H. R. Aidinlou And A. M. Nikbakht, "Fuzzy-based modeling of thermohydraulic aspect of solar air heater roughened with inclined broken roughness," NEURAL COMPUTING & APPLICATIONS , vol.34, no.3, pp.2393-2412, 2022
Aidinlou, H. R. And Nikbakht, A. M. 2022. Fuzzy-based modeling of thermohydraulic aspect of solar air heater roughened with inclined broken roughness. NEURAL COMPUTING & APPLICATIONS , vol.34, no.3 , 2393-2412.
Aidinlou, H. R., & Nikbakht, A. M., (2022). Fuzzy-based modeling of thermohydraulic aspect of solar air heater roughened with inclined broken roughness. NEURAL COMPUTING & APPLICATIONS , vol.34, no.3, 2393-2412.
Aidinlou, H., And Ali M. Nikbakht. "Fuzzy-based modeling of thermohydraulic aspect of solar air heater roughened with inclined broken roughness," NEURAL COMPUTING & APPLICATIONS , vol.34, no.3, 2393-2412, 2022
Aidinlou, H. R. And Nikbakht, Ali M. . "Fuzzy-based modeling of thermohydraulic aspect of solar air heater roughened with inclined broken roughness." NEURAL COMPUTING & APPLICATIONS , vol.34, no.3, pp.2393-2412, 2022
Aidinlou, H. R. And Nikbakht, A. M. (2022) . "Fuzzy-based modeling of thermohydraulic aspect of solar air heater roughened with inclined broken roughness." NEURAL COMPUTING & APPLICATIONS , vol.34, no.3, pp.2393-2412.
@article{article, author={H. Rahmati Aidinlou And author={Ali M. Nikbakht}, title={Fuzzy-based modeling of thermohydraulic aspect of solar air heater roughened with inclined broken roughness}, journal={NEURAL COMPUTING & APPLICATIONS}, year=2022, pages={2393-2412} }