Ecology Properties

Stone radiators Cinier: Environmentally-friendly materials. Heaters Cinier (Shinyo) are made from natural stone pereneyskogo. Close to cast iron on the characteristics of thermal inertia, this stone has excellent properties of heat transfer, uniform heat radiating. Radiators, stone Cinier: Energy-saving technologies. Due to the large surface area radiators Cinier, stone cover OLYCALE allows for heating Low coolant temperature with the optimum energy consumption. The electronic control with an accuracy of one degree can minimize power consumption and automatically responds to your need heat. CINIER: Technical skills and exceptional comfort Shinyo produces both water and electric stone radiators. Heating radiator shell, made by the standards of the customer, made of brass – the most 'Noble' and effective in terms of thermal conductivity of the material.

The heating body electrical appliances made of a special heating wire of high strength with double insulation. Due to the mild radiation hard cover radiators OLYCALE and quality of housing heating, radiators cinier provide exceptional comfort heating, not desiccate the air and almost silent in rabote.Vse raw materials are selected from concern for the environment and handled with the highest care to our studios in France. The quality of our equipment is tested and guaranteed. To offer exceptional comfort with exceptional comfort the use of stone radiators Shinyo (cinier), each radiator is individually designed. Production technology involves three basic properties: heat the stone Olycale effect of heat flux reduction of energy consumption thanks to "intelligent" control system and a large heating surface. Economy and Ecology Properties Olycale stone in combination with their large surface area radiators Shinyo (cinier) reduces power consumption and increases heat. The ability to precisely control to reduce energy consumption. The low temperature of large surface radiators, stone Cinier and precise adjustment of their work make it possible to heat at low temperature without the formation of air currents (completely inaudible). The heat transfer at low temperature prevents convection (heat loss from the cause), thereby not rising dust, and indoor maintained humidity, which improves the quality of the atmosphere of the room.