Decentralized heat recovery ventilation systems are designed to extract stale air from the building and supply fresh air into the room, while recovering as much thermal energy as possible during the process. Thermal energy recovery is an essential component of these systems and plays a critical role in their overall performance.
Thermal energy recovery works by extracting heat from the stale air that is being exhausted from the building and using it to warm up the fresh air that is being brought in. This helps to reduce the energy needed to heat the fresh air, which leads to significant energy savings.
Thermal energy recovery is especially important in cold climates, where the cost of heating can be a major expense. By recovering heat from the stale air, these systems can help to reduce the amount of energy needed to heat the fresh air, which can lead to significant savings on heating costs.
Thermal energy recovery is also beneficial in hot climates, where the cost of cooling can be a major expense. By recovering heat from the stale air, these systems can help to reduce the amount of energy needed to cool the fresh air, which can lead to significant savings on cooling costs.
Decentralized ventilation systems with thermal energy recovery also help to maintain a more consistent indoor temperature, this can also lead to energy savings as it will reduce the need for heating and cooling.
In conclusion, thermal energy recovery is an essential component of decentralized heat recovery ventilation systems. It plays a critical role in their overall performance, helping to reduce energy costs, maintain a more consistent indoor temperature and improve indoor air quality. It is an essential feature to look for when considering a decentralized ventilation system.