SMARTCIM combines climatic comfort with energy savings

SMARTCIM combines climatic comfort with energy savings

The system uniformly distributes hot and cold, optimizing the resources used.

The quality of the comfort inside buildings is an added value that is difficult to measure in monetary terms but is immediately perceived by its occupants, since humans spend most of their time in enclosed spaces.

According to a study done by Danish researcher P.O. Fanger, qualitative well-being, intended as being the condition of mind where an individual expresses satisfaction towards an interior space, depends on the interaction of certain environmental and subjective variables.

Temperature, relative humidity, and velocity of the air are the parameters that most affect thermo-hygrometric comfort.
The purity of the indoor air, visual quality, sound level, metabolic rate related to the physical activity being done and the insulation of the clothes we wear are also factors that influence the feeling of well-being.

The sensation of thermal equilibrium is closely related to the heat that the human body exchanges with the surrounding environment by radiation. In order to make the temperature of an environment uniform, insulating materials that can conserve the thermal energy generated should be used and shielding systems to protect the solar radiation from coming through the windows should be adopted. This prevents the creation of uncomfortable areas.

It is equally important to intervene on the plant network: SMARTCIM optimizes room air conditioning because it automatically manages the heating and cooling in every area of the building.

The innovative thermal monitoring and modulation system developed by Cimberio, combines electronics with the sophisticated mechanics of brass valves, and provides a significant increase in well-being, in addition to considerable energy savings, which is achieved by optimizing the amount of circulating water.

In fact, the environments served by the smart valves achieve a pleasant thermal equilibrium without undergoing significant fluctuations, minimizing air flows and thus reducing fan noise (where present).

The system integrates easily with the plant components already in the buildings, It instantly communicates the data collected from its temperature probes and interprets this data in order to optimize the amount of thermal and electrical energy needed to maintain the level of comfort set by the individual user.

This is why an energy renewal and requalification project is not just a profitable investment. This strategy not only reduces the energy bill, but it also helps improve the health conditions and the pleasure of staying in the living areas.


Privacy Policy