL HEAT N L N M M M M 1 2 3 4 5 4 6 7 min 50 l Schematic illustration relevant standards and guidelines must be observed 5 Hot water tank 1 Cold water connection 2 Room thermostat 3 Outside temperature s ensor integrated in the outdoor unit 4 Control for heating cir cuit mixer building side 6 2 way directional valve closed in the cooling mode 7 Dew point sensor building side Vess...

Page 108: ...d heating circuit pump integrated into a single tank unit L N CLOSE OPEN N 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 CLOSE OPEN CLOSE OPEN N COOL HEAT N L N 1 2 3 4 12 11 10 9 8 7 6 5 4 3 2 1 M Schematic illustration relevant standards and guidelines must be observed 1 Cold water connection 2 Room thermostat 3 Outside temperature s ensor integrated in the outdoor unit 4 Aquarea t...

Page 109: ... 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 CLOSE OPEN CLOSE OPEN N COOL HEAT N L N M M 1 2 4 5 6 3 8 7 M Schematic illustration relevant standards and guidelines must be observed 1 Cold water connection 2 Room thermostat 3 Outside temperature s ensor integrated in the outdoor unit 4 Control for heating circuit mixer building side 5 Hot water tank 6 Buffer tank 7 Higher level control of b iva...

Page 110: ... 1 2 4 5 7 6 3 min 50 l Schematic illustration relevant standards and guidelines must be observed 1 Cold water connection 2 Room thermostat 3 Outside temperature sensor integrated in the outdoor unit 4 Control for heating circuit mixer building side 6 2 way directional valve heating mode open cooling mode closed 5 Hot water tank 7 H eat exchanger Vessel for increasing the total water volume to be ...

Page 111: ...ing mode CLOSE OPEN N 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 CLOSE OPEN CLOSE OPEN N COOL HEAT N L N M 1 2 3 4 min 50 l Schematic illustration relevant standards and guidelines must be observed Vessel for increasing the total water volume to be used when the total volume is lower than the minimum volume 1 Cold water connection 2 Room thermostat 3 Outside temperature sensor int...

Page 112: ...ing mode CLOSE OPEN N 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 CLOSE OPEN CLOSE OPEN N COOL HEAT N L N M 1 2 3 4 min 50 l Schematic illustration relevant standards and guidelines must be observed Vessel for increasing the total water volume to be used when the total volume is lower than the minimum volume 1 Cold water connection 2 Room thermostat 3 Outside temperature sensor int...

Page 113: ...heat for room heating in the lower region CLOSE OPEN N 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 CLOSE OPEN CLOSE OPEN N COOL HEAT N L N M M 1 2 4 6 5 3 M Schematic illustration relevant standards and guidelines must be observed 1 Cold water c onnection 2 Room thermostat 3 Outside temperature sensor integrated in the outdoor unit 4 Control for heating circuit mixer building side ...

Page 114: ...PEN N 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 CLOSE OPEN CLOSE OPEN N COOL HEAT N L N M M CLOSE OPEN N 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 CLOSE OPEN CLOSE OPEN N COOL HEAT N L N 2 4 4 5 6 3 3 Schematic illustration relevant standards and guidelines must be observed 2 Room thermostat 3 Outside temperature sensor integrated in the outdoor unit 4 Control f...

Page 115: ...er and outside temperature Aquarea LT Bi Bloc system Heating capacity kW of individual models of the bi bloc system for different outside temperatures and a supply water temperature of 35 or 55 C 9kW three phase 9kW single phase 7kW single phase Supply water temperature 35 C Supply water temperature 55 C 15 20 10 5 0 16 14 12 10 8 6 4 2 0 5 10 15 20 Heating capacity kW Outside temperature C 5kW si...

Page 116: ...hree phase 12kW three phase Heating capacity kW of individual models of the bi bloc system for different outside temperatures and a supply water temperature of 35 or 55 C Aquarea LT Bi Bloc system Supply water temperature 35 C Supply water temperature 55 C 15 20 10 5 0 16 14 12 10 8 6 4 2 0 5 10 15 20 Heating capacity kW Outside temperature C 16kW single phase 14kW single phase 12kW single phase S...

Page 117: ...7 6 7 6 3 6 0 7 9 0 8 8 9 0 9 0 9 0 9 3 25 9 0 9 0 8 4 8 0 7 8 7 5 30 35 40 45 50 55 9kW three phase WH SDC09F3E8 WH SDF09C3E8 WH SDC09C3E8 Phase out models 15 8 7 8 0 8 0 7 6 7 2 6 7 7 9 4 9 5 8 9 8 7 8 3 7 5 2 9 3 8 8 9 0 9 0 8 9 8 8 7 9 0 8 5 9 0 8 5 9 0 8 1 25 9 0 9 0 8 7 8 5 8 3 8 1 30 35 40 45 50 55 12kW single phase WH SDC12F6E5 WH SDF12C6E5 WH SDC12C6E5 Phase out models 15 9 3 9 0 8 5 8 1 ...

Page 118: ... 4 30 35 40 45 50 55 14kW three phase WH SDC14F9E8 WH SDF14C9E8 WH SDC14C9E8 Phase out models 15 9 9 9 4 9 0 8 6 7 9 7 3 7 11 1 10 9 10 2 9 8 9 1 8 6 2 12 9 12 1 11 9 11 4 10 4 9 5 7 14 0 14 0 14 0 14 0 13 6 13 3 25 14 0 14 0 14 0 14 0 14 0 14 0 30 35 40 45 50 55 16kW three phase WH SDC16F9E8 WH SDF16C9E8 WH SDC16C9E8 Phase out models 15 10 6 10 5 10 0 9 7 8 8 7 9 7 11 9 12 0 10 8 10 3 9 6 9 3 2 1...

Page 119: ...ndividual models of the monobloc system for different outside temperatures and a supply water temperature of 35 or 55 C 15 20 10 5 0 16 14 12 10 8 6 4 2 0 5 10 15 20 Heating capacity kW Outside temperature C 9kW single phase 6kW single phase 5kW single phase Supply water temperature 35 C Supply water temperature 55 C 16kW single phase 14kW single phase 12kW single phase Supply water temperature 35...

Page 120: ... of individual models of the monobloc system for different outside temperatures and a supply water temperature of 35 or 55 C 15 20 10 5 0 16 14 12 10 8 6 4 2 0 5 10 15 20 Heating capacity kW Outside temperature C 16kW three phase 14kW three phase 12kW three phase 9kW three phase Supply water temperature 35 C Supply water temperature 55 C Aquarea LT Monobloc system ...

Page 121: ... 9 0 30 35 40 45 50 55 9kW single phase WH MDC09E3E5 15 8 7 8 1 8 0 7 8 7 2 6 7 7 9 4 9 1 8 9 8 7 8 0 7 1 2 9 3 8 9 9 0 9 0 8 3 8 8 7 9 0 8 9 9 0 8 7 9 0 7 8 25 9 0 9 0 8 7 8 5 8 3 8 1 30 35 40 45 50 55 12kW single phase WH MDF12C6E5 WH MDC12C6E5 15 9 3 8 7 8 5 8 1 7 5 7 0 7 10 4 11 0 9 6 9 2 8 7 8 2 2 11 8 11 9 11 0 10 6 9 8 9 1 7 12 0 11 8 12 0 12 0 12 0 12 0 25 12 0 12 0 11 8 11 7 11 5 11 4 30 ...

Page 122: ...7 0 7 10 4 11 1 9 6 9 2 8 7 8 2 2 11 8 11 9 11 0 10 6 9 8 9 1 7 12 0 12 2 12 0 12 0 12 0 12 0 25 12 0 12 0 11 8 11 7 11 5 11 4 30 35 40 45 50 55 14kW three phase WH MDF14C9E8 WH MDC14C9E8 15 9 9 9 8 9 0 8 6 7 9 7 3 7 11 1 11 8 10 2 9 8 9 1 8 5 2 12 9 12 7 11 9 11 4 10 4 9 5 7 14 0 14 1 14 0 14 0 13 6 13 3 25 14 0 14 0 14 0 14 0 14 0 14 0 30 35 40 45 50 55 16kW three phase WH MDF16C9E8 WH MDC16C9E8...

Page 123: ...ase 12kW three phase 9kW three phase Supply water temperature 35 C Supply water temperature 55 C 15 20 10 5 0 16 14 12 10 8 6 4 2 0 5 10 15 20 Heating capacity kW Outside temperature C Aquarea T CAP Bi Bloc system 12kW single phase 9kW single phase Supply water temperature 35 C Supply water temperature 55 C Heating capacity kW of individual models of the bi bloc system for different outside temper...

Page 124: ... 1 12 0 12 3 12 0 12 1 25 13 6 13 6 13 4 13 2 12 6 12 0 30 35 40 45 50 55 9kW three phase WH SXC09F3E8 15 9 0 8 69 9 0 9 0 9 0 9 0 7 9 0 8 88 9 0 9 0 9 0 8 75 2 9 0 8 85 9 0 9 0 9 0 9 0 7 9 0 8 96 9 0 8 68 9 0 8 66 25 13 6 13 6 13 2 12 8 12 0 11 2 30 35 40 45 50 55 12kW three phase WH SXC12F9E8 15 12 0 12 23 12 0 12 0 11 8 11 6 7 12 0 11 77 12 0 12 0 12 0 10 61 2 12 0 11 29 12 0 12 0 12 0 12 0 7 1...

Page 125: ...ures and a supply water temperature of 35 or 55 C Aquarea T CAP Monobloc system 15 20 10 5 0 16 14 12 10 8 6 4 2 0 5 10 15 20 Heating capacity kW Outside temperature C 15 20 10 5 0 16 14 12 10 8 6 4 2 0 5 10 15 20 Heating capacity kW Outside temperature C 12kW single phase 9kW single phase 12kW three phase 9kW three phase Supply water temperature 35 C Supply water temperature 55 C Supply water tem...

Page 126: ...11 0 10 7 10 5 7 12 0 11 6 12 0 12 0 12 0 9 0 2 12 0 11 8 12 0 12 0 12 0 12 0 7 12 0 12 1 12 0 12 5 12 0 12 7 25 13 6 13 6 13 4 13 2 12 6 12 0 30 35 40 45 50 55 9kW three phase WH MXF09D3E8 WH MXC09D3E8 15 9 0 9 0 9 0 9 0 9 0 9 0 7 9 0 9 0 9 0 9 0 9 0 9 0 2 9 0 9 0 9 0 9 0 9 0 9 0 7 9 0 9 0 9 0 9 0 9 0 9 0 25 13 6 13 6 13 2 12 8 12 0 11 2 30 35 40 45 50 55 12kW three phase WH MXF12D9E8 WH MXC12D9E...

Page 127: ...different outside temperatures and a supply water temperature of 35 or 65 C 15 20 10 5 0 16 14 12 10 8 6 4 2 0 5 10 15 20 Heating capacity kW Outside temperature C 15 20 10 5 0 16 14 12 10 8 6 4 2 0 5 10 15 20 Heating capacity kW Outside temperature C 12kW single phase 9kW single phase 12kW three phase 9kW three phase Supply water temperature 35 C Supply water temperature 65 C Supply water tempera...

Page 128: ...6 2 12 0 11 5 11 5 10 5 11 0 10 8 10 7 10 3 7 12 0 11 6 12 0 11 5 12 0 11 7 12 0 12 0 25 12 0 12 0 12 0 12 0 12 0 12 0 12 0 12 0 30 35 40 45 50 55 60 65 9kW three phase WH SHF09F3E8 WH SHF09D3E8 Phase out models 15 9 0 9 0 8 9 8 8 8 5 8 5 8 0 7 8 7 9 0 9 0 9 0 8 9 8 9 8 9 8 9 8 9 2 9 0 9 0 9 0 9 0 9 0 9 0 9 0 9 0 7 9 0 9 0 9 0 9 0 9 0 9 0 9 0 9 0 25 12 0 12 0 12 0 10 8 10 2 11 2 10 0 9 8 30 35 40 ...

Page 129: ...65 C Outside temperature Supply water temperature Models 30 35 40 45 50 55 60 65 9kW single and three phase WH MHF09D3E5 WH MHF09D3E8 15 9 0 9 0 8 9 8 8 8 5 8 5 8 0 7 8 7 9 0 9 0 9 0 8 9 8 9 8 9 8 9 8 9 2 9 0 9 0 9 0 9 0 9 0 9 0 9 0 9 0 7 9 0 9 0 9 0 9 0 9 0 9 0 9 0 9 0 25 12 0 12 0 12 0 10 8 10 2 11 2 10 0 9 8 30 35 40 45 50 55 60 65 12kW single and three phase WH MHF12D6E5 WH MHF12D9E8 15 12 0 1...

Page 130: ...14 18 18 4 5 5 0 5 7 25 5 0 6 3 5 4 35 4 5 5 5 5 0 43 3 3 4 1 4 4 7 14 18 18 5 1 25 6 6 35 6 0 7 3 8 0 43 5 1 7 14 18 9kW single phase WH SDC09C3E5 18 5 9 25 7 8 35 7 0 8 3 9 0 43 6 2 7 14 18 9kW single and three phase WH MDC09 WH SDC09C6E8 18 5 9 25 7 5 35 7 0 8 3 8 6 9 0 9 5 43 5 8 7 14 18 12kW single and three phase WH MDC12 WH SDC12 18 7 7 25 9 2 35 10 0 11 6 11 8 12 5 12 8 43 7 6 7 14 18 14kW...

Page 131: ... 2 9 0 10 5 43 6 3 7 14 18 12kW single and three phase WH MXC12D WH SXC12D Phase out models 18 7 5 25 8 9 35 10 0 11 6 12 6 12 5 14 0 43 8 0 7 14 18 9kW three phase WH SXC09F 18 7 0 25 7 7 35 7 0 11 6 12 5 43 6 3 7 14 18 12kW three phase WH SXC12F 18 7 5 25 8 9 35 10 0 11 6 12 5 43 8 0 7 14 18 16kW three phase WH SXC16F 18 8 5 10 0 25 14 0 14 0 35 12 2 12 2 43 7 1 9 8 Cooling capacity kW of indivi...

Page 132: ...loughby Road Bracknell Berkshire RG12 8FP Due to the ongoing innovation of our products the specifications of this catalogue are valid barring typographic errors and may be subject to minor modifications by the manufacturer without prior warning in order to improve the product The total or partial reproduction of this catalogue is prohibited without the express authorisation of Panasonic UK Ltd ...

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