S. Cengizci And Ö. UĞUR, "A computational study for simulating MHD duct flows at high Hartmann numbers using a stabilized finite element formulation with shock-capturing," Journal of Computational Science , vol.81, 2024
Cengizci, S. And UĞUR, Ö. 2024. A computational study for simulating MHD duct flows at high Hartmann numbers using a stabilized finite element formulation with shock-capturing. Journal of Computational Science , vol.81 .
Cengizci, S., & UĞUR, Ö., (2024). A computational study for simulating MHD duct flows at high Hartmann numbers using a stabilized finite element formulation with shock-capturing. Journal of Computational Science , vol.81.
Cengizci, Süleyman, And ÖMÜR UĞUR. "A computational study for simulating MHD duct flows at high Hartmann numbers using a stabilized finite element formulation with shock-capturing," Journal of Computational Science , vol.81, 2024
Cengizci, Süleyman And UĞUR, ÖMÜR. "A computational study for simulating MHD duct flows at high Hartmann numbers using a stabilized finite element formulation with shock-capturing." Journal of Computational Science , vol.81, 2024
Cengizci, S. And UĞUR, Ö. (2024) . "A computational study for simulating MHD duct flows at high Hartmann numbers using a stabilized finite element formulation with shock-capturing." Journal of Computational Science , vol.81.
@article{article, author={Süleyman Cengizci And author={ÖMÜR UĞUR}, title={A computational study for simulating MHD duct flows at high Hartmann numbers using a stabilized finite element formulation with shock-capturing}, journal={Journal of Computational Science}, year=2024}