Mitsubishi Electric Ecodan CRHV-P600YA-H Monobloc Ground / Water Source Heat Pump 60Kw A++ 415V~50Hz
The inverter driven Ecodan CRHV can operate singularly, or be banked together to create a system that can modulate and cascade available units on and off to meet the load from a building. This level of modulation is unprecedented within the heating industry and with cascade and rotation built in as standard, the Ecodan CRHV system is perfectly suited to a wide range of commercial applications.
Key Product Feature's:
■ Bore holes, slinkies, aquifers, lakes, rivers, waste heat -
can all be used as a heat source
■ Multiple unit cascade control of up to 960kW capacity
■ Split refrigerant circuits within each CRHV provide 50% back up
■ Ability to rotate units based on accumulated run hours
■ Provides up to 65°C water flow temperatures without booster heaters
■ Low maintenance, low refrigerant volume hermetically-sealed
monobloc design
■ Heat recovery applications can be achieved by moving heat
between applications
■ Passive cooling possible by exchanging ground/water source
with a chilled water system
■ Low pressure drop to ensure pumping power is kept to a minimum
■ High specification touch screen controls interfacing with BEMS
Technical Specification:
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MODEL
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CRHV-P600YA-HPB
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HEAT PUMP SPACE HEATER - 55˚C
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ErP Rating
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A++
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ɳs
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127%
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SCOP
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3.37
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HEAT PUMP SPACE HEATER - 35˚C
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ErP Rating
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A++
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ɳs
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153%
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SCOP
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4.03
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HEATING*1
(B0/W35)
SEASONAL EFFICIENCy EN14825 (SPF)
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Capacity (kW)
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60
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Power Input inc. pump (kW)
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14.20
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COP
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4.23
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B0/W35 (60kW)
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4.33
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HEATING*2
(B0/W35)
SEASONAL EFFICIENCy EN14825 (SPF)
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Capacity (kW)
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45
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Power Input inc. pump (kW)
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10.20
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COP
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4.41
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B0/W35 (45kW)
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4.03
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HEATING*3
(W10/W35)
SEASONAL EFFICIENCy EN14825 (SPF)
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Capacity (kW)
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60
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Power Input inc. pump (kW)
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11.90
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COP
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5.08
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W10/W35 (60kW)
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5.09
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HEATING*4
(W10/W35)
SEASONAL EFFICIENCy EN14825 (SPF)
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Capacity (kW)
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45
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Power Input inc. pump (kW)
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8.89
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COP
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5.11
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W10/W35 (45kW)
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4.55
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SOUND DATA
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Pressure Level LpA at 1m (dBA)
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50
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Power Level LwA (dBA)*5
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66
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WATER DATA
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Flow Rate Range
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Heat Source (Brine) (l/s (m3/hr))
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1.5 to 4.1 (5.4 to 15)
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Building Side (LTHW) (l/s (m3/hr))
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1.5 to 4.4 (5.4 to 16)
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Mechanical Connections
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Heat Source Outlet (Brine) (mm ("))
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50.8 (R2) screw
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Heat Source Inlet (Brine) (mm ("))
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50.8 (R2) screw
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Building Side Outlet (LTHW) (mm ("))
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50.8 (R2) screw
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Building Side Inlet (LTHW) (mm ("))
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50.8 (R2) screw
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Operating Temperature Range
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Heat Source Inlet (Brine) (°C)
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-5 to +27
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Heat Source Inlet Option (Brine) (°C)*6
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-5 to +45
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Building Side Outlet (LTHW) (°C)
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+30 to +65
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Heat Source Fluid Type*7
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Min 30% Ethylene Glycol or equivalent
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Pressure Drop
(at 1.5l/s inc 30% glycol in heat source fluid)
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Heat Source (Brine) (kPa)
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12
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Building Side (LTHW) (kPa)
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7
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Maximum Working Pressure
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Heat Source (Brine) (MPa(Bar))
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1 (10)
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Building Side (LTHW) (MPa(Bar))
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1 (10)
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DIMENSIONS
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Width (mm)
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934
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Depth (mm)
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780
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Height (mm)
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1561
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WEIGHT (kg)
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395
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REFRIGERANT
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Type
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R410A
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Charge (kg)
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4.5 x 2
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Max pressure (MPa (Bar))
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4.15 (41.5)
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Compressor Type
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Inverter Driven
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Circuit type
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Hermetically Sealed System
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ELECTRICAL DATA
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Electrical Supply
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415v, 50Hz
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Phase
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3 Phase
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Maximum Running Current (A)
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44
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Fuse Rating - MCB Size (A)*8
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50
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PLEASE NOTE: Full design criteria is needed to ascertain the capacity which could change based on heat source temperature and building flow temperature.
*1 Under normal heating conditions at brine inlet: 0°C, outlet water temp 35°C as tested to BS EN14511 (60kW)
*2 Under normal heating conditions at brine inlet: 0°C, outlet water temp 35°C as tested to BS EN14511 (45kW)
*3 Under normal heating conditions at water inlet: 10°C, outlet water temp 35°C as tested to BS EN14511 (60kW)
*4 Under normal heating conditions at water inlet: 10°C, outlet water temp 35°C as tested to BS EN14511 (45kW)
*5 Sound power level as tested to BS EN12102
*6 Heat source inlet temperature above 27ºC and up to 45°C option must reverse the inlet and outlet heat source connections and refer to manual for dip switch changes
*7 The system should be adequately protected from freezing
*8 MCB Sizes BS EN60898-2 & BS EN60947-2
LTHW - Low Temperature Hot Water
Please use adequate frost protection to ensure pipework and the unit do not freeze if the system is powered down
Please do not use ground water or well water directly within the unit
The water circuit must be a closed circuit
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