O. Arslan Et Al. , "A multi-generation system for hydrogen production through the high-temperature solid oxide electrolyzer integrated to 150 MW coal-fired steam boiler," Fuel , vol.315, 2022
Arslan, O. Et Al. 2022. A multi-generation system for hydrogen production through the high-temperature solid oxide electrolyzer integrated to 150 MW coal-fired steam boiler. Fuel , vol.315 .
Arslan, O., Acikkalp, E., & GENÇ, G., (2022). A multi-generation system for hydrogen production through the high-temperature solid oxide electrolyzer integrated to 150 MW coal-fired steam boiler. Fuel , vol.315.
Arslan, Oguz, Emin Acikkalp, And GAMZE GENÇ. "A multi-generation system for hydrogen production through the high-temperature solid oxide electrolyzer integrated to 150 MW coal-fired steam boiler," Fuel , vol.315, 2022
Arslan, Oguz Et Al. "A multi-generation system for hydrogen production through the high-temperature solid oxide electrolyzer integrated to 150 MW coal-fired steam boiler." Fuel , vol.315, 2022
Arslan, O. Acikkalp, E. And GENÇ, G. (2022) . "A multi-generation system for hydrogen production through the high-temperature solid oxide electrolyzer integrated to 150 MW coal-fired steam boiler." Fuel , vol.315.
@article{article, author={Oguz Arslan Et Al. }, title={A multi-generation system for hydrogen production through the high-temperature solid oxide electrolyzer integrated to 150 MW coal-fired steam boiler}, journal={Fuel}, year=2022}