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Ground Source Heat Pumps
MADE IN SWEDEN
2
NIBE produces 15 different types of ground-source heat pumps, ranging from 5 kW to 60 kW. By using a cascade connection it is possible to achieve an output of 540 kW. The energy consumption for heating and hot water can be l owered by up to 75% in comparison to heating systems using fossil fuels.
Your energy consumption for heating will be lowered up to 75% with the use of NIBE ground-source heat pumps.
Ground probe
In the lower subsoil of the so-called “near-surface geothermal layer” lies a heat source which can be utilized all year long, which has an almost constant temperature. It can be used for all possible building types, large or small, public or private. Depending on the region it is also referred to as, “vertical absorption, ground spit or ground lance”. It requires little space and the ground probe can even be drilled on the smallest of plots. Therefore it is ideal for refurbishment or adaptation from a heating system fuelled by fossil fuels to the use of geothermal energy.
As with a surface collector a mixture of water-glycol circu-lates in a closed circuit (similar to the cooling system of a car). Depending on the necessary size of the heat pump unit a specialized company ascertains the depth and amount of bore holes in which the u-shaped plastic tubing is installed and pressed, in order to achieve good heat transfer.
Surface collector
During the summer, solar heat is stored in the soil. This is either directly absorbed as insulation or as heat from rain and the air from the near-surface layer of the soil. Using this energy for heating is a cost effective method. The highest yield can be obtained from soil with a high water content. The heat is extracted from the soil by means of buried plastic tubing. An environment-friendly, non-freezing emulsion of water-glycol cir-culates in the tubing. The soil above the earth collector may not be sealed off under any circumstances, i.e. by buildings, asphalt or concrete.
Earth collectors do not require a permit. Installation depth is approx. 20 cm under the local frost line.
Heat Pumps using the soil or groundwater as the heat source
NIBE GroUND-soUrcE hEAT pUmps
3
Ground water
If ground water is available and easily accessible, it can be uti-lized as a heat source due to the fact that it has a temperature of between 7 and 12 °c all-year round. It is advisable not to pump water for single and two-family houses from a depth greater than approximately 15 m. This would lead to expenditures being too high.
A distance of approximately 10 to 15 m should be kept between the withdrawal point (supply well) and the reinsertion point (deep-well) and furthermore the flow direction should be taken into consideration in order to avoid a “flow short-circuit”. These installations require a permit and must meet statutory require-ments. however, this is no problem for NIBE equipment, due to their Iso 14001-certification. An optimal protection according to §7 mWG is provided by the “separator-exchanger-system”.
Function
In the evaporator (heat exchanger) the energy transfers from the cold medium to the refrigerant. The refrigerant will then evaporate. The refrigerant is transported in the circuit by the compressor to increase the pressure and temperature of the refrigerant. In the condenser (heat exchanger) the refrigerant cools and condense. The energy is then transfered from the refrigerant to the heating system of the house, hot water sys-tem or air system The expansion valve regulates the mass flow of the refrigerant to maintain the pressure difference between the high pressure and the low pressure side.
Radiator30°C 35°C
-3°C 0°C
EnergikällaCold medium from heat source
Heating system
CompressorExpansion
valve
Evaporator
Condenser
The complete FIGhTEr 1140 is enclosed in a robust frame and thanks to sturdy outer panels and effective sound insulation the unit is so quiet, that it does not have a negative effect on living comfort. To ensure simple installation and easy service most panels can easily be removed.
The following docking options are available:
• Direct connection to a low-temperature radiator/underfloor heating system. The flow temperature is automatically matched to the actual outside temperature. hot water can be heated in a separate water heater (type NIBE VpA) via a changeover valve.
• Docking to an existing oil/gas/wood-fuelled boiler or accumulator tank with water heater.
FIGhTEr 1140 can be installed in different ways (see page 6 and www.nibe.eu).
The temperature of the heating system must be taken into account, because the upper temperature limit of heat pumps is lower than that of for instance oil or gas-fuelled boilers.
Electrical cartridge (1-phase or 3-phase) is installed in the heat pump. room sensors, hot water control and add-on units are available as accessories.
It is possible to cool via the heat source on warm summer days (free cooling).
hEAT pUmp WITh ThE soIl, BEDrock or GroUNDWATEr As ThE hEAT soUrcE
NIBE FIGHTER 1140
FIGhTEr 1140 has been equipped with a control panel which offers plenty of functions. The benefits are:
• large control panel with clear symbols
• The easily understandable control simplifies the control and operation of the heat pump
• Double heat curves
• programmable for climate and cooling control
• clock
• Timer for temperature control
• Timer for hot water function
• prepared for Gsm- and Internet-integration
• control unit for swimming pools
• Alarm logbook
• choice of language
• soft start relays
• prepared for the configuration of four different installation systems
• Display of the refrigerant temperature
NIBE FIGhTEr 1140 is a heat pump for heating single and multi-family houses and industrial buildings. The FIGhTEr 1140 is a versatile product with advanced control equipment. The control is also prepared for bivalent heating mode in combination with an oil or gas-fired boiler. This heat pump type is available in the output range of 5 to 17 kW in nine versions. A cartridge heater is fitted in the factory installed electrical cartridge with 3 x 3 kW for 3 x 400 V and 3 x 2 kW for 230V.
The efficiency of the FIGhTEr 1140 is high, thanks to a highly efficient compressor in a well-dimensioned refrigerant circuit. This results in the considerable coefficient of performance (cop) of 5,0 at 0°c incoming cooling medium temperature and 35°c outgoing heating medium temperature (excluding circulation pumps).
The FIGhTEr 1140 is designed with the compressor and the refri-gerant unit housed in a separate enclosure for easier servicing. As a result the compressor features double sound-proofing, lea-ding to very low noise levels. circulation pumps and flexible hoses are already built-in. The heat source and heating circuits are connected at the top of the unit for ease of installation. Dirt filters are also included in the contents of delivery.
The unit can be connected to a low-temperature distribution system such as radiators, convectors or underfloor heating/wall mounted heating.
The FIGhTEr 1140 is fitted with a microprocessor to ensure opti-mal and safe operation. clear information about status, running time and all essential temperatures in the heat pump is presented on a two-line lcD display. This means that external plant thermo-meters are not necessary.
4
5
Technical data
single phase Three phase
Type FIGHTER 1140- 5 8 12 15 17
recorded capacity* (B 0 /W 35) kW 1.0 1.8 2.5 3.4 3.8
Emitted capacity* (B 0 /W 35) kW 4.8 8.3 11.5 15.4 16.8
cop at B0/W35 4.6 4.6 4.6 4.5 4.6
height mm 1030 without adjustable feet (30–50 mm)
Width mm 600
Depth mm 625
Net weight kg 170 190 200 221 229
operating voltage V 230 (1-phase+Zero) 400 (3-phase+Zero)
Integrated cartridge heater (factory installed)
kW 6 (6) 9 (6)
refrigerant r407c
* specifications relative to 100% QN with 1800 operating hours heater and 200 operating hours hot water at 450 m above sea level** stated values are only approximate guide values, specifications for surface collector with pE-pipe 40 x 2,3.
Design specifications for different heat sourcessingle phase Three phase
Type FIGHTER 1140- 5 8 12 15 17
Ground heat, hose length** 200 – 300 400 – 2x300 2x250 – 2x350 2x300 – 2x400 2x350 – 3x300
Borehole depth for ground probe ** m 70 – 90 140 – 170 160 – 190 2x100 – 2x120 2x110 – 2x140
heating medium flow l/s 0.10 0.19 0.31 0.31 0.36
Brine flow l/s 0.25 0.53 0.65 0.75 0.86
6
NIBE FIGhTEr 1140
Dirt filter r25, r32
Temperature sensors with plug contact (hot water control resp. fixed condensing)
level vessel with safety valve for the heat source
External sensor with enclosure
compression joint
Insulation tape
Aluminium tape
outer tubes for sensor
converter
hot water control VsT 11 Three-way valve with motor
room sensor rG 10
room thermostat rT 10
level switch NV10
pool kit pool 11
Extra shunt EsV 20
Contents of delivery (see page 19) Accessories (see page 19)
SƒV
SF AV
AV
VXV
VVGVVB / ACK UG
ELVVB
NK
AV
AV
SFEXP
AV
BK / JK
ELK
FG
T
AB
AB
SƒV
SF AV
AV
VXV
VVGVVB / ACK UG
NK
AV
AV
SFEXP
BK / JK
ELK
FG
AB
AB
SÄV
VXV
T
AB
AB
SÄVAV
VpA
The FIGhTEr 1140 prioritises the filling of hot water heating via the changeover valve (VXV). When the hot water tank/accumulator tank (VpA) is full, the change-over valve (VXV) swit-ches to the heating circuit. The heat pump is then controlled by the outside temperature sen-sor (UG) in combination with the built-in flow sensor (FG). The immersion heater (Elk) is swit-ched on automatically, when the energy demand exceeds the capacity of the heat pump. The additional system “VsT 11” (accessory) is necessary for this option.
Docking with electrical immersion heater and hot water tank (floating condensing)
Docking with oilboiler (floating condensing)
FIGhTEr 1140 prioritises filling of the water heater (VpA). When the hot water reaches the set temperature, the changeover valve switches to the heating circuit. If the heat pump cannot maintain the correct flow temperature, the oil-fired boiler starts, which also opens the mixing valve (sV). This control option is automatically activated if a boiler sensor has been installed. The flow sensor (FG) and the return sensor (rG) must be located on the main pipe to the radia-tors. The additional system “VsT 11” (accessory) is necessary for this option.
NK
VVG
BK / JK
SF
AV
SÄV
EXP
VXV
AV
AV SF AV
FG
AV
Oljepanna
UG
PG SV
VVB / ACK
AB
B ASÄV
oil-fired boiler
VpA
BV
NIBE FIGHTER 1140
hEAT pUmp WITh ThE soIl, BEDrock or GroUNDWATEr As ThE hEAT soUrcE
7
pG Boiler temperature sensorFG Flow sensorVVG hot water sensorUG outdoor temperature sensorrG return temperature sensorVpA hot water tank/Accumulator tankVXV changeover valvesV mixer valve
AV shut-off valveBk/Jk Brine/Ground collectorBV check valveElk Electrical cartridgeEl VVB Electrical hot water tankNk level vesselsF Dirt filtersÄV safety valvekv cold waterWw hot water
NK
VVG
BK / JK
AV
SÄVEXP
VXV
AV SF AV
RG
FG
AV
Oljepanna
UG
PGSV
VVB / ACK
NK
VVG
BK / JK
AV
SÄVEXP
VXV
AV SF AV
RG
FG
AV
Oljepanna
UG
PGSV
VVB / ACK
KVVV
AB
AB
AB
AB
ELVVB
T
NK
VVG
BK / JK
AV
SÄVEXP
VXV
AV SF AV
RG
FG
AV
Oljepanna
UG
PGSV
VVB / ACK
KVVV
AB
AB
Med blandningsventil
Utan blandningsventil
SÄV
SÄV
SÄV
SF
AV
SF
AV
SF
AV
7
Abbreviations
hEAT pUmp WITh ThE soIl, BEDrock or GroUNDWATEr As ThE hEAT soUrcE
The unit can be connected to a low-temperature distribution system such as radiators, convectors or underfloor heating.
The FIGhTEr 1240 is fitted with a microprocessor to ensure opti-mal and safe operation. clear information about status, running time and all essential temperatures in the heat pump are presen-ted on a two-line lcD display. This means that external plant thermometers are not necessary.
The complete FIGhTEr 1240 is enclosed in a robust frame and thanks to sturdy outer panels and effective sound insulation the unit is so quiet, that it does not have a negative effect on living comfort. To ensure simple installation and easy service most panels can easily be removed.
It is possible to cool via the heat source on hot summer day.
NIBE FIGHTER 1240
The FIGhTEr 1240 has been equipped with a control panel which offers plenty of functions.
The benefits are:
• larger control panel with clear symbols
• The easily understandable control simplifies the
control and operation of the heat pump
• Double heat curves
• programmable for climate and cooling control
• clock
• Timer for temperature control
• Timer for hot water function
• prepared for Gsm- and Internet-integration
• control unit for swimming pools
• Alarm logbook
• choice of language
• soft start relays
• prepared for the configuration of four different
installation systems
• Display of the refrigerant temperature
NIBE FIGhTEr 1240 is a complete heat pump unit for heating single-family houses.
This type of unit is available in seven different variants with out-put levels from 5 to 12 kW.
The efficiency of the FIGhTEr 1240 is high, thanks to a highly efficient compressor in a well-dimensioned refrigerant circuit. This results in the considerable coefficient of performance (cop) of 5,0 at 0 °c incoming cooling medium temperature and 35 °c outgoing heating medium temperature (including circulation pumps).
The FIGhTEr 1240 is designed in such a manner, that the com-pressor and the refrigerant unit is housed in a separate enclosure for easier servicing. As a result the compressor features double sound-proofing, resulting in very low noise levels. Both the circu-lation pumps are built-in and the heat source circuit can be con-nected to the left or right-hand side of the unit. Dirt filters are also included in the contents of delivery.
The FIGhTEr 1240 is fitted with a 160-litre (available in different corrosion protection), double-jacket hot water heater, which is insulated with polyurethane foam to minimise heat loss. The built-in three-stage cartridge heater can be switched on auto-matically if needed.
8
9
FIGhTEr 1240outdoor temperature sensorDirt filtercompression jointlevel vessel with safety valve for the brineAnchoring clampsIsolated heat source connection pipesTransformers for load control
Function principle
FIGhTEr 1240 consists of heat pump, hot water tank, cartridge heater, circulation pumps and control system.
FIGhTEr 1240 must be connected to a heat source and heating circuit.
The heat absorption from the heat source (soil, ground water) is usually performed by a closed system in which a mixture of water and antif-reeze circulates. Ground water can also be utili-zed as a heat source, however this necessitates a heat exchanger, which is installed in-between.
In the evaporator the heat pump gives off its energy to the refrigerant, which evaporates and is subsequently compressed in the compressor. The refrigerant, the temperature of which has now been raised, is passed to the condenser where it gives off its energy to the heating cir-cuit and if necessary to the water heater tank. The installed cartridge heater lies behind the condenser, which is automatically activated at higher energy demand.
Contents of delivery (see page 19)
Accessories (see page 19)
room sensor rG 10room thermostat rT 10level switch NV10pool kit pool 11EsV 20 Extra shunt
Hot watercirculation
Heating waterpump
Immersion heater
3 way valve
Heating waterflow
Heating waterreturn
Evaporator
Brine pump
Compressor
Condenser
Expansion valveCooling unit
Double jacket
Brine in
Brine out
Water heater
Hot watercirculation
AVT
Closed
BK / JK
NK
SÄV
SF
Brine in
Brine out
Heating mediumpump
Immersion heater
Three-way valve
Heating medium (VB), flow
Heating medium (VB), return
Evaporator
Cooling medium pump
CompressorCondenser
HW CW
Hot water circulation
Expansion valveRefrigerating module
Double jacket
Cooling medium (KB) in
Cooling medium (KB) out
Water heater
Heating return
Heatingflow
single phase
Type FIGHTER 1240- 5 8 12
recorded capacity* (B 0 /W 35) kW 1.5 1.8 2.5
Emitted capacity* (B 0 /W 35) kW 4.8 8.3 11.5
cop at B 0/W 35 4.6 4.6 4.6
hot water tank capacity litres 160
Double-jacket tank volume litres 45
Necessary headroom for installation mm 1745 without adjustable feet (30–50 mm) /1890 mm
Width mm 600
Depth mm 625
Net weight kg 280 300 310
operating voltage V 230 (1-phase+Zero)
Integrated cartridge heater (factory installed) kW 6 (6)
refrigerant r407c
Technical data
* In accordance with EN 255 for cooling medium entry at 0°c / hot water flow at 35°c. The electric input for the circulation pumps is not included.
* specifications relative to 100% QN with 1800 operating hours hot water at 450 m above sea level.** stated values are only approximate guide values, specifications for surface collector with pE-rohr 40 x 2,3.
Design specifications for different heat sourcessingle phase
Type FIGHTER 1240- 5 8 12
Borehole depth for ground probe** m 70–90 140–170 160–190
Ground heat, hose length** 200–300 400–2x300 2x250–2x350
heating medium flow l/s 0.10 0.19 0.31
Brine flow l/s 0.25 0.53 0.65
hEAT pUmp WITh ThE soIl, BEDrock or GroUNDWATEr As ThE hEAT soUrcE
FIGhTEr 1330 is constructed in such a manner, that the com-pressors and refrigerant circuits are encased in separate units, which ensures safe servicing. This double sound-proofing of the compressors results in very low noise levels. circulation pumps and flexible hoses are fitted at the factory. cooling medium and heating circuits are connected on the back of the device. Dirt fil-ters are included in the delivery.
The FIGhTEr 1330 is fitted with a microprocessor to ensure opti-mal and safe operation. clear information on condition, operati-on time and all temperatures can be read off from the lcD dis-play. External plant thermometers are therefore not necessary.
FIGhTEr 1330 features a robust frame with a strong outer casing. Effective sound-proofing guarantees low noise levels and therefore increased living comfort. Detachable front and side panels make the installation and servicing easier.
Nine FIGhTEr 1330 can be connected together via a control unit to achieve an output of up to 540 kW.
It is also possible to cool via brine on hot summer days.
FIGhTEr 1330 can be installed in different ways (see page 12 and www.nibe.eu).
Necessary accessories would be for example the room sensor “rG 10” or the equipment for hot water control “VsT 11”, the temperature signal distributor “TsF 10” and other equipment.
NIBE FIGHTER 1330
NIBE FIGhTEr 1330 is a heat pump for heating larger buildings such as multi-family houses and large scale industrial plants. soil, brine or ground water can be used as an energy source. FIGhTEr 1330 is a flexible product with advanced control equipment which offers a multitude of system solutions. FIGhTEr 1330 can run at two different flow temperatures – if necessary with double heat curves. It is furthermore prepared for controlling an oil-fuelled or electric boiler. This heat pump can be controlled in a heating system as either a “master” or “slave”.
FIGhTEr 1330 is manufactured in four versions; these feature an output of 22, 30, 40 and 60kW.
Due to the two highly effective scroll compressors in a refrigerant circuit of suitable size, the FIGhTEr 1330 achieves a high efficiency. With a heat factor (cop) of at least 4.3 * with an incoming cool-ing medium temperature of 0° c and an outgoing heating medium temperature of 35°c, the unit is an effective cost saver.
The maximum flow temperature is 65°c with compressors only.
The heat pump consists of two units which contain less than 3 kg refrigerant per unit. The two compressors, which are activated when they are needed, achieve a higher output control by increased operation intervals, which leads to less wear and increased operational safety.
FIGhTEr 1330 enables simultaneous production of heating water and hot water. The production of hot water is prioritised by the activation of one or both compressors.
10
Advanced Heat Pump for large residential and commercial installations
11
Immersion heater IU 3 kW 6 kW
switchbox k11 (with thermostat and thermal overload protection)
hot water control VsT 11 Three-way valve with copper pipe Ø28 (maximum recommended charging capacity is 15 kW)
hot water control VsT 20 for higher capacity
room sensor rG 10
room thermostat rT 10
level switch NV10
NIBE FIGhTEr 1330
Dirt filter r32 resp. r40, r25
Temperature sensor with plug contact
External sensor
Tubes for sensors
Aluminium tape
Insulating tape
hoses and seals
(WQA-flow r25 inner and outer threads)
heat transfer paste
connection hoses with seals
safety valve
Contents of delivery (see page 19) Accessories (see page 19)
* In accordance with EN 255 for cooling medium entry at 0° c / hot water flow at 35° c. The electric input for the circulation pumps is not included.
Technical data
NIBE FIGHTER 1330- 22 kW 30 kW 40 kW 60 kW
power consumption* (B 0 /W 35) kW 4.8 (2 x 2.4) 6.8 (2 x 3.4) 9.0 (2 x 4.5) 13.8 (2 x 6.9)
heating capacity* (B 0 /W 35) kW 23.1 (2 x 11.55) 30.8 (2 x 15.4) 39.0 (2 x 19.5) 60.6 (2 x 30.3)
cop at B 0/W 35 4.8 4,5 4,3 4,4
height mm 1625 (without adjustable feet 30–50 mm)
Width mm 600
Depth mm 625
Net weight kg 315 338 356 350**
Voltage V 400 (3-phase+Zero)
refrigerant r407c r410A
** External brine pump not included.
12
B
A
Cirk.pump
Värmepump
Varmvatten
Tillsatsvärme
Larm
Kontrollera �
att vatten �
finns i pan-�
nan innan �
�
1
R
0
SF
AV
VVG
SÄV
KB-in
KB-ut
VXV
BV
BVRV
RV
RG
FG
PannaUG
PGSV-P�
VVB / ACK
�
VVB
HR
HR
EXP
SF
SF
T
IU
The FIGhTEr 1330 prioritises filling of hot water with half output (heat pump module B) via the three-way valve (VXV). When the hot water tank/accumulator tank (VpA) is full, the three-way valve (VXV) controls against the hea-ting circuit. At heating demand first module A starts. At increased demand module B also starts for heating. The boiler is switched on automatically, when the energy demand exceeds the capacity of the heat pump, and the mixing valve (sV) is activated, when the tempe-rature of the heating boiler (pG) exceeds 55 °c.
When the hot water tank/accumulator tank is fitted with a cartridge heater (IU) and a switch-box (k11), the function “additional hot water” can be used. We recommend using a contactor which can be bypassed.
The accessories “VsT 11”, “IU” and “k11” are necessary for this option.
Boiler
radiator flow
radiator return
FIGHTER 1330 docked with heating boiler and hot water tank (floating condensing)
A
SlaveVP2
B
A
MasterVP1
P
B
SÄV
VBP3
SÄV
SÄV
SÄV
EXP
SV-P
HROljepanna
UG
RV RV
RV RV
AV
AV
AV
BV BV
BV BV
BV
RV
HR
VVC
VXVVVC
RV
BV
BV
BV
EXP
SF SF
KB-inKB-ut
SF
SF
SF
FG
RG
VXV
VVBVVB / ACKVVB / ACK
VVG
PG
AV
A B I II
5 0 . 0 CVa r m va t t e n t e m p e r a t u r
13.431.0
A B
A B I II
5 0 . 0 CVa r m va t t e n t e m p e r a t u r
13.431.0
A B
HR
A
SlaveVP2
B
A
MasterVP1
P
B
A B I II
5 0 . 0 CVa r m va t t e n t e m p e r a t u r
13.431.0
A B
A B I II
5 0 . 0 CVa r m va t t e n t e m p e r a t u r
13.431.0
A B
SÄV SÄV
AV AV AV AV
AV
CP
81
81 49
49
36
121
85
94
89
52
20
31
88
19
31
15
81
81 81
49
104
49
49
49
49
49
81
63
52
52
52
63 63
63
44
44
44
44
95 95 96
31
49
98
43
103
109
52 52
44 4444 44
44
63
85
FIGhTEr 1330 is designed in such a manner, that several units can be connected together to meet high power demands.
If there is a heating demand, one of the com-pressors starts up. If additional heat is needed, a further compressor is started, until the hea-ting demand is met.
If the compressors cannot maintain the correct flow temperature, the boiler starts. The mixing valve (sV) remains closed until the boiler rea-ches 55 °c. The flow sensor (FG) and the return sensor (rG) must be located on the main pipe to the radiators.
In order to avoid hot water turbulence in the accumulator tank, a possible hot water circula-tion connection must be moved to an additio-nal hot water tank (VVB).
AV shutoff valveBV check valveVVB hot water tankAck Accumulator tanksF Dirt filtersÄV safety valve
VVc hot water circulationpG Boiler sensorFG Flow sensorVVG hot water sensorUG outdoor temperatur sensor
rG return temperature sensorhr Auxiliary relays/contactor withbypassVXV changeover valvesV-p check valve
kB-in cooling medium - inletkB-ut cooling medium - outletrV control valveA heat pump moduleAB heat pump module B
EXp Expansion vessel with the necessary safety equipmentVpA Accumulator tank with hot water tankIU cartridge heater
Docking of two or more FIGHTER 1330 with heating boiler and accumulator tank (floating condensing)
Boiler
VPA
VpA VpA
hEAT pUmp WITh ThE soIl, BEDrock or GroUNDWATEr As ThE hEAT soUrcE
NIBE FIGHTER 1330
Abbreviations
13
NIBE PKM 10/20
PKM connected with NIBE FIGHTER 1240 PKM
PKM connected with NIBE FIGHTER 1140 PKM
Model PKM 10 PKM 20
connection cold side mm 28 35
Width mm 600 600
connection heating side mm 22 28
height (excl. pipe) mm 515 635
Depth mm 370 370
Weight kg 30 45
cooling output kW 2–5 4–9
Intended for heat pump (kW at 0/35°c)- 5–8 10–17
Technical data
EXP
SÄVSÄV
NK
AV
KB-in
KB-ut
FIGHTER 1140
AV
PKM
FG
SV-K
VXV-K
Cirk.pump
Värmepump
Varmvatten
Tillsatsvärme
Larm
Kontrollera att vatten finns i pan-nan innan den in-kopplas.
1
R
0
Heat source
EXP
SÄV
S Ä V
A B
C E
G
I F
H
NK
AV
KB-in
KB-ut
FIGHTER 1240
BK/JK
AV
VVB/ACK
PKM
FG
SV-K
VXV-K PKM
pAssIVE coolING moDUlE
Heat source
• Developed for the use of the NIBE FIGhTEr 1140 and 1240
• controled by the microprocessor by the heatpump
(no external control nessesary)
• heat exchanger in the system (no brine in the heating system)
• Free cooling and hot water at the same time
• heating and cooling switch in one unit
• No brine in the heating system
• Free cooling with a minimum use of a electrical energy
• Environmental friendly
• Easy to install
• low running costs
• Good value complete system
About pkm
The passive cooling module (pkm) consists of a compact unit with integrated separation heat exchanger, circulation pump as well as regulating valves.
pkm makes the passive cooling possible for a building over a suitable "surface heating" (floor, winding or ceiling heating) or a fancoils. The brine water circle is running separately from the cool and/or heating circle. pkm can cool if necessary and at the same time and prepare warm industrial water.
The integrated circulation pump is only used if the free cooling is used. There to the electrical cooling energy needed, only the driving power of the circulation pumps. Therefore the system works with high energy-saving and environmental friendly. For free / passive cooling by the use of brine or groundwater systems is the suitable warming and/or cooling source.
The brine can feed the energy entry into the soil and provides in such a way for an optimal energy use in the cooling.
The NIBE system program offers extensive combination options matching different demands on energy savings solutions - here only some:
14
clImATE sYsTEm
NIBE HPAC
hpAc is an accessory that turns the FIGhTEr 1140/ 1240 and 1330 NIBE brine/water heat pumps into complete climate systems.
In the winter the heat pump extracts thermal energy from the heat source and heats the house via the fan convectors. When there is less need for cooling, brine from the cold ground probe circulates through the fan convectors and passively cools the house. however on hot days the heat pump starts and actively cools the fan converter by delivering the available thermal energy to the ground probe system. This results in effective cooling of the house while at the same time charging the ground probe system for winter days.
hpAc provides the most economic and environmentally friendly, total solution for heating, comfort cooling as well as hot water production.
Instead of fan convectors, cooling blankets, air coolers for ventila-tion systems etc. can be connected for cooling.
* Temperature to the van coil in active cooling
** Temperatur of the brine in active cooling
Model HPAC 28 HPAC 42
Widht mm 600 600
Net weight kg 30 45
height mm 515 690
Depht mm 360 490
pipe connection 1" 1 1/2
heat pump sizes 5–17 20–40
heating capacity per unit based on (B0/W35) kW 4,8–17,0 17,0–40,4
cooling capacity per unit based on (7/12°c*, 35°c**) kW 11–20 30–45
Technical data
• The most economical and environment-friendly total solution for heating, comfort cooling and hot water production.
• heat pump connected to a collect with gathers geothermal energy from the ground, bedrock and groundwater, giving up to 75% free heat.
• Two-phase cooling duty – active and passive.
• passive cooling from ground collector with circulation pump operation only. capacity depends on temperature level in ground/bedrock.
• Active cooling with about 50% higher efficiency that conven- tional air conditioning, thanks to geothermal heat exchange and optimal unit design.
• Environment-friendly – no emissions and no noisy external units.
• Fully-automatic intelligent regulation which always five the room comfort you want and which prioritises hot water charging.
• heat and cooling are distributed via water in a system of pipes to a number of fan coils with built-in fans which efficiently distribute the heat/cooling over a large room volume.
Cooling/Heating Systems with Geothermal exchange
15
EXhAUsT AIr moDUlE For GroUND hEAT pUmp
NIBE FLM 30/40
Flm 30 and Flm 40 are exhaust air modules specially designed to combine recovery of mechanical exhaust air of the heat source in the ground or brine.
Flm 30 and Flm 40 are designed to connect to the FIGhTEr 1140/1240 or FIGhTEr 1330 heat pump type.
The built-in fan in Flm 30 and Flm 40 extracts the air from the wet areas of the house to the module. here the recovered ener-gy is transferred to the heat pump from the ground probe or earth collector. This leads to an increase of the temperature of the heat source and enhances the heating capacity of the heat pump. Even when the heat pump is not in operation, energy is stored in the ground and the exhaust air energy is utilised to the full.
The brine/water heat pump capacity is not bound by the amount of air as with an exhaust air heat pump, but the output can be optimally adapted to suit the size of the house.
Flm 30 and Flm 40 are best connected directly to FIGhTEr 1240, but can also be wall-mounted.
• Flm 30 and Flm 40 can be connected to FIGhTEr 1140/1240/1330 irrespective of output size.
• A total solution for heat recovery from the exhaust air, as well as the increase of the energy levels of the ground or brine.
• The length of the collectors can be optimised.
• high fan capacity and low sound level.
• simple installation.
Cirk.pump
Värmepump
Varmvatten
Tillsatsvärme
Larm
Kontrollera att vatten finns i pan-nan innan den in-kopplas.
1
R
0
NK
Köldbärare ut
Värme, retur
Värme, fram
KVVV
EXP
P
SF
FIGHTER 1250
FLM 30
Frånluft Ø 160
Avluft Ø 160
Köldbärare ut
Mark-/bergvärmepump
FX 110
Frånluft Ø 160
Avluft Ø 160
Wärmequellen-Eintritt
Wärmequellen- Austritt
FIGHTER 1250
FLM 30
Abluft Ø 160
Fortluft Ø 160
Brine in
Brine out
FIGHTER 1250
FLM 30
Exhaust airØ 160
Extract airØ 160
Köldbärare in
Cirk.pump
Värmepump
Varmvatten
Tillsatsvärme
Larm
Kontrollera att vatten finns i pan-nan innan den in-kopplas.
1
R
0
Köldbärare in
Keruupiiri meno
FIGHTER 1250
FLM 30
Poistoilma Ø 160
JäteilmaØ 160
Keruupiiri tulo
Cirk.pump
Värmepump
Varmvatten
Tillsatsvärme
Larm
Kontrollera att vatten finns i pan-nan innan den in-kopplas.
1
R
0
Kuldebærer ut
FIGHTER 1220
FLM 30
Avtrekk Ø 160
AvkastØ 160
Kuldebærer inn
FLM 30 FLM 40
Width mm 600 600
max. air flow approx. m3/h 400 400
height mm 400 400
Depth mm 600 600
Technical data
The ideal solution for new buildings, FLM 30/40 meets the requirements set out in the Energysaving directive.
max. cooling capacity kW 2,3 2,3
FIGhTEr 1240
Flm 30 on consoles for FIGhTEr 1140.
LEK 061211
Alt. 1
Alt. 2
LEK
LEK
corrosion protection* cu cu cu
WATEr hEATErs For coNNEcTIoN To hEAT pUmps
VPA
VpA is a range of water heaters intended primarily to be connected to heat pumps. They are also suitable for use with other heat sources. VpA is manufactured in three sizes, 200/70, 300/200 and 450/300.
The water heater is made up of a hot water tank, encased by a double jacket of sheet steel. The hot water tank is fitted with copper or enamel corrosion protection on the inside. see table.
The water heaters are designed and approved to meet current pressure vessel standards.
Due to the polyurethane foam insulation the water heater provi-des excellent thermal insulation.
Size 200/70 300/200 450/300
hot water tank capacity litres 205 300 450
Double-jacket tank volume litres 66 190 285
Net weight kg 150 208 285
height mm 1540 1725 1930
Width x Depth/Diameter mm 600 x 610 Ø 725 Ø 860
heat exchange (55/45–10/45°c) kW 8.2 10.0 14.5
heat content at 50 °c kWh 11.9 17.4 26.1
corresponding hot water amount (40°c) litres 260 370 550
maximum cartridge heater length mm 540 650 750
max. pressure in the double jacket mpa 0,25 0,3 0,25
max. pressure in hot water tank mpa 1 1 1
Technical data
If necessary VpA enables the use of an immersion heater for sensor controlled hot water heating.
The cold water supply line must be fitted with safety equipment in accordance with current standards.
If the water heaters are heated to more than 65°c, a mixing valve must be fitted. The highest permitted temperature is 100°c.
16
Accumulator tank optimally prepared for connection to heat pump
* cu = copper
RC
P
RC
P
89
117
56
91
91
78
35
43
88
85
44
44
4
44
6394
1
52
63
84
44
44
52
15
3649
19-1
19-2
52
49
118
6
5
35
85
VP1
RC
P
VP1
ESV 21
VP1
BK/JK
SÄVSÄV
EXP
NK
UG
AV SF
SF
FG
BV
RG2
FG2
AV
AV
AV
VXV
VVG
VXV
SV CPCP (VVC)
ESV 21
LEK
NIBE FIGhTEr 1140, VpAs 300/450
NIBE VPAS 300/450
NIBE VpAs is an accumulator tank that is primarily designed for connection to heat pumps in combination with solar panels.
NIBE VpAs consists of a hot water tank and a surrounding, double walled sheet steel jacket. The hot water tank is lined with copper or enamel to prevent corrosion. The insulation is polyurethane, which provides excellent heat insulation.
NIBE VpAs is equipped with immersion heater connections for the possibility of electrical addition and pocket tubes for temper-ature sensors to control water heating.
The insulation on NIBE VpAs can be removed, to facilitate work in confined spaces.
NIBE VpAs has four height adjustable feet.
AccUmUlATor TANk opTImAllY prEpArED For coNNEcTIoN To hEAT pUmp IN comBINATIoN WITh solAr pANEls
Accumulator tank optimally prepared for connection to heat pump in combination with solar panels
LEK
The diameter of the product without insulation is 770 mm.
corrosion protection copper
Volume, hot water heater l 300
Volume, double-shelled l 450
Net weight kg 315
height (excl. feet 20–55 mm) mm 2015 2015
required ceiling height mm 2120
Diameter mm 860
* With an incoming temperature of 10°c and hot water usage of 12 l/min
Technical data
VPAS 300/450 CU
heat content at 50°c kWh 17,4
Equivalent amount of hot water (40°c)* l 370
max. immersion heater length mm 750
max. cut-off pressure in hot water tank bar 10
max. operating pressure in double jacket bar 3
highest permitted temperature °c 95
part No 087720
solar coil: Ø22 mm, length 9.4 m, surface 2.3 m2
17
* copper ** copper or enamel*** Without upper connection pipe
BUFFEr VEssEls For hEATING sYsTEms
UKVAs buffer vessels for heating systems NIBE offer the UkV 40, 100, 200, 300 and 500. The UkV can be used as normal buffer upstream or downstream or connected to the heat pump in order to avoid stop of circulation.
The UkV 40 is available with or without a spiral for connection to a heating device.
All UkV are designed for maximum 6 bar and 95 °c.
UkV 40 and 100 are wall hung.
UkV 40 is top, bottom and side connected.
UkV 100 has the connections on top and in the bottom.
UkV 200, 300 and 500 are side connected and floor standing.
Model 200/ 300/ 500
Volume litres 200/ 300 / 500
max operating pressure bar 6
Working temperature °c 16–95
Technical data
18
Bracket pack Flm 30part no. 089 304
External sensor with enclosure
LE
K
LE
K
Insulating tapeAluminium tape
Dirt filter r25, r32, r40
LEK
LEK
NIBE AB�
Utetemperatur givare�
Outdoor temperature sensor�
Aussentemperatur fühler�
Artikel 018764
Temperature sensor with plug contact
LEK
level vessel with safety valve
Contents of delivery (see page 6, 9 and 11)
LEK
LEK
LEK
overload protection EBV 200
22 28
22 28
compression joint
heat transfer paste
LEK
LEK
Isolated heat source connection pipes Anchoring clamps
connection hoses with seals
hot water control VsT 11Three-way valve with motor
Accessories
HAHN
LEK
LEK
LEK
GR
UN
DFO
STyp
eU
PS
25
- 6
01
30
P/N
:59
52
64
47
23
0V
-
HE
JS
AN
PC
;00
17
NIB
DK
50
Hz
IP
44
TF
1
10
Cla
ss
HM
ax. 1
0b
ar
2.5
uF
45
0.2
06
50
.30
90
0.4
0
1m(A
)P,
(W)
LEK
GR
UN
DFO
STyp
eU
PS
25
- 6
01
30
P/N
:59
52
64
47
23
0V
-
HE
JS
AN
PC
;00
17
NIB
DK
50
Hz
IP
44
TF
1
10
Cla
ss
HM
ax. 1
0b
ar
2.5
uF
45
0.2
06
50
.30
90
0.4
0
1m(A
)P,
(W)
Extra shunt EsV 20LEK
LEK
LEK
VsT 20
19
pipe set Flm 30/FIGhTEr 1240
copper/stainless: part no. 089 318
Enamel part no. 089 319
LE
K
room sensor rG 10
part no. 018 433
communication unit rcU 10 part no. 418 925
LEK
LEK
level monitor NV 10part no. 089 315
LEK
passive cooling module pkm
pkm 10 (intended for 5–8 kW)part no. 089 397
pkm 20 (intended for 10–17 kW)part no. 089 398
LEK
10
15 20
2530°C
room thermostat rT 10
part no. 418 366
Filling set kB r25/r32including insulation
part no. 089 368 (max 12 kW) part no. 089 971 (max 30 kW)
HAHN
LEK
LEK
pool 11 Art nr 089 435
Extra shunt EsV 21 Art nr 067 012
LEK
LEK
LEK
GR
UN
DFO
SType
UP
S25 -
60
130
P/N
:59526447
230V
-
HE
JS
AN
PC
;0017N
IBD
K50H
z
IP 44
TF
110
Cla
ss H
Max. 1
0bar
2.5
uF
45
0.2
065
0.3
090
0.4
0
1m(A
)P,
(W)
LEK
GR
UN
DFO
SType
UP
S25 -
60
130
P/N
:59526447
230V
-
HE
JS
AN
PC
;0017N
IBD
K50H
z
IP 44
TF
110
Cla
ss H
Max. 1
0bar
2.5
uF
45
0.2
065
0.3
090
0.4
0
1m(A
)P,
(W)
HAHN
LEK
LEK
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NIBE Energy systems limited is a subsidiary of NIBE heating with
its headquarters in markaryd in sweden. NIBE is one of Europe's
leading manufacturers in the domestic heating sector.
We supply homes with products that provide domestic hot water
and ensure a comfortable indoor climate. We offer high-tech
solutions for heating, ventilation, cooling and heat recovery that
reflect today's demand for sustainable construction.
MADE IN SWEDEN
NIBE Energy Systems LimitedUnit 3c, Broom Business park, Bridge Way
chesterfield, s41 9QGTel: 0845 095 1200. Fax: 0845 095 1201
www.nibe.co.uk
Authorised User No. 00476