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12
12 Equipment Data
1
Type and order code
2
Design
2.1
Degree of protection according to EN 60 529
2.2
Installation location
3
Performance data
3.1
Operating temperature limits:
Heating water flow
Brine (heat source)
Antifreeze
Minimum brine concentration (-13 °C freezing temperature)
3.2
Temperature spread of heating water (flow/return flow) at B0 / W35K
3.3
Heat output / COP
3.4
Sound power level
3.5
Sound pressure level at a distance of 1 m
3.6
Heating water flow with an internal pressure differential of m³/h / Pa
3.7
Brine throughput with an internal pressure differential (heat source) of
3.8
Refrigerant; total filling weight
3.9
Lubricant; total filling weight
4
Dimensions, connections and weight
4.1
Device dimensions without connections
4.2
Device connections to heating system
4.3
Device connections to heat source
4.4
Weight of the transportable unit(s) incl. packing
5
Electrical connection
5.1
Nominal voltage; fuse protection
5.2
Nominal power consumption
5.3
Starting current with soft starter
Nominal current B0 W35 / cos ϕ
5.4
5.5
Power comsumption of the compressor protection max. W
5.6
max. power consumption of compressor protection
(per compressor)
6
Complies with the European safety regulations
7
Additional model features
7.1
Water in device protected against freezing
7.2
Performance levels
7.3
Controller internal/external
1. This data indicates the size and capacity of the system according to EN 255 or EN 14511. For an analysis of the economic and energy efficiency of the system, both the bivalence
point and the regulation should also be taken into consideration. The specified values, e.g. B10 / W55, have the following meaning: Heat source temperature 10 °C and heating
water flow temperature 55 °C.
2. Operation with 2 compressor
3. Operation with 1 compressors
4. Minimum heating water flow rate
5. Recommended heating water flow rate and brine throughput
6. Note that additional space is required for pipe connections, operation and maintenance.
7. See CE declaration of conformity
8. The heat circulating pump and the heat pump controller must always be ready for operation.
E-8
°C
°C
1
at B-5 / W55
kW / ---
kW / ---
1
at B0 / W45
kW / ---
kW / ---
1
at B0 / W50
kW / ---
kW / ---
1
at B0 / W35
kW / ---
kW / ---
dB(A)
dB(A)
m³/h / Pa
type / kg
type / litres
6
H x W x L mm
Inch
Inch
kg
V / A
1
B0 W35
kW
A
2
A / ---
W
8
SI 24TE
SI 30TE
IP 21
Indoors
up to 58 ± 2
up to 58 ± 2
-5 to +25
-5 to +25
Monoethylene glycol
Monoethylene glycol
25%
9.4
5.0
10.0
2
19.7 / 2.3
3
9.3 / 2.1
2
22.3 / 3.1
3
11.3 / 3.1
2
22.7 / 2.9
3
10.8 / 2.7
2
24.0 / 4.3
23.7 / 4.1
31.2 / 4.6
3
12.5 / 4.4
12.7 / 4.3
14.4 / 4.2
59
43
4
5
4
2.2
/ 3100
4.0
/ 9800
2.6
/ 1100 5.0
5
5
5
5.6
/13000 5.6
/13000 7.0
/6000
R404A / 3.7
R404A / 7.7
Polyolester
Polyolester
(POE) / 2.72
(POE) / 3.54
1660 x 1000 x 775
1660 x 1000 x 775
G 1 1/4'' internal/exter-
G 1 1/2'' internal/exter-
nal
G 1 1/2'' internal/exter-
G 2'' internal/external
nal
282
400 / 20
400 / 20
5.61
5.81
6.78
20
10.12 / 0.8 10.48 / 0.8 12.23 / 0.8 12.72 / 0.8 14.51 / 0.8 14.90 / 0.8
70
7
Yes
2
Internal
SI 37TE
IP 21
IP 21
Indoors
Indoors
up to 58 ± 2
-5 to +25
Monoethylene glycol
25%
25%
5.2
10.0
5.0
24.7 / 2.4
28.9 / 2.4
9.0 / 1.7
12.1 / 2.2
28.7 / 3.3
33.0 / 3.2
12.0 / 2.7
13.4 / 2.7
28.1 / 2.9
34.3 / 3.1
11.3 / 2.4
13.1 / 2.4
30.3 / 4.4
37.2 / 4.6
35.4 / 4.3
14.1 / 4.1
17.0 / 4.2
18.3 / 4.4
62
63
46
47
5
4
5
/ 2500 3.2
/ 1650 6.0
/ 5100
5
5
5
7.0
/6000 8.5
/10000 8.5
/10000
R404A / 6.8
Polyolester
(POE) / 3.9
1660 x 1000 x 775
G 1 1/4'' internal/exter-
nal
nal
G 2'' internal/external
365
371
400 / 20
6.91
8.04
8.26
25
26
70
70
70
7
7
Yes
Yes
2
2
Internal
Internal
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