M. Rabeti Et Al. , "Potential of Semi-Empirical Heat Transfer Models in Predicting the Effects of Equivalence Ratio on Low Temperature Reaction and High Temperature Reaction Heat Release of an HCCI Engine," Journal of Applied and Computational Mechanics , vol.9, no.1, pp.45-57, 2023
Rabeti, M. Et Al. 2023. Potential of Semi-Empirical Heat Transfer Models in Predicting the Effects of Equivalence Ratio on Low Temperature Reaction and High Temperature Reaction Heat Release of an HCCI Engine. Journal of Applied and Computational Mechanics , vol.9, no.1 , 45-57.
Rabeti, M., Jahanian, O., Ranjbar, A. A., Ardebili, S. M. S., & SOLMAZ, H., (2023). Potential of Semi-Empirical Heat Transfer Models in Predicting the Effects of Equivalence Ratio on Low Temperature Reaction and High Temperature Reaction Heat Release of an HCCI Engine. Journal of Applied and Computational Mechanics , vol.9, no.1, 45-57.
Rabeti, Masoud Et Al. "Potential of Semi-Empirical Heat Transfer Models in Predicting the Effects of Equivalence Ratio on Low Temperature Reaction and High Temperature Reaction Heat Release of an HCCI Engine," Journal of Applied and Computational Mechanics , vol.9, no.1, 45-57, 2023
Rabeti, Masoud Et Al. "Potential of Semi-Empirical Heat Transfer Models in Predicting the Effects of Equivalence Ratio on Low Temperature Reaction and High Temperature Reaction Heat Release of an HCCI Engine." Journal of Applied and Computational Mechanics , vol.9, no.1, pp.45-57, 2023
Rabeti, M. Et Al. (2023) . "Potential of Semi-Empirical Heat Transfer Models in Predicting the Effects of Equivalence Ratio on Low Temperature Reaction and High Temperature Reaction Heat Release of an HCCI Engine." Journal of Applied and Computational Mechanics , vol.9, no.1, pp.45-57.
@article{article, author={Masoud Rabeti Et Al. }, title={Potential of Semi-Empirical Heat Transfer Models in Predicting the Effects of Equivalence Ratio on Low Temperature Reaction and High Temperature Reaction Heat Release of an HCCI Engine}, journal={Journal of Applied and Computational Mechanics}, year=2023, pages={45-57} }