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VMC for the Tertiary Sector

 

The tertiary sector includes all those places characterized by a high influx of people, such as gyms, schools, or shopping centers. In these environments, ensuring a favorable indoor climate is essential for well-being and the proper conduct of daily activities. To achieve this goal, it is crucial to have a high-performance system capable of meeting the constant need for air exchange.

Our mechanical ventilation solutions for the tertiary sector are available in different variants in terms of airflow capacity, unit placement, and air duct connection configuration. Additionally, they help optimize consumption while always ensuring maximum system efficiency.

These technologies allow for the extraction of stale air from the environment and the recovery of heat, which is transferred to the air taken from outside. The process enables the introduction of air free from pollutants, at a temperature very close to that of the indoor environment, without compromising comfort.

For very crowded environments that require large volumes of air, units from the HR 90 series represent an ideal choice. These models can handle airflow rates ranging from 500 to 8000 m³/h and, in high-density settings, are particularly effective during the winter months. Not only do they ensure air circulation, but they also help reduce humidity levels.

The mechanical ventilation units are available in 8 versions, which include as standard:

  • Easy 3E or Smart EB panel
  • Counterflow heat exchanger made of aluminum with efficiency above 90%
  • EC centrifugal fans
  • Filter pressure switch (only with Smart EB electronics)
  • ISO and PM ePM1 filters (F7) on the supply and ISO ePM10 (M5) filters on the air return
  • Bypass for free cooling.

For models intended for outdoor installation, a protective hood and an IP55 electrical panel are provided.

To make the most of the mechanical ventilation unit features and optimize their performance, accessories can be added to heat the air taken from outside or introduced into the environment. Water batteries, in particular, are installed in the supply ducts to integrate heating and/or cooling power. Electric resistances, on the other hand, placed in the external air intake duct, protect the system from the risk of freezing.