REMKO HTS 90 ALU User Manual
Page 31
Building type
Specific rated output in W/m
2
Passive energy house
10
Low-energy house built in 2002
40
Acc. to energy conservation order regarding heat insulation 1995
60
Modern building constructed around 1984
80
Partially-renovated old building constructed pre-1977
100
Non-renovated old building constructed pre-1977
200
Rated output at inlet temperature 35°C
Outside temperature [°C]
Heating output [kW]
Standard outside temperature
Heating limit for new-build
acc. to VDI 4650
0.00
2.00
4.00
6.00
8.00
10.00
12.00
14.00
16.00
-22 -20 -18 -16 -14 -12 -10 -8 -6 -4 -2
0
2
4
6
8 10 12 14 16 18 20
Minimum performance
2nd heat generator
Heating load in
accordance with
DIN EN 12831
n.max
Rated frequency
n-min
Heating load incl.
hot water and
shutdown time
Heat load
Bivalence point
Fig. 9: Heating performance diagram of the heat pump HTS 130
Characteristics of REMKO inverter heat pumps
Outdoor air as a heat source
An air/water heat pump absorbs energy from the
outdoor air as its heat source and transmits this to
the heating system. They have the following
advantages over brine/water and water/water heat
pump systems:
n
Can be used anywhere. Air is available every-
where in unlimited quantities. For example, no
wells are required.
n
No excavation is required. No large areas are
required for soil collectors.
n
Favourable. Expensive drilling is not required.
n
Good price-performance ratio and easy to
install.
n
Particularly suitable for low-energy houses with
low inlet temperatures.
n
Ideal for bivalent operation, in order to save
energy.
n
Great operational readiness achieved with
inverter technology.
Split AC unit
The REMKO inverter heat pump is what is known
as a split device. This means that it consists of an
outdoor unit and an indoor unit, both of which are
connected via refrigerant-carrying copper pipes.
Thus there are no water-carrying pipes laid from
the indoors to outdoors which need to be made
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