100% GEOTHERMAL HEAT
www.lampoassa.fi
Declared capacity for
heating at indoor
conditions 20°C and
outdoor temperature Tj
Heating
Average
Tj = -7 °C
11,6
kW
3,45
COPd
Tj = 2 °C
11,8
kW
4,02
COPd
Tj = 7 °C
12,0
kW
4,41
COPd
Tj = 12 °C
12,3
kW
4,80
COPd
Tj = bivalent temperaturea
11,5
kW
3,33
COPd
Tj = operation limit
11,5
kW
3,33
COPd
Warmer
Tj = 2 °C
11,5
kW
3,33
COPd
Tj = 7 °C
11,8
kW
3,80
COPd
Tj = 12 °C
12,2
kW
4,56
COPd
Tj = bivalent temperaturea
11,5
kW
3,33
COPd
Tj = operation limit
11,5
kW
3,33
COPd
Colder
Tj = -7 °C
11,8
kW
3,87
COPd
Tj = 2 °C
12,1
kW
4,34
COPd
Tj = 7 °C
12,3
kW
4,72
COPd
Tj = 12 °C
12,6
kW
4,90
COPd
Tj = bivalent temperaturea
11,5
kW
3,33
COPd
Tj = operation limit
11,5
kW
3,33
COPd
Degradiation coefficient when Tj = -7 °C
Cdh
1,00
Bivalent temperatures
Heating
Average
Tbivalent
-10
°C
Warmer
Tbivalent
-22
°C
Colder
Tbivalent
2
°C
Operation limit
temperatures
Heating
Average
TOL
-10
°C
Warmer
TOL
-22
°C
Colder
TOL
2
°C
Seasonal electricity
consumption
Heating
Average
QHE/A
5296
kWh/a
Warmer
QHE/W
6899
kWh/a
Colder
QHE/C
3837
kWh/a
Modes other than active mode
Off mode
P
OFF
0,017
kWh
Standby mode
P
SB
0,017
kWh
Thermostat off mode
P
TO
0,017
kWh
Cranckcaseheater mode
P
CK
0,017
kWh
Heating up time
1:30
h:min
Heating up energy input
4,11
kWh
Standby power input
0,106
kW
Class of the measured tapping cycle and the determined electrical energy consumption
W
EL-TC
for each
measured cycle
XL
5,52
kWh
COP
DHW
and energy class of used tapping cycle
3,78
Reference hot water temperature
49
°C
Maximum quantity od usable hot water
416
l
Temperature operating range: minimal and maximal heaetsource temperature,
minimal start and maximal mean temperature domestic hot water.
-10/15
°C
20
52
Contact detalis for obtaining more information
Name manufacturer
Suomen Lämpöpumpputekniikka Oy
Address
Unikontie 2, 62100 LAPUA, FINLAND
Summary of Contents for VMI 6-17
Page 1: ...L MP SS Vmi 6 17 L MP SS 3 2016 INSTRUCTIONS FOR USE INSTALLATION AND MAINTENANCE...
Page 31: ...XL 2015 811 2013 A A A B C D E F G A A A B C D E F G Vmi 6 38 dB 00 dB 8 kW 8 kW 8 kW...
Page 32: ...A A A A A A A A B C D E F G A A A A B C D E F G XL 2015 811 2013 XL X Vmi 6...
Page 35: ...XL 2015 811 2013 A A A B C D E F G A A A B C D E F G Vmi 9 41 dB 00 dB 10 kW 10 kW 10 kW...
Page 36: ...A A A A A A A A B C D E F G A A A A B C D E F G XL 2015 811 2013 XL X Vmi 9...
Page 39: ...XL 2015 811 2013 A A A B C D E F G A A A B C D E F G Vmi 11 36 dB 00 dB 11 kW 11 kW 11 kW...
Page 40: ...A A A A A A A A B C D E F G A A A A B C D E F G XL 2015 811 2013 XL X Vmi 11...
Page 44: ...A A A A A A A A B C D E F G A A A A B C D E F G XL 2015 811 2013 XL X Vmi 11 1x230V...
Page 47: ...XL 2015 811 2013 A A A B C D E F G A A A B C D E F G Vmi 14 38 dB 00 dB 14 kW 14 kW 14 kW...
Page 48: ...A A A A A A A A B C D E F G A A A A B C D E F G XL 2015 811 2013 XL X Vmi 14...
Page 52: ...A A A A A A A A B C D E F G A A A A B C D E F G XL 2015 811 2013 XL X Vmi 14 1x230V...
Page 55: ...XL 2015 811 2013 A A A B C D E F G A A A B C D E F G Vmi 17 42 dB 00 dB 17 kW 17 kW 17 kW...
Page 56: ...A A A A A A A A B C D E F G A A A A B C D E F G XL 2015 811 2013 XL X Vmi 17...
Page 60: ......
Page 61: ......
Page 62: ......
Page 63: ......
Page 64: ......
Page 65: ......
Page 66: ......
Page 67: ......
Page 68: ......
Page 69: ......
Page 70: ......
Page 71: ......
Page 72: ......
Page 73: ......
Page 74: ......
Page 75: ......
Page 76: ......
Page 77: ......
Page 78: ......
Page 79: ......
Page 80: ......
Page 81: ......
Page 82: ......
Page 83: ......
Page 84: ......
Page 85: ......
Page 86: ......
Page 87: ......
Page 88: ......
Page 89: ......
Page 90: ......
Page 91: ......
Page 92: ......