Airflow Developments has added Variable Air Volume (VAV) dampers to its Duplexvent range of commercial Mechanical Ventilation with Heat Recovery (MVHR) units.
The VAV systems constantly monitor the air volume supplied and share this information with the ventilation unit. This ensures optimum air quality and comfort by allowing the ventilation to respond effectively to the demands of each area of the building.
However, with many centralised MVHR systems the ventilation rate remains the same in each room regardless of changes in occupancy levels, temperature or humidity. This means that constant human intervention is needed to deliver the correct air flow at the required system pressure.
Variable Air Volume (VAV) dampers offer a solution because they control the flow of air to each zone of the building in response to changes in demand. This helps to maintain a consistently high quality indoor air environment. The VAV dampers fitted to the Duplexvent range constantly monitor the air volume passing through the system and send this information to the centralised ventilation unit.
The communication between each damper and the central unit allows the MVHR system to increase or decrease the flow rate quickly and efficiently based on the demand. When used in conjunction with humidity or CO2 sensors, these dampers can automatically adjust the ventilation based on the usage or occupancy of that room, independent of the other areas within the building. Airflow’s VAV system also provides the option of manual adjustment for applications where the user requires a level of control.
“Indoor air quality is increasingly being recognised as a key factor for health and wellbeing but the reality is that ventilation requirements can vary significantly across different areas of a building and at different times of the day,” said Krzysztof Kwarciak, Category Product Manager at Airflow Developments. “The latest development to our Duplexvent range, the VAV dampers system, ensure our MVHR units can respond swiftly and effectively to these changes in demand.”
For more information, visit www.airflow.com