MAIN FEATURES
All-in-one unit – significant savings on installation time and costs
Output up to 6 kW (B0W35)
Minimal space required – plant room of only 0.3 m2
BUILT TO PERFORM, DESIGNED TO LAST
Output up to 6 kW. Perfect for low-carbon & sustainable properties.
Unique compact design with minimal installation space (0.3 m2) required. Available in both left and right configurations.
SHW temperature up to 65 °C. Anti-legionella function activated by the compressor only.
Elevating Ventilation Standards
Product Specifications
| Model | Performance at B0W35 | P-Design | Thermal Loss of the Object Qz | Seasonal Energy Efficiency of Heating at a 35 °C Low Temperature Operation | Seasonal Energy Efficiency of Heating at a 55 °C Medium Temperature Operation | Maximum Heating & Hot Water Temperature | Order Number (According to Heating Circuit Control) | |||
|---|---|---|---|---|---|---|---|---|---|---|
| kW | kW | kW | SCOP | Class | SCOP | Class | °C | Regulation STANDARD (μPC) | Regulation PLUS (pCO5) | |
| AquaMaster Inverter P 17ICP | 1-6 | 4 | Up to 6 | 4.87 | A+++ | 3.76 | A++ | 75 / 65 | AQ17ICP-101R | AQ17ICP-111R |
Regulation STANDARD (μPC): Designed for single-circuit heating systems. No auxiliary heating circuit, 1-zone space temperature, 1 heating circuit.
Regulation PLUS (pCO5): Designed for multiple-circuit heating systems. 2 independent auxiliary heating circuits including mixing. 2-zone space temperature, up to 6 heating circuits.
How It Works
Ground-to-water heat pumps extract energy from the ground through a vertical or horizontal collector. Antifreeze circulates through the collector and absorbs heat from the ground. Thanks to the constant temperature of the ground, the heat pump has a stable energy source year-round. The heat extracted from the ground is then transferred to the building. The system achieves seasonal efficiency up to 5.5 times greater than that of a conventional electric boiler.
Heat pump control
References
