Abstract
Supercritical CO2 (S-CO2) Brayton cycles have become an effective way in utilizing solar energy, considering their advantages. The presented research discusses a parametrized analysis and systematic comparison of three S-CO2 power cycles coupled with parabolic trough collectors. The effects of turbine inlet temperature and pressure, compressor inlet temperature, and pressure on specific work, overall efficiency, and cost of core equipment of different S-CO2 Brayton cycles are discussed. Then, the two performance criteria, including specific work and cost of core equipment, are compared, simultaneously, between different S-CO2 cycle layouts after gaining the Pareto sets from multi-objective optimizations using genetic algorithm. The results suggest that the simple recuperation cycle layout shows more excellent performance than the intercooling cycle layout and the recompression cycle layout in terms of cost, while the advantage in specific work of the intercooling cycle layout and the recompression cycle layout is not obvious. This study can be useful in selecting cycle layout using solar energy by the parabolic trough solar collector when there are requirements for the specific work and the cost of core equipment. Moreover, high turbine inlet temperature is recommended for the S-CO2 Brayton cycle using solar energy.
Highlights
Solar energy has played an important role in sustainability
The main routes to harvest solar energy are by concentrating solar thermal power (CSP) and solar photovoltaics (PV) [1]
Parabolic trough (PT) can be considered the most mature technology for CSP plants due to projects conducted by the United
Summary
Solar energy has played an important role in sustainability. The main routes to harvest solar energy are by concentrating solar thermal power (CSP) and solar photovoltaics (PV) [1]. There is a lot of research on PV, including economics and environmental performance [2,3]. Compared with the PV generation, CSP has certain advantages in the power generation scale. Multiple kinds of CSP technology, including the parabolic trough collector (PTC) [4], the linear Fresnel reflector [5], and the solar power tower (SPT) [6] have been reported. Parabolic trough (PT) can be considered the most mature technology for CSP plants due to projects conducted by the United
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