Items where Author is "Khan, .M. Ijaz"
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Shoaib, Muhammad and Kausar, Mamoona and Khan, .M. Ijaz and Zeb, Muhammad and Gowda, .R. J. Punith and kumara, .B.C. Prasanna and Alzahrani, Faris and Raja, Muhammad Asif Zahoor Intelligent backpropagated neural networks application on Darcy-Forchheimer ferrofluid slip flow system. International Communications in Heat and Mass.
Zubair, Ghania and Shoaib, .M. and Khan, .M. Ijaz and Naz, Iqra and Althobaiti, Ali and Raja, .M. Asif Zahoor and Jameel, Mohammed and Galal, Ahmed M. Intelligent supervised learning for viscous fluid submerged in water based carbon nanotubes with irreversibility concept. International Communications in Heat and Mass Transfer.
Khan, .M. Ijaz and Qayyum, Sumaira and Shah, Faisal and Kumar, R. Naveen and Gowda, R.J. Punith and kumara, .B.C.Prasanna and Chu, Yu-Ming and Kadry, S. Marangoni convective flow of hybrid nanofluid (MnZnFe2O4 NiZnFe2O4 H2O) with Darcy Forchheimer medium. Ain Shams Engineering Journal.
Khan, Sohail A. and Khan, .M. Ijaz and Alzahran, Faris Melting heat transportation in chemical reactive flow of third grade nanofluid with irreversibility analysis. International Communications in Heat and Mass.
Li, Yun-Xiang and Mishra, S.R. and Pattnaik, .P.K. and Baag, .S. and Li, Yong-Min and Khan, .M. Ijaz and Khan, Niaz B. and Alaoui, M Kbiri and Khan, Sami Ullah Numerical treatment of time dependent magnetohydrodynamic nanofluid flow of mass and heat transport subject to chemical reaction and heat source. Alexandria Engineering Journal.
Waqas, Hassan and Khan, Sami Ullah and Khan, .M. Ijaz and Alzahrani, Faris and Qayyum, Sumaira Study of homogeneous–heterogeneous reactions in bioconvection stagnation pointslip flow of Walter’s-B nanofluid with nonlinear thermal radiation and activation energy. International Communications in Heat and Mass.
Abbasi, .A. and Khan, Sami Ullah and Al-Khaled, Kamel and Khan, .M. Ijaz and Farooq, .W. and Galal, Ahmed M. and Javid, Khurram and Malik, .M.Y. Thermal prospective of Casson nano-materials in radiative binary reactive flow near oblique stagnation point flow with activation energy applications. Chemical.