Heat Recovery Ventilation: The Lifebreath HRV is designed to provide efficient and effective heat recovery ventilation for residential and commercial applications. It helps maintain indoor air quality by continuously exchanging stale indoor air with fresh outdoor air, while recovering and transferring heat energy between the two air streams.

Energy Recovery Core: This HRV features a high-performance energy recovery core that facilitates the transfer of heat between the outgoing stale air and incoming fresh air. The core is constructed with advanced materials that maximize heat transfer efficiency, minimizing heat loss in cold seasons and reducing energy consumption.

Airflow Capacity: The Lifebreath HRV is available in various airflow capacities, typically ranging from 50 to 200 cubic feet per minute (CFM). The specific airflow capacity can be selected based on the size and ventilation needs of the space.

Control Options: The HRV can be equipped with user-friendly control options, allowing homeowners to easily adjust ventilation settings, airflow levels, and other parameters to meet their specific comfort and ventilation requirements.

Quiet Operation: The Lifebreath HRV is designed with noise reduction features, ensuring quiet and unobtrusive operation. This makes it suitable for installation in residential spaces where low noise levels are desired.

Filtration System: The HRV is equipped with high-quality filters that help capture airborne particles, dust, pollen, and other contaminants, ensuring cleaner and healthier indoor air.

Durable Construction: The Lifebreath HRV is built with durable materials to ensure long-lasting performance. The unit is designed to withstand regular use and provides reliable ventilation for years to come.

Easy Installation and Maintenance: The HRV is designed for straightforward installation and maintenance. It includes clear installation instructions and accessible components for ease of service and filter replacement.

Energy Efficiency: Lifebreath HRVs are engineered to deliver high energy efficiency, reducing energy waste associated with ventilation while providing effective heat recovery. This contributes to lower energy costs and environmental sustainability.