Adsorptions chiller typ NAK

cooling with Silicagel and Water... ...and Waste heat utilization of 50°C   Cooling power of 50 to 430 kW   [operation principle] [construction] [function] [techn. data] [dimensions] The growing interest in the recovery of thermal energie in the lower temperature range (<100°) is leading to an increased search for possibilities to technically convert these demands. A common energy source in this respect is the waste heat from engines an production processes. It usually ranges between 60°C and 100°C and in most cases can only be utilized for heating purposes. The adsorption chiller described in the following, now offers a new possibility to economically utilize this energy on a large scale. The main application of this adsorption chiller is the production of cold water. The demand for the production of cold water for air conditioning or process cooling is apparent in many areas of domestic power suppliers or the industry. The following areas offer interesting applications: Administration offices, Hospitals, Hotels Printing factories Food Industry Chemical Industry Computer Centres Breweries Agriculture District Heating     Especially in the district heating area there is an intense search for possibilities to economically utilize this energy, particularly in the summer months. The adsorption chiller is the ideal partner in the district heating network. Heating with feeding temperatures in the summer months results in the desired high cooling capacity in the summer. Heating with return temperature in the winter results in a reduced cooling capacity. Another interesting energy source for the utilization of the adsorption chiller is the solar energy collector. Solar airconditioning is possible with adsorption chiller technology. Naturally, the highest chilling capacity required for air conditioning exists in the hot summer months. The combination of the adsorption chiller with solar collectors offers a technically simple and energy saving solution. The adsorption chiller offers an important alternative for the preparation of cold water in all mentioned areas. The ever increasing demands for energy saving and utilization of low temperature waste heat poten-tials are herewith equally satisfied.