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Browsing Published Articles by Author "M. Bilal"
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M. Ramzan; M. Bilal; Jae Dong Chung
(Bahria University Islamabad Campus, 2017)
A mathematical model is established to discuss the flow of magneto Jeffrey nanofluid with heat generation/absorption and thermal radiation past an inclined stretched cylinder. Effects of thermal and concentration stratification ...
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M. Ramzan; M. Bilal; Shamsa Kanwal; Jae Dong Chung
(Bahria University Islamabad Campus, 2017)
Present analysis discusses the boundary layer flow of Eyring Powell nanofluid past a constantly moving surface under the influence of nonlinear thermal radiation. Heat and mass transfer mechanisms are examined under the ...
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M. Ramzan; M. Bilal; Jae Dong Chung; Dian Chen Lu; Umer Farooq
(Bahria University Islamabad Campus, 2017)
A mathematical model has been established to study the magnetohydrodynamic second grade nanofluid flowpast a bidirectional stretched surface. The flowis induced by Cattaneo–Christov thermal and concentration diffusion ...
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M. Ramzan; M. Bilal; Jae Dong Chung; A. B. Mann
(Bahria University Islamabad Campus, 2017)
The prime objective of present exploration is to study effects of magnetohydrodynamic, Joule heating and thermal radiation on an incompressible Jeffrey nanofluid flow over a linearly stretched surface. Simultaneous effects ...
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Dianchen Lu; M. Ramzan; M. Bilal; Jae Dong Chung; Umer Farooq; Saad Tahir
(Bahria University Islamabad Campus, 2018)
This exploration studies a new mathematical model that highlights the impact of homogeneous–heterogeneous reactions on the flow of three-dimensional Oldroyd-B fluid past a bidirectional stretched surface. Here, homogeneous ...
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M. Ramzan; M. Bilal; Jae Dong Chung
(Bahria University Islamabad Campus, 2017)
Three dimensional chemically reactive upper-convected Maxwell (UCM) fluid flow over a stretching surface is considered to examine Soret and Dufour effects on heat and mass transfer. During the formulation of energy equation, ...
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Dian-Chen Lu; M. Ramzan; M. Bilal; Jae Dong Chung; Umer Farooq
(Bahria University Islamabad Campus, 2018)
A three-dimensional mathematical model is developed to examine the flow of nonlinear thermal radiation Oldroyd-B nanofluid past a bidirectional linearly stretched surface in a porous medium. The flow is induced by temperature ...