Adatta Monoblocco Two-Pipe Heat Pumps
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COP 4,81
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PU 6,38 kW - PA 1,3 kW
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DHW 55°
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HEATING FLUID
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OPERATING TEMPERATURE RANGE -22°C / +45°C
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ENERGY CLASS
(refers to 8 kW version)
Documentation
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Energy Class
All versions of Adatta Monoblocco 2T are energy class A.
Available in 6 kW, 8 kW, 10 kW, 12 kW, 14 kW and 16 kW versions.
Two-pipe heat pump with system-side heat exchanger, able to produce hot or cold water to meet the building's heating or cooling requirements, depending on the season, and produce sanitary DHW.
Benefits
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Electronic expansion valve (suitable for all operating situations)
- Units with modular power output thanks to the inverter technology
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Climate management included with outdoor temperature sensor
- Larger heat-exchange surface
Energy Class
All versions of Adatta Monoblocco 2T are energy class A.
Components
- EC Fan
- Twin Rotary Compressor
- Finned pack with hydrophilic treatment
- Heat exchanger with larger rows, large heat-exchange surface
Where can it be installed?
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Suitable for new-build construction with high levels of energy efficiency
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Suitable for cold climates and high T production up to 50°
- Ideal where no mains gas supply is possible
- Suitable for applications with radiant systems, fancoils and air handler units
Summer operation
The summer operating modes are:
- Chiller mode
The unit only produces chilled water for the system. - Heat pump mode for production of sanitary domestic hot water
When there is no cold demand, and on demand from the DHW operation sensor, the unit will heat the water inside the DHW storage cylinder, using the finned pack as the evaporator. The use of hot outside air as the heat source ensures that very high COPs are obtained.
Winter operation
The winter operating modes are:
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Heat pump mode for heating: the unit produces hot water at the system-side heat exchanger for the heating.
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Heat pump mode for production of sanitary domestic hot water: high-temperature hot water is produced at the heat exchanger connected to the DHW storage cylinder.
Automatic seasonal regulation
Switching between modes occurs in a completely automatic manner according to a priority logic for the production of sanitary DHW.