Based on Calculation and Analysis of the Influence of External Atmospheric Temperature on Air-conditioning System of Floating Nuclear Power Plant at Sea

Abstract

External atmospheric temperature is the design input of air-conditioning system of the floating nuclear power plant at sea, which affects the calculation of heat load and air supply volume of air conditioner. The typical cabin A of the floating nuclear power plant is selected. The external atmospheric temperature selection range is obtained by comparing different standard specifications and references. The single variable method is adopted, and the external atmospheric temperature is used as the variable factor. The calculation and comparison of the air volume and cooling capacity of the typical cabin A should be made. The analysis and calculation results show that the external atmospheric temperature has little influence on the air volume of the cabin A air conditioning system, and has a great influence on the cooling influence of the external atmospheric temperature on the air conditioning system of the floating nuclear power plant and the variation of the energy consumption are obtained, along with eth external atmosphere. With the increase of temperature, the energy consumption of air conditioning system increases almost linearly. From the perspective of economics, it is concluded that the increase of energy consumption of air conditioning system will reduce the economic benefits of floating nuclear power plants at sea.