Dimplex LA 0712C Air to Water Heat Pump Instruction Manual

Glen
Dimplex
Deutschland
LA 0712C

Installation and
Operating Instruction
Air-to-Water
Heat Pump for
Outdoor Installation

Safety notes

1.1 Symbols and markings
Particularly important information in these instructions is marked with CAUTION! and NOTE.
CAUTION!
Immediate danger to life or danger of severe personal injury or significant damage to property.
NOTE Risk of damage to property or minor personal injury or important information with no further risk of personal injury or damage to property.
1.2 Intended use
This device is only intended for use as specified by the manufacturer. Any other use beyond that intended by the manufacturer is prohibited. This requires the user to abide by the relevant project planning documents. Please refrain from tampering with or altering the device.
1.3 Legal regulations and guidelines
This heat pump is designed for use in a domestic environment according to Article 1, Paragraph 2 k) of EU directive 2006/42/ EC (machinery directive) and is thus subject to the requirements of EU directive 2014/35/EU (low- voltage directive). It is thus also intended for use by non-professionals for heating shops, offices and other similar working environments, agricultural establishments and hotels, guesthouses and other residential buildings. The construction and design of the heat pump complies with all relevant EU directives, DIN/VDE regulations (see CE declaration of conformity). When connecting the heat pump to the power supply, the relevant VDE, EN and IEC standards are to be adhered to. Any further connection requirements stipulated by the mains supply network operator must also be observed. When connecting the heating system, all applicable regulations must also be adhered to. This unit can be used by children aged 8 and over and by persons with limited physical, sensory or mental aptitude or lack of experience and/or knowledge, providing they are supervised or have been instructed in the safe use of the unit and understand the associated potential dangers. Children must not play with the device. Cleaning and user maintenance must not be carried out by children without supervision.
CAUTION! !! When operating or maintaining a heat pump, the legal requirements of the country where the heat pump is operated apply. Depending on the refrigerant fill quantity, the heat pump must be inspected for leaks at regular intervals by a certified technician, and these inspections must be recorded. More information can be found in the accompanying log book.
1.4 Energy-efficient use of the heat pump
By operating this heat pump, you are helping to protect the environment. A prerequisite for energy-efficient operation is the correct design of the heat source system and heating system. It is particularly important for the efficiency of a heat pump to keep the temperature difference between heating water and heat source as small as possible. For this reason, it is advisable to design the heat source and heating system very carefully. A temperaturedifference of approximately one Kelvin (1 °C) increases the power consumption by around 2.5 %. When designing the heating system, it should be borne in mind that special consumers such as domestic hot water preparation should also be taken into consideration and dimensioned for low temperatures. Underfloor heating systems (panel heating) are optimally suited for heat pump use on account of the low flow temperatures (30 °C to 40 °C). It is important to ensure that the heat exchangers are not contaminated during operation, as this increases the temperature difference, which in turn reduces the COP. When set correctly, the heat pump manager is also an essential factor in the energy-efficient use of the heat pump. Further information can be found in the heat pump manager operating instructions.

Intended use of the heat pump

2.1 Area of application The air-to-water heat pump is to be used exclusively for the heating and cooling of heating water. It can be used in new or already-existing heating systems.
The heat pump is suitable for mono energy and bivalent operation. During continuous operation, proper defrosting of the evaporator must be guaranteed by maintaining a heating water return temperature of more than 18 °C.
The heat pump is not designed for the increased heat consumption required when a building is being dried out. For this reason, the additional heat consumption should be met using special devices provided by the customer.
For drying out a building in autumn or winter, it is advisable to install a second heat generator (e.g. an electric heating element available as an accessory).
NOTE The device is not suitable for operation with a frequency converter.
2.2 Operating principle
Heating
Surrounding air is drawn in by the fan and fed through the evaporator (heat exchanger). The evaporator cools the air, i.e. extracts heat from it. This extracted heat is then transferred to the working medium (refrigerant) in the evaporator. The heat is brought to a higher temperature level by increasing its pressure with the aid of an electrically driven compressor. It is then transferred to the heating water via the liquefier (heat exchanger). Electrical energy is used to raise the temperature of the heat from the environment to a higher level. Because the energy extracted from the air is transferred to the heating water, this type of device is referred to as an air-to-water heat pump. The main components of an air-to-water heat pump are the evaporator, fan and expansion valve, as well as the low-noise compressor, liquefier and the electrical control system. At low ambient temperatures, humidity accumulates on the evaporator in the form of frost, reducing the transfer of heat. Uneven accumulation during this process does not indicate a fault. The evaporator is defrosted automatically by the heat pump as required. Under certain atmospheric conditions, steam may be emitted from the air outlet.
Cooling
The functions of the evaporator and the liquefier are reversed in the “Cooling” operating mode. The heating water transfers its heat to the refrigerant via the liquefier, which is now functioning as an evaporator. The refrigerant is brought to a higher temperature level using the compressor. Heat is transferred to the surrounding air via the liquefier (which, in heating operation, functions as an evaporator).

Scope of supply

3.1 Basic device with switch box
The heat pump contains the components listed below. The refrigeration circuit is “hermetically sealed” and contains the fluorinated refrigerant R410A included in the Kyoto protocol. Information on the GWP value and CO2 equivalent of the refrigerant can be found in the chapter Device information. The refrigerant is CFC-free, non-ozone depleting and non-combustible.

1. Fan
2. Liquefier
3. Compressor
4. Evaporator
5.  Expansion valve
6. Filter dryer
7.  Switch box
8. Dirt trap

3.2 Switch box
Power contactors, a soft starter unit and the extended controller unit are located in the switch box. It monitors and controls all heat pump signals and communicates with the heat pump manager. Communication and control or mains cables, which are to be routed apart from each other, are fed through the cable gland area on the baseplate. The connecting terminals can be accessed directly by removing the side cover.
3.3 Heat pump manager
Use the heat pump manager included in the scope of supply to operate the air- to-water heat pump.
The heat pump manager is a convenient electronic regulation and control device. It controls and monitors the entire heating system based on the outdoor or room- temperature, as well as domestic hot water preparation and safety systems.
The sensor for outside temperature to be mounted on-site incl. fixing materials is included with the heat pump and heat pump  manager unit.
The enclosed operating instructions describe the function and use of the heat pump manager.

Accessories

4.1 Remote control
A remote display adds convenience and is available as a special accessory.
Operation and menu navigation are identical to those of the heat pump manager.
Connection takes place via an interface (special accessories) with RJ 12 Western plug.
NOTE In the case of heating controllers with a removable control panel, this can also be used directly as a remote display.
4.2 Building management system
The heat pump manager can be connected to a building management system network via supplementation of the relevant interface plug-in card. The supplementary installation instructions of the interface card must be consulted regarding the exact connection and parameterisation of the interface. The following network connections can be made on the heat pump manager:
 Modbus
 EIB, KNX
 Ethernet.

Transport

CAUTION!
When transporting the heat pump, ensure that it is not tilted by more than 45° (in any direction).
A pallet should be used to transport the heat pump to its final installation location. The basic device can be transported with a lift truck, hand truck or by means of 3/4″ pipes fed through the holes in the baseplate or frame.The heat pump and the transport pallet are joined by four transit bolts. These must be removed. Before using the transport holes in the frame, it is necessary to remove the two side panel assemblies. Each covering panel is secured with two screws. After the screws are loosened, the panels must be tilted and pulled out of the kickplate.

The top fan panel, which does not have to be removed for transportation, can be hung out of the cover panel. Rehang the panel by gently pushing it in an upwards direction.
NOTE
Be careful not to damage any components when inserting the pipes through the frame.
All black dust caps must be snapped back into the transport holes at the installation location.
After transportation, the transport fastening in the device is to be removed from both sides of the base.

CAUTION!
Before commissioning, the transport fastening must be removed.

Installation

6.1 General
The device must be installed on a permanently level, smooth and horizontal surface. The frame around the device must lie tightly against the floor to guarantee adequate sound insulation, to prevent water-bearing parts from cooling out and to protect the inside of the device from small animals. If this is not the case, additional insulation measures may be necessary. To prevent small animals from entering the inside of the device, it may be necessary to seal the connection hole in the base plate, for example. Furthermore, the heat pump should be set up so that the air outlet direction of the fan is perpendicular to the main wind direction to allow unrestricted defrosting of the evaporator. The heat pump is designed for installation on even ground. In the case of different conditions (e.g.: installation on a platform or flat roof) or there is a greater risk of the heat pump tipping over (due to an exposed position or high wind exposure), additional protection against tipping over must be provided. The responsibility for the heat pump installation lies with the specialist system construction company. During the installation, local requirements such as building regulations, static load of the building, and wind exposure must be accounted for. It must be possible to carry out maintenance work without hindrance. This is ensured when observing the distances to solid walls as shown in the figure.

The specified dimensions are valid for stand-alone installation only.
CAUTION!
Do not restrict or block the area around the air intake or outlet area.
CAUTION!
Observe country-specific building regulations!
CAUTION!
The physical impacts must be observed for installation close to walls. No windows or doors should be present in the area surrounding the air outlet of the fan.
CAUTION!
In cases of installation close to a wall, there may be more sediment in the air inlet and outlet areas due to the air current.
The colder outside air outlet should discharge in such a way as to not increase the heat losses in heated neighbouring rooms.
CAUTION!
Installation in a hollow or in an inner courtyard is not permitted because cooled air collects at ground level and is  drawn in again by the heat pump during extended periods of operation.
6.2 Condensate pipe
Condensed water that forms during operation must be drained off frost free. To ensure proper drainage, the heat pump must be mounted horizontally. The condensate pipe must have a minimum diameter of 50 mm and must be fed into a sewer in such a way that it is safe from frost. Do not discharge the condensate directly into clearing tanks or cess pits. The aggressive vapours and a condensate pipe laid in an area which is not frost-free can destroy the evaporator.

CAUTION!
The frost line can vary according to the climatic region. The regulations of the countries in question must be observed.

Assembly

7.1 General
The following connections need to be established on the heat pump:

• Flow and return of the heating system
• Condensate drain
• Control cable to the heat pump manager
• Power supply
  To access the inside of the device, all side panel assemblies can be removed as described in Cap. 5 on pag. 5.

7.2 Connection on heating side
The heating system connections on the heat pump are to be made inside the device. Refer to the device information for the connection sizes. The connection hoses are routed out of the device in a downwards direction. A Wellflex hose set is available as an accessory for this. Side openings in the frame also enable lines to be routed at the side. A spanner must be used to firmly grip the transitions when connecting the heat pump. Before connecting the heating water system to the heat pump, the heating system must be flushed to remove any impurities, residue from sealants, etc. Any accumulation of deposits in the liquefier may cause the heat pump to completely break down. Once the heat pump has been connected to the heating system, it must be filled, purged and pressure-tested. The following points must be observed when filling the system:

• Untreated filling water and make-up water must be of drinking water quality (colourless, clear, free of sediments)
• Filling water and make-up water must be pre-filtered (max. pore size 5 µm). Scale formation in domestic hot water heating systems cannot be avoided, but in systems with flow temperatures below 60 °C, the problem can be disregarded.

With high-temperature heat pumps and in particular with bivalent systems in the higher performance range (heat pump + boiler combination), flow temperatures of 60 °C and more can be achieved. The following standard values should therefore be adhered to with regard to the filling and make-up water according to VDI 2035, sheet 1: The total hardness values can be found in the table.

Total heat output in kW| Total alkaline earths in mol/m3 and/or mmo1/1| Specific (VD!| system volume 2035) in 1/kW
---|---|---|---
< 20| < 20 < 50| < 50
Total hardness in °dH
<50| <_2.0| <_16.8| <_11.2| < 0.111
50 – 200| <_2.0| <_11.2| <_8.4
200 – 600| __ 1.5| 8.| < 0.111

600| < 0.02| < 0.111

1. This value lies outside the permissible value for heat exchangers in heat pumps.
   Fig. 7.1:Guideline values for filling and make-up water in accordance with VDI 2035
   For systems with an above-average specific system volume of 50 l/kW, VDI 2035 recommends using fully demineralized water and a pH stabiliser to minimize the risk of corrosion in the heat pump and the heating system.

NOTE
With fully demineralized water, it is important to ensure that the minimum permissible pH value of 7.5 (minimum permissible value for copper) is complied with. Failure to comply with this value can result in the heat pump being destroyed.
CAUTION!
The notes/settings in the instructions of the heat pump manager must always be observed and carried out accordingly; not doing so will lead to malfunctions.
Minimum heating water flow rate The minimum heating water flow rate through the heat pump must be assured in all operating states of the heating system.
This can be accomplished, for example, by installing a dual differential pressureless manifoldeiner.
If the minimum heating water flow rate is not reached, the heat pump is blocked.
The nominal flow rate is specified depending on the max. flow temperature in the device information and must be taken into account during planning.
For return temperatures under 30 °C, the flow must be designed for the nominal conditions.
The specified nominal flow rate (See “Device information” on page 14) must be guaranteed in every operating status.
An installed flow rate monitoring sensor is used only for switching off the heat pump in the event of an unusual and abrupt drop below the minimum heating water flow rate and not for monitoring and safeguarding the nominal flow rate.
Frost protection
On heat pump systems where protection from frost cannot be guaranteed, there must be an option for draining the system (see figure).
The frost protection function of the heat pump manager is active whenever the heat pump manager and the heat circulating pump are ready for operation.
When decommissioning the heat pump, or in the event of a power failure, the system must be drained through the indicated points (see illustration); it may be necessary to purge the system with compressed air.
If heat pump systems are implemented in buildings where a power failure cannot be detected (holiday homes etc.), the heating circuit should be operated with suitable frost protection.

7.3 Electrical connection
3 lines/cables must be routed to the heat pump in total:

• A standard 5-core cable is used to connect the heat pump to the power supply. The cable must be provided on-site. The conductor cross section is selected in accordance with the power consumption of the heat pump (see attachment Device Information) and the applicable VDE (EN) and VNB regulations. An all-pole disconnecting device with a contact gap of at least 3 mm (e.g. utility blocking contactor or power contactor) must be installed in the heat pump power supply. A 3-pole circuit breaker with joint tripping of all outer conductors (trip current in accordance with device information) provides the short circuit protection taking into account the layout of the internal wiring. The relevant components in the heat pump contain an internal overload protection. When connecting, ensure that the incoming supply has a clockwise rotating field. Phase sequence: L1, L2, L3.

CAUTION!
Ensure that there is a clockwise rotating field: With incorrect wiring the starting of the heat pump is prevented. A
corresponding warning is indicated on the display of the heat pump manager (adjust wiring).

• The control voltage is supplied via the heat pump manager.
  A 3-pole line must be laid for this in accordance with the electrical documentation. Further information on the wiring of the heat pump manager is available in the heat pump manager operating instructions.

• A shielded communication line(J-Y(ST)Y ..LG) (not included in the scope of supply) connects the heat pump manager with the µPC2 installed in the heat pump. More detailed instructions can be found in the heat pump manager operating instructions and in the electrical documentation.

NOTE
The communication cable is necessary for the function of airto-water heat pumps in outdoor installation. It must be shielded and laid separately from the mains cable.
7.3.1 Demand sensor connection
The demand sensor R2.2 (NTC 10) is included with the heat pump manager. It must be installed depending on the hydraulics used (see
Appendix Chapter 3 on p. VII).
If a demand sensor is not connected, the second heat generator can not be controlled with the heat pump manager in the event of an interruption in communication either.
NOTE
The return sensor R2 installed in the heat pump is active when the compressor is running and must not be disconnected.

Commissioning

8.1 General
To ensure that commissioning is performed correctly, it should only be carried out by an after-sales service technician authorised by the manufacturer.
This may be a condition for an additional warranty (see “Warranty service”).
8.2 Preparation
The following items must be checked prior to commissioning:

• All of the heat pump connections must be installed as described in Chapter 7.
• All valves which could impair the proper flow of the heating water in the heating circuit must be open.
• The air intake and air outlet paths must be clear.
• The fan must turn in the direction indicated by the arrow.
• The settings of the heat pump manager must be adapted to the heating system in accordance with the latter’s operating instructions.
• Ensure that the condensate drain functions properly.

8.3 Procedure
The heat pump is commissioned via the heat pump manager. Settings should be made in compliance with the HPM’s instructions. At heating water temperatures below 7 °C, commissioning is not possible.
The water in the buffer tank must be heated with the second heat generator to at least 18 °C. To ensure problem-free commissioning, the following procedure is to be implemented:

1. Close all consumer circuits.
2. Ensure that the heat pump has the correct water flow.
3. Use the manager to select the automatic operating mode.
4. In the special functions menu, start the “Commissioning” program.
5. Wait until a return temperature of at least 25 °C has been reached.
6. Now slowly reopen the heating circuit valves in succession so that the heating water flow rate is constantly raised by slightly opening the respective heating circuit. The heating water temperature in the buffer tank must not be allowed to drop below 20 °C during this process. This en- sures that the heat pump can be defrosted at any time.
7. When all heating circuits are fully open and a return temperature of at least 18 °C is maintained, the commissioning is complete.

CAUTION!
Operating the heat pump at low system temperatures may cause the heat pump to break down completely.

Cleaning / maintenance

9.1 Maintenance
To protect the paintwork, avoid leaning anything against the device or putting objects on the device. External heat pump parts can be wiped with a damp cloth and commercially available domestic cleaner.
NOTE
Never use cleaning agents containing sand, soda, acid or chloride, as these can damage the surfaces.
To prevent faults due to sediment in the heat exchanger of the heat pump, ensure that the heat exchanger in the heating system cannot be contaminated.
Should operating malfunctions due to contamination still occur, however, the system should be cleaned as described below.
9.2 Cleaning the heating system
The ingress of oxygen into the heating water circuit may result in the formation of oxidation products (rust), particularly if steel components are used. These enter the heating system via the valves, the circulating pumps and/or plastic pipes. A diffusionresistant installation is therefore essential, especially with regard to the complete piping.
NOTE
We recommend the installation of a suitable corrosion protection system to prevent the formation of deposits (e.g. rust) in the condenser of the heat pump. We recommend equipping diffusion-open heating systems with an electrophysical anti-corrosion system (e.g. ELYSATOR system). Residue from lubricants and sealants may also contaminate the heating water. In the event of severe contamination leading to a reduction in the performance of the liquefier in the heat pump, the system must be cleaned by a heating technician. Based on current information, we recommend using a 5% phosphoric acid solution for cleaning purposes. However, if cleaning needs to be performed more frequently, a 5% formic acid solution should be used. In both cases, the cleaning fluid should be at room temperature. We recommend flushing the heat exchanger in the direc- tion opposite to the normal flow direction. To prevent acidic cleaning agents from entering the heating system circuit, we recommend connecting the flushing device directly to the flow and return of the liquefier of the heat pump. It is then important that the system be thoroughly flushed using appropriate neutralising agents to prevent any damage from being caused by cleaning agent residue remaining in the system. Acids must be used with care and the regulations of the employers liability insurance associations must be adhered to. The instructions of the cleaning agent manufacturer must always be observed.
9.3 Cleaning the air system
The evaporator, fan and condensate drain should be cleaned of contamination (leaves, twigs, etc.) before each new heating period. Do this by opening the heat pump as described in Chapter 7.1.
CAUTION! !! Before opening the device, ensure that all circuits are disconnected from the power supply! To prevent the evaporator and the condensate tray from being damaged, do not use hard or sharp objects when cleaning. Under extreme weather conditions (e.g. snow drifts), ice may form on the air intake and air outlet grids. If this happens, the ice must be removed from the vicinity of the air intake and air outlet grids to ensure that the minimum air flow is maintained. To ensure proper drainage from the condensate tray, it must be regularly inspected and cleaned, if necessary.

Faults / troubleshooting

This heat pump is a quality product and is designed for troublefree operation. Should a fault occur, however, it will be indi- cated on the heat pump manager display. In this case, consult the “Faults and troubleshooting” page in the operating instructions of the heat pump manager. If you cannot correct the fault yourself, please contact your after-sales service technician.
CAUTION!
Before opening the device, ensure that all circuits are disconnected from the power supply!
After disconnecting the power supply, always wait for at least 5 minutes to allow stored electric charges to dissipate.
CAUTION!
Work on the heat pump must only be performed by authorised and qualified after-sales service technicians!

Decommissioning / disposal

Before removing the heat pump, disconnect it from the power source and close all valves. The heat pump must be dismantled by trained personnel. Observe all environmental requirements regarding the recovery, recycling and disposal of materials and
components in accordance with all applicable standards. Particular attention should be paid to the proper disposal of refrigerants and refrigerant oils.

Device information

Nominal flow I’ accordance with EN 14511
at A7 / W35-.30| nwh/ Pa| 19 / 11800
at Ali W45.-40| mini / Pa| 1.8 / 16800
atA7 /W55.-47| in,/h / Pa| 1.2 ‘./ 6100
4.2 Mininum heating water flow rate| mgh / Pa| 1.4 / 10030
4.3 Goofing water flow rate / internal cressisedifferennal| |
Nominal flow in accordancewith EN 14511
A35 / W18-.23| mgh / Pa| IA / 10000
Minimum cooling water flow rate| rn,/h / Pa| 1.4 / 10000
4.4 Sound power level according to Ell 12102 4
Normal operation / reduced operations| 481A1| 58 tss1° / fil ISE/ °
4.5 Sound pressure level at a distance of 10 m (outlet sloe)’
/Sonnet operation / reduced operation’| 4134A)| 30130)6/ 2812?) 6
4.6 Air now
Normal operation / reduced operation 6| m•/h| 4100/3600
5 Dimensions. weight and filling quantities| |
5.1 [‘tyke dimensions wkhout connections| HxWxLmm| 1650 x910 a ISO
5.2 Device cancel:ens or heating| inches| G I 1/4′ AG
5.3 Weight of the transportabk midst incl. packaging| kg| 265
5.4 Refilgteram / total filing weight| type/kg| 8410A / 478
5.5 GWP wake / GO, equivalent| | 2088 / 9
5.6 Refdperation chart henneticaly sealed| | Yes
5.7 Lubricant / total filing Quantity| tyPefiltres| Petyotater IPOE) /1.2
5.8 Volume of heating water in device| titres| 4.
6 Electrical connection| |
6.1 Supply vohape / fusing / RCD type| | 3-/N/Pe 400 V150144/ C10 A / A
6.2 Control voltage / fusing by WPM| | 1-INIPE 230 V (93144) / s 63 Al
6.3 Degree of protection accenting to EN 60529| | Oa 24
6.4 Startg current Waiter| | Soft street
6.5 Rotary field modtaing| | yes
6.6 Surtkg current with soft starter| A| 19
6.7 Nominal power consumption A2/W35 /
max. power consumption’| kW| 2.38 / 4.0
6.8 Nominal cwrent A2 /V/35 /cos.:| | 43 / 0.8
6.9 Power consumption of compressor *election
(Per compressor)| W| 70 / thermostatically
ccntreded
6.10 Power consumption of fan| W| , 200
I Complies with the European safety regulations| |

1. For air temperatures between -22 °C and -5 °C, flow temperature increasing from 45 °C to 60 °C.
2. These data indicate the size and capacity of the system according to EN 14511. For an analysis of the economic and energy efficiency of the system, other parameters, in particular the defrosting capacity and regulation, should also be taken into consideration. These figures are only achieved with clean heat exchangers. Instructions for care, commissioning and operation can be found in the relevant sections of the installation and operation instructions. The specified values have the following meaning, e.g. A7/ W35: outside air temperature 7 °C and heating water flow temperature 35 °C.
3. Standard nominal flow only possible with an electronically controlled circulating pump with actuation via heat pump manager.
4. Tonal component according to DIN 45681 Table 1 is 1 dB
5. The heat output and COP is reduced by approx. 5 % in lower operation.
6. When using the optional weather protection hood (accessory), the sound level is reduced to the specified values.
7. The specified sound pressure level represents the free sound area level. The measured value can deviate by up to 16 dB(A). depending on the installation location.
8. See CE declaration of conformity
9. The heat circulating pump and the heat pump manager must always be ready for operation.
10. The coefficient of performance (COP) in partial load operation can be increased by selecting “energy-optimised heating operation” (natural defrosting)
11. The maximum sound power level under full load can increase by up to 5 dB(A).

Product information as per Regulation (EU) No 813/ 2013, Annex II, Table

2

Information requirements for heat pump space heaters and heat pump combination heaters

Model| LA 0712C
Air-to-water heat pump| yes
Water-to-water heat pump| no
Brine-to-water heat pump| no
Low-temperature heat pump| no
Equipped with a supplementary heater| no
Heat pump combination heater| no

Parameters shall be declared for medium-temperature application, except for low-temperature heat pumps. For low- temperature heat pumps, parameters shall be declared for low-temperature application.
Parameters shall be declared for average climate conditions:

Dimension Drawing

1.1 Dimension Drawing

Diagrams

2.1 Characteristic curve for heating operation

2.2  Characteristic curve for cooling operation

2.3 Operating limits diagram heating

2.4 Operating limits diagram cooling

Integration diagrams

Mono energy system with two heating circuits and domestic hot water preparation

3.2 Legend

| Shutoff valve
---|---
| Safety valve combination
| Circulating pump
| Expansion vessel
| Room temperature-controlled valve
| Shutoff valve with check valve
| Shutoff valve with drainage
| Heat consumer
| Temperature sensor
| Flexible connection hose
| Check valve
| Three-way mixer
| Dirt trap

1.1 Air-to-water heat pump
2 Heat pump manager
3 Buffer tank connected in series
4 Hot water cylinder

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4  Declaration of Conformity
You can find and download the current CE conformity declaration at: https://glendimplex.de/la0712c
www.glendimplex.de
452168.66.30 · FD 0210

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