H. Adun Et Al. , "Amelioration of thermodynamic performance and environmental analysis of an integrated solar power generation system with storage capacities using optimized ternary hybrid nanofluids," Journal of Energy Storage , vol.51, 2022
Adun, H. Et Al. 2022. Amelioration of thermodynamic performance and environmental analysis of an integrated solar power generation system with storage capacities using optimized ternary hybrid nanofluids. Journal of Energy Storage , vol.51 .
Adun, H., Adedeji, M., Dagbasi, M., & Babatunde, A., (2022). Amelioration of thermodynamic performance and environmental analysis of an integrated solar power generation system with storage capacities using optimized ternary hybrid nanofluids. Journal of Energy Storage , vol.51.
Adun, Humphrey Et Al. "Amelioration of thermodynamic performance and environmental analysis of an integrated solar power generation system with storage capacities using optimized ternary hybrid nanofluids," Journal of Energy Storage , vol.51, 2022
Adun, Humphrey Et Al. "Amelioration of thermodynamic performance and environmental analysis of an integrated solar power generation system with storage capacities using optimized ternary hybrid nanofluids." Journal of Energy Storage , vol.51, 2022
Adun, H. Et Al. (2022) . "Amelioration of thermodynamic performance and environmental analysis of an integrated solar power generation system with storage capacities using optimized ternary hybrid nanofluids." Journal of Energy Storage , vol.51.
@article{article, author={Humphrey Adun Et Al. }, title={Amelioration of thermodynamic performance and environmental analysis of an integrated solar power generation system with storage capacities using optimized ternary hybrid nanofluids}, journal={Journal of Energy Storage}, year=2022}