International Journal of Electronics and Microcircuits
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P-ISSN: 2708-4493, E-ISSN: 2708-4507

2022, Vol. 2, Issue 2, Part A


Development of solar thermal power generation using particle swarm optimization


Author(s): Olawuni Adeolu, Bello Saheed A and Adesina Morenikeji Dele

Abstract: This study analysed the thermal loss law of the recycled working material of the conventional thermal power generating unit and detailed the Solar Thermal Power System's primary construction and performance characteristics (STPS). In terms of technical viability and cost-effectiveness, the main technological constraints of the high-temperature solar thermal power system are outlined. Then, the unified operating system for conventional and solar thermal energy was introduced. This hybrid system may be driven by solar energy to create normal and low-temperature water vapour in order to efficiently utilise these technical shock points that arise at high-temperature solar thermal power. The combined operation of solar thermal energy and conventional heat power may be the most significant alternative to the reform of the energy conservation and environmental protection of conventional thermal power stations, as well as the most significant method of utilising solar energy efficiency on account of its higher overall efficiency and evident technical and economic performance.

Pages: 24-32 | Views: 735 | Downloads: 308

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International Journal of Electronics and Microcircuits
How to cite this article:
Olawuni Adeolu, Bello Saheed A, Adesina Morenikeji Dele. Development of solar thermal power generation using particle swarm optimization. Int J Electron Microcircuits 2022;2(2):24-32.
International Journal of Electronics and Microcircuits
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