VENTS iFan CELSIUS is a new intelligent solution for arranging efficient circulation of air streams and balanced distribution of heat among adjoining spaces as well as optimizing energy efficiency.
The spaces with a sustained presence of people require maintaining a comfortable temperature in the cold season. This task is normally handled by the central heating and backup heaters in flats whereas a chimney is a common heating choice for private residences.
In most any apartment block some residential spaces are heated for the dwellers' comfort, but heating utility spaces is such a waste of energy that many remain cold for economy reasons.
VENTS iFan CELSIUS fans offers an effective solution to this dilemma! Due to an intelligent air temperature control according to the feedback from a temperature sensor VENTS iFan CELSIUS fans switch on automatically and deliver warm air to the adjoining unheated spaces. The temperature threshold is user-definable in the range from 18 to 36 0C. Such a solution combines the benefits of air circulation in the heated space with raising the air temperature in the adjoining space which is heated to a lower temperature or unheated at all.
VENTS iFan CELSIUS is equipped with an intelligent automatic control unit and has an activation/deactivation delay control, permanent and intermittent air supply modes as well as the pause mode for a user-controlled interruption. The fan is programmed to proactively respond to temperature increases delivering up to 83 m3/h in the SILENT mode and up to 133 m3/h in the Max mode. The fan setup and temperature threshold adjustments are made via a convenient multi-function control panel whereas the VENTS iFan CELSIUS fan operation is controlled by means of a remote control. A purpose-designed impeller helps reduce the noise generated by the fan to a bare minimum. The fan is supplied with two interchangeable spigots to integrate VENTS iFan CELSIUS into Ø100 and Ø125 mm air ducts.
VENTS iFan CELSIUS represents an excellent energy-saving solution for maximising the effective utilisation of the warm air in a building space to increase the air temperature in the adjoining one without incurring extra heating costs.
