Khan, Y. Et Al. 2023. Exergoeconomic and Thermodynamic Analyses of Solar Power Tower Based Novel Combined Helium Brayton Cycle-Transcritical CO2 Cycle for Carbon Free Power Generation. Global Challenges , vol.7, no.12 .

Khan, Y., Singh, D., ÇALIŞKAN, H., & Hong, H., (2023). Exergoeconomic and Thermodynamic Analyses of Solar Power Tower Based Novel Combined Helium Brayton Cycle-Transcritical CO2 Cycle for Carbon Free Power Generation. Global Challenges , vol.7, no.12.

Khan, Yunis Et Al. "Exergoeconomic and Thermodynamic Analyses of Solar Power Tower Based Novel Combined Helium Brayton Cycle-Transcritical CO2 Cycle for Carbon Free Power Generation," Global Challenges , vol.7, no.12, 2023

Khan, Yunis Et Al. "Exergoeconomic and Thermodynamic Analyses of Solar Power Tower Based Novel Combined Helium Brayton Cycle-Transcritical CO2 Cycle for Carbon Free Power Generation." Global Challenges , vol.7, no.12, 2023

Khan, Y. Et Al. (2023) . "Exergoeconomic and Thermodynamic Analyses of Solar Power Tower Based Novel Combined Helium Brayton Cycle-Transcritical CO2 Cycle for Carbon Free Power Generation." Global Challenges , vol.7, no.12.

@article{article, author={Yunis Khan Et Al. }, title={Exergoeconomic and Thermodynamic Analyses of Solar Power Tower Based Novel Combined Helium Brayton Cycle-Transcritical CO2 Cycle for Carbon Free Power Generation}, journal={Global Challenges}, year=2023}