Airwoods Energy Recovery Ventilator with Heat Pump as a Carbon-Efficient Solution for Residential Ventilation

According to recent research, heat pumps offer a significant reduction in carbon emissions compared to traditional gas boilers. For a typical four-bedroom home, a household heat pump generates just 250 kg CO₂e, while a conventional gas boiler in the same setting would emit over 3,500 kg CO₂e. The study demonstrates heat pumps' carbon-reducing capability while maintaining a comfortable indoor temperature above 20°C year-round with a consistent coefficient of performance (COP) above 4.2. Additionally, annual operational costs for heat pumps are around £750 ($980), approximately £250 ($330) lower than for conventional boilers.

Airwoods Energy Recovery Ventilator with Heat Pump combines heat pump and fresh air ventilation technology, enabling not only heating and hot water but also temperature-regulated airflow, dehumidification, and air purification. The system preconditions fresh air, helping to reduce overall heating and AC costs, and can act as an independent air conditioner under appropriate seasonal conditions. Equipped with EC fans and a DC inverter compressor, the system is optimized to minimize energy consumption, offering wide ambient working conditions from -15˚C to 50˚C. It also includes indoor air quality monitoring for CO₂, humidity, TVOCs, and PM2.5, enhancing comfort and air quality.

Key Product Design Features

• EC Fans: Energy-saving forward EC motors meet ERP2018 standards, with 10-speed 0-10V control, low noise, minimal vibration, and extended service life.
• Automatic Bypass: In warmer months, a 100% bypass increases comfort by regulating based on outdoor temperatures.
• Multiple Filters: Equipped with G4 and F8 filters; the G4 filter captures large particles, while the F8 filter offers over 95% PM2.5 filtration. Optional air disinfection filters are available.
• DC Inverter Compressor: The GMCC DC inverter compressor adjusts refrigerant flow for efficiency, operating between -15˚C and 50˚C and compatible with R32 and R410a refrigerants.

Seasonal Performance

• Summer: Fresh air is supplied at 23.5˚C DB/19.9˚C WB from initial DB/WB of 35˚C/28˚C.

• Winter: Air supply reaches 35.56˚C DB/17.87˚C WB from fresh air at 2˚C DB/1˚C WB.

Airwoods’ analysis of user experience and performance data underscores the Energy Recovery Ventilator with Heat Pump's efficiency, cost-effectiveness, and environmental impact. The company remains committed to expanding its product range in Europe and promoting global adoption of advanced fresh air heat pump technologies for sustainable living.