Performance assessment of a solar based novel combined cycle using vapor compression-absorption refrigeration system for trigeneration application DOI
Yunis Khan, Pawan Kumar Singh

Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science, Journal Year: 2025, Volume and Issue: unknown

Published: March 11, 2025

The solar power tower (SPT) system is responsible for numerous irreversibilities and cannot be avoided. Therefore, it important to make an efficient energy generation that utilizes the SPT effectively. In this way, present study developed a novel trigeneration consisting of Brayton cycle organic Rankine as topping bottoming cycles, respectively, both production; however, cascaded vapor compression-absorption heating applications like bleaching drying, etc., low temperature (−20°C) cooling application such food preservation, etc. A comprehensive exergy analysis was performed through computational technique using engineering equation solver. obtained efficiency 74.02% 52.08%, respectively. However, output, exergy, were by overall plant 18,014 kW, 39.03%, 35.16%, coefficients performances 0.5629 1.563, Parametric revealed parameters much affected performance plants. proposed more than previously stated SPT-based supercritical carbon dioxide cycles.

Language: Английский

Performance assessment of a solar based novel combined cycle using vapor compression-absorption refrigeration system for trigeneration application DOI
Yunis Khan, Pawan Kumar Singh

Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science, Journal Year: 2025, Volume and Issue: unknown

Published: March 11, 2025

The solar power tower (SPT) system is responsible for numerous irreversibilities and cannot be avoided. Therefore, it important to make an efficient energy generation that utilizes the SPT effectively. In this way, present study developed a novel trigeneration consisting of Brayton cycle organic Rankine as topping bottoming cycles, respectively, both production; however, cascaded vapor compression-absorption heating applications like bleaching drying, etc., low temperature (−20°C) cooling application such food preservation, etc. A comprehensive exergy analysis was performed through computational technique using engineering equation solver. obtained efficiency 74.02% 52.08%, respectively. However, output, exergy, were by overall plant 18,014 kW, 39.03%, 35.16%, coefficients performances 0.5629 1.563, Parametric revealed parameters much affected performance plants. proposed more than previously stated SPT-based supercritical carbon dioxide cycles.

Language: Английский

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