Simulation and parametric analysis of low pressure on the operation of a concentrated solar thermal installation

• Published in: International Journal of Advanced Studies in Computers, Science and Engineering Vol. 12; no. 2; pp. 34 - 44
• Main Authors: Benramdane, Mohammed, Hasoun, Zakaria Sari, Abdennour, Aliane
• Format: Journal Article
• Language: English
• Published: Gothenburg International Journal of Advanced Studies in Computers, Science and Engineering 01.02.2023
• Subjects: Cold; Efficiency; Electricity; Heat transfer; High temperature; Low pressure; Overheating; Parametric analysis; Parametric statistics; Photovoltaic cells; Power plants; Radiation; Simulation; Solar cycle; Solar energy; Solar heating; Thermal energy; Thermodynamic efficiency; Turbines
• ISSN: 2278-7917

The exploitation of solar energy has become a major concern, especially since our country holds a significant solar potential during the year. We can use concentrated solar energy to produce electricity or heat. This contribution consists, from simulations, in the parametric analysis of the operation of a solar concentration thermal installation, highlighting the direction of the variation of the thermal efficiency as a function of the low pressure for a machine working according to the ideal cycle of RANKINE. We were interested too: * In the sense of the variation of the thermal efficiency as a function of the temperature of the superheat for an improved installation working according to the ideal cycle of HIRN * At the influence of the overheating temperature for the HIRN cycle and low pressures for both cycles (RANKINE and HIRN), on the yield in order to propose a possible improvement. Simulations for different modifications on the RANKINE and HIRN cycles show that for an increase in the superheat temperature, the reduction of the low-pressure lead to a better yield.