Title of article
Numerical simulation of a hybrid cogeneration-solar chimney power plant
Author/Authors
Karami, M Department of Mechanical Engineering - Faculty of Engineering - Kharazmi University - Tehran, Iran , Khayam, M Department of Mechanical Engineering - Faculty of Engineering - Kharazmi University - Tehran, Iran
Pages
7
From page
527
To page
533
Abstract
In this research, the effect of using the exhausted smoke of a cogeneration power plant as the working fluid of a solar chimney to increase power generation is studied by numerical methods. First, the cogeneration power plant is modeled using ASPEN HYSYS; then, the properties of the exhausted smoke including temperature, mass flow rate and etc. are entered to the model of solar chimney power plant, developed in ANSYS FLUENT. Using this hybrid model, the effect of solar radiation on power generation is compared for both air and smoke as working fluids. Furthermore, the effect of inlet temperature on power generation is also studied. The results showed that the power generation increases on average 4 times using smoke instead of air. It is also found that the optimum chimney height is 500 m using air and 600 m using the exhausted smoke of cogeneration power plant.
Keywords
Numerical simulation , Efficiency enhancement , Cogeneration power plant , Solar chimney power plant
Journal title
Journal of Solar Energy Research
Serial Year
2020
Record number
2546348
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