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AHE-60W/D AHE-80W/D AHE-100W/D AHE-100WB1/D AHE-120WB1/D
In residential and commercial HVAC systems, energy recovery ventilation (ERV) facilitates the transfer of energy from the exhaust air to the incoming outdoor ventilation air. This enables the treatment of outdoor air by pre-cooling and dehumidifying it in the warmer seasons, and pre-heating and humidifying it in the cooler seasons. By incorporating energy recovery, buildings can comply with ASHRAE ventilation and energy standards, enhance indoor air quality, and reduce the total capacity required for HVAC equipment.
FAQ
What is static pressure in energy recovery ventilator?
Static pressure in an energy recovery ventilator (ERV) refers to the resistance or force that air encounters as it moves through the ventilation system. It is a measure of the pressure difference between the inlet and outlet sides of the ERV unit caused by various factors such as airflow resistance from filters, ductwork, dampers, and the heat exchanger.
In an ERV, static pressure is important because it affects the performance and efficiency of the system. The higher the static pressure, the harder the system has to work to move air through the ventilation system. This can result in increased energy consumption and reduced airflow.
To ensure proper operation and performance, ERV units are designed to operate within a specific range of static pressure. Manufacturers provide specifications that indicate the maximum static pressure the unit can handle. It is important to select an ERV with a suitable static pressure rating that matches the requirements of the specific application.
In summary, static pressure in an energy recovery ventilator refers to the resistance encountered by air as it flows through the system. It is an important parameter to consider when designing, selecting, and operating an ERV unit to ensure optimal performance and efficiency.
AHE-60W/D AHE-80W/D AHE-100W/D AHE-100WB1/D AHE-120WB1/D
In residential and commercial HVAC systems, energy recovery ventilation (ERV) facilitates the transfer of energy from the exhaust air to the incoming outdoor ventilation air. This enables the treatment of outdoor air by pre-cooling and dehumidifying it in the warmer seasons, and pre-heating and humidifying it in the cooler seasons. By incorporating energy recovery, buildings can comply with ASHRAE ventilation and energy standards, enhance indoor air quality, and reduce the total capacity required for HVAC equipment.
FAQ
What is static pressure in energy recovery ventilator?
Static pressure in an energy recovery ventilator (ERV) refers to the resistance or force that air encounters as it moves through the ventilation system. It is a measure of the pressure difference between the inlet and outlet sides of the ERV unit caused by various factors such as airflow resistance from filters, ductwork, dampers, and the heat exchanger.
In an ERV, static pressure is important because it affects the performance and efficiency of the system. The higher the static pressure, the harder the system has to work to move air through the ventilation system. This can result in increased energy consumption and reduced airflow.
To ensure proper operation and performance, ERV units are designed to operate within a specific range of static pressure. Manufacturers provide specifications that indicate the maximum static pressure the unit can handle. It is important to select an ERV with a suitable static pressure rating that matches the requirements of the specific application.
In summary, static pressure in an energy recovery ventilator refers to the resistance encountered by air as it flows through the system. It is an important parameter to consider when designing, selecting, and operating an ERV unit to ensure optimal performance and efficiency.
