Ground Source Heatpump

Geothermal Heat Pump->Ground Source Heat Pump (R410A Heating Only)

• Heating and domestic hot water
• Heating capacity: 20.3 KW
• Three phase
• Adopt Siemens controller
• Hitachi Scroll compressor
• Swep Plate heat exchanger
• Optional part: internal electric heater
• Galvanized sheet cabinet

Heat pump		Type	GHP09	GHP12	GHP10	GHP13	GHP15	GHP20
Dimensions,weights,connection dimensions
Dimensions		HxWxD	960x600X600
Weight		kg	130	140	130	140	150	160
Refrigerant		Type	R410A
Filling weight		kg	1.60	1.70	1.60	1.70	1.90	2.15
Permissible operating pressure		Mpa	4.2	4.2	4.2	4.2	4.2	4.2
Pipe connector-hot side		Inch	G1”	G1¹/₄”	G1”	G1¹/₄”	G1¹/₄”	G1¹/₂”
Pipe connector-cold side		Inch	G1”	G1¹/₄”	G1”	G1¹/₄”	G1¹/₄”	G1¹/₂”
Evaporator		Type	Brazed plate heat exchanger
Condenser		Type	Brazed plate heat exchanger
Compressor			1xScroll
Performance Heat pump
Heat output	at B0/W35	kW	8.6	11.8	10.0	13.0	15.5	20.3
Power consumption		kW	1.95	2.70	2.22	2.90	3.50	4.60
Performance factor			4.41	4.37	4.5	4.48	4.43	4.41
Hot side volume flow		m3/h	1.48	2.03	1.72	2.24	2.67	3.49
Cold side volume flow		m3/h	1.91	2.61	2.23	2.90	3.44	4.50
Heat output	at W10/W35	kW	11.0	15.0	12.7	16.3	19.5	25.7
Power consumption		kW	2.03	2.80	2.27	2.96	3.57	4.68
Performance factor			5.42	5.36	5.59	5.51	5.46	5.49
Hot side volume flow		m3/h	1.89	2.58	2.18	2.80	3.35	4.42
Cold side volume flow		m3/h	2.57	3.50	2.99	3.82	4.57	6.03
Power		Type	Single phase with Daikin compressor		Triple phase with Hitachi compressor
Sound power level		dB(A)	47	48	47	48	48	48

Heat pump Type GSWW60 Dimensions,weights,connection dimensions Dimensions HxWxD 1620x550X1250 Weight kg 420 Refrigerant Type R407C Filling weight kg 10 Permissible operating pressure Mpa 3 Pipe connector-hot side Inch G4” Pipe connector-cold side Inch G4” Evaporator Type Brazed plate heat exchanger Condenser Type Brazed plate heat exchanger Compressor 　 2xScroll Performance Heat pump Heat output at B0/W35⁽¹⁾ kW 60 Power consumption kW 14.6 Performance factor 　 4.11 Hot side volume flow⁽³⁾ m3/h 10.4 Cold side volume flow⁽⁴⁾ m3/h 10.2 Heat output at W10/W35⁽²⁾ kW 77 Power consumption kW 14.9 Performance factor 　 5.17 Hot side volume flow m3/h 13.4 Cold side volume flow m3/h 13.6 Process medium 　 Brine made from water with 33Vol.% ethylene glycol Power Type Triple phase Sound power level dB(A) 52 (1)B0/W35=Brine water inlet temperature 0℃,heating flow 35℃ (2)W10/W35=Well water inlet temperature 10℃,heating flow 35℃ (3)Heating flow for 5K temperature span (4)Heat source flow for 4K temperature span

Ground source heat pumps use a buried ground loop which transfers heat from the ground into a building to provide space heating and, in some cases, to pre-heat domestic hot water.
How it works
There are three important elements to a ground source heat pump:
1.The ground loop
This is comprised of lengths of pipe buried in the ground, either in a borehole or a horizontal trench. The pipe is usually a closed circuit and is filled with a mixture of water and antifreeze, which is pumped around the pipe absorbing heat from the ground.The ground loop can be:
•Vertical, for use in boreholes
•Horizontal, for use in trenches
•Pound/Lake installation
2.A heat pump
In the same way that your fridge uses refrigerant to extract heat from the inside, keeping a ground source heat pump extracts heat from the ground, and uses it to heat your home.
3.Heat distribution system
This consists of under floor heating or radiators for space heating and in some cases water storage for h