AIR2AIR Heat Recovery Solutions
Commercial buildings of all types have become increasingly well insulated to maximise energy efficiency. This makes them more cost effective to heat and run. However, it can have a negative effect on the indoor air quality. Good ventilation is essential to prevent this, but if it is not carefully controlled, it can lead to heat loss and increased energy consumption. Biddle’s proven ventilation system with heat recovery pre-heats clean, fresh air as it enters the building using the energy/warmth from the air that is vented out. As a result, it is not only highly energy efficient, but also very cost effective.
Fully compliant with the latest UK and European legislation, the Biddle system can reduce CO2 emissions associated with heating and ventilation by more than 90%
Features & benefits
• Fits into very compact spaces
• Can be recessed or fitted below the ceiling
• High-performance stepless EC fans
• Low installation height (minimum 2.7m to underside of unit)
• Easy to clean and replace components
• Plug & play site wiring
• Easy to install
Heat Recovery Technology
The Biddle Air2Air Heat Recovery Unit improves air quality and reduces energy consumption using counterflow heat recovery technology.
Waste heat is extracted from warm, polluted air as it leaves the building and transferred to cool fresh air as it flows in.
Operating Modes
- Full heat recovery
- Recirculation
- Night and free cooling
- Summer by-pass
- CO2 control
The Biddle system improves air quality and reduces energy consumption using counterflow heat recovery technology. Waste heat is extracted from warm, polluted air as it leaves the building and transferred to cool fresh air as it flows in. The unit can work in isolation or in combination with the Building Management System Controller, or BMS system on site to automatically adjust the fan speed to maintain optimum air quality, based on data from CO2 sensors located within the building. With an air-to-air heat exchanger recovery efficiency rates of up 90% can be achieved.