Başlık: A data-driven multi-objective optimization approach for enhanced methanol yield and exergy loss minimization in direct hydrogenation of CO2

A. Samad Et Al. , "A data-driven multi-objective optimization approach for enhanced methanol yield and exergy loss minimization in direct hydrogenation of CO2," Applied Thermal Engineering , vol.251, 2024

Samad, A. Et Al. 2024. A data-driven multi-objective optimization approach for enhanced methanol yield and exergy loss minimization in direct hydrogenation of CO2. Applied Thermal Engineering , vol.251 .

Samad, A., Saghir, H., Musawwir, A., Ahmad, I., & ÇALIŞKAN, H., (2024). A data-driven multi-objective optimization approach for enhanced methanol yield and exergy loss minimization in direct hydrogenation of CO2. Applied Thermal Engineering , vol.251.

Samad, Abdul Et Al. "A data-driven multi-objective optimization approach for enhanced methanol yield and exergy loss minimization in direct hydrogenation of CO2," Applied Thermal Engineering , vol.251, 2024

Samad, Abdul Et Al. "A data-driven multi-objective optimization approach for enhanced methanol yield and exergy loss minimization in direct hydrogenation of CO2." Applied Thermal Engineering , vol.251, 2024

Samad, A. Et Al. (2024) . "A data-driven multi-objective optimization approach for enhanced methanol yield and exergy loss minimization in direct hydrogenation of CO2." Applied Thermal Engineering , vol.251.

@article{article, author={Abdul Samad Et Al. }, title={A data-driven multi-objective optimization approach for enhanced methanol yield and exergy loss minimization in direct hydrogenation of CO2}, journal={Applied Thermal Engineering}, year=2024}

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