Investigating the parameters affecting the selection of the construction site of the simultaneous production power plant (cchp).

Abstract

In this study, the parameters affecting the selection of the construction site of the simultaneous production power plant are examined. Determining parameters of the power plant construction site are: climatic conditions of the region, type of building use, permanent or temporary use of the building and the difference in temperature of the design inside and outside the building. The results of this study show that in hot and humid climates, the use of recycled energy from this power plant, in summer, to provide cooling for permanent buildings (such as hospitals) and in winter to cool refrigerators below zero and above zero, can be the highest efficiency Power plants lead. In hot and dry climates, the use of this energy provides high efficiency in summer and winter, respectively, to provide cooling and heat for permanent buildings. Also in this climate, in winter and summer, the use of recycled energy to provide cooling for sub-zero and above-zero refrigerators can lead to the highest efficiency. In cold and dry climates, no recycled energy from the cchp power plant can be used in winter, and as a result, the construction of a simultaneous production plant in this climate becomes generally uneconomical. In temperate climates, in winter, The use of recycled energy from a simultaneous production plant to heat permanent buildings can lead to high efficiency. Also in the summer, the use of this energy, to provide cooling for sub-zero and above-zero refrigerators, makes the efficiency of these power plants to be at its highest level.

In this study, the parameters affecting the selection of the construction site of the simultaneous production power plant are examined. Determining parameters of the power plant construction site are: climatic conditions of the region, type of building use, permanent or temporary use of the building and the difference in temperature of the design inside and outside the building. The results of this study show that in hot and humid climates, the use of recycled energy from this power plant, in summer, to provide cooling for permanent buildings (such as hospitals) and in winter to cool refrigerators below zero and above zero, can be the highest efficiency Power plants lead. In hot and dry climates, the use of this energy provides high efficiency in summer and winter, respectively, to provide cooling and heat for permanent buildings. Also in this climate, in winter and summer, the use of recycled energy to provide cooling for sub-zero and above-zero refrigerators can lead to the highest efficiency. In cold and dry climates, no recycled energy from the cchp power plant can be used in winter, and as a result, the construction of a simultaneous production plant in this climate becomes generally uneconomical. In temperate climates, in winter, The use of recycled energy from a simultaneous production plant to heat permanent buildings can lead to high efficiency. Also in the summer, the use of this energy, to provide cooling for sub-zero and above-zero refrigerators, makes the efficiency of these power plants to be at its highest level.