S. Sharifi Et Al. , "Coupled computational fluid dynamics-response surface methodology to optimize direct methanol fuel cell performance for greener energy generation," ENERGY , vol.198, 2020
Sharifi, S. Et Al. 2020. Coupled computational fluid dynamics-response surface methodology to optimize direct methanol fuel cell performance for greener energy generation. ENERGY , vol.198 .
Sharifi, S., Rahimi, R., Mohebbi-Kalhori, D., & ÇOLPAN, C. Ö., (2020). Coupled computational fluid dynamics-response surface methodology to optimize direct methanol fuel cell performance for greener energy generation. ENERGY , vol.198.
Sharifi, Shima Et Al. "Coupled computational fluid dynamics-response surface methodology to optimize direct methanol fuel cell performance for greener energy generation," ENERGY , vol.198, 2020
Sharifi, Shima Et Al. "Coupled computational fluid dynamics-response surface methodology to optimize direct methanol fuel cell performance for greener energy generation." ENERGY , vol.198, 2020
Sharifi, S. Et Al. (2020) . "Coupled computational fluid dynamics-response surface methodology to optimize direct methanol fuel cell performance for greener energy generation." ENERGY , vol.198.
@article{article, author={Shima Sharifi Et Al. }, title={Coupled computational fluid dynamics-response surface methodology to optimize direct methanol fuel cell performance for greener energy generation}, journal={ENERGY}, year=2020}