Comparison of classical solar chimney power system and combined solar chimney system for power generation and seawater desalination

Abstract

An alternative method of heat and moisture extraction from seawater under the collector of a solar chimney system for power generation and seawater desalination is investigated with the aim of estimating the output of power and fresh water when used in seawater desalination using one-dimensional compressible flow model. It is found that the temperature and velocity of the airflow inside the chimney in the combined plant is less than that inside the chimney in the classic plant due to the release of vapor latent heat as the air rises up the chimney. Additionally, the power output from air turbine generators and water generators in the combined plant is less than that of the classic plant. Furthermore, a revenue analysis based on the price of fresh water and electric power in Dalian, China shows that the chimney less than 445m high for the proposed combined solar chimney power plant having a collector 3000m in radius is more economical than for the classic plant. The critical chimney height is found to depend on the local price of fresh water and electricity.