Decentralised solution
Maximum flexibility

The use of multiple units makes the system extremely reliable and adaptable to a wide range of operating conditions.

Duct-free

The indoor climate systems inject supply air directly into the interior without requiring supply air and exhaust ducts. This is advantageous in terms of space requirements, hygiene and efficiency.

Patented air distribution

The Air-Injector ensures an optimal air distribution under fluctuating operating conditions and prevents draughts in the occupied area. It is suitable for mounting heights of 4 m to 25 m.

Precise control

The indoor climate units are regulated individually and controlled based on zones. The system flexibly adjusts to local requirements.

Decentralised solution

Maximum flexibility

The Hoval indoor climate system creates a comfortable climate in large interior areas while ­minimising energy consumption. Unlike centralised systems, it has a modular structure in which one system contains multiple and possibly different indoor climate units. This guarantees maximum adaptability and flexibility in all phases: planning, installation, operation and maintenance.

Resource-saving operation
Highly efficient air distribution reduces operating costs
Tailored solution for any large space
Delivered ready to plug in with integrated control components

Precise Control

Control and regulation systems developed specifically for decentralised systems reliably ensure optimal use of resources and in this way keep operating costs down. The indoor climate units are regulated individually and controlled based on zones. The system flexibly adjusts to local requirements.

Duct-free Hygiene

The indoor climate systems are installed on the ceiling or in the roof, distributed throughout the interior. They inject supply air directly into the interior without requiring supply air and exhaust ducts. This is advantageous in terms of space requirements, hygiene and efficiency.

Patented Air Distribution

Indoor climate systems from Hoval are masters in saving energy. They break down the temperature stratification in interiors, keeping heat loss through the roof to a minimum. Thanks to their high ventilation efficiency, less air needs to be circulated and treated, saving electrical power and reducing ventilation heat requirements.