Skip to main content

Research Repository

Advanced Search

Outputs (467)

Maple and spectral computation of free convection slip mass transfer from a spinning conical porous body to an anisotropic permeable medium
Presentation / Conference
Beg, O., Beg, T., Kadir, A., Uddin, M., Vasu, B., & Shamshuddin, M. Maple and spectral computation of free convection slip mass transfer from a spinning conical porous body to an anisotropic permeable medium. Presented at International Conference on Future Trends in Materials and Mechanical Engineering (ICFTMME-2020), NCR Campus, Ghaziabad, India

Many industrial materials processing and mechanical engineering systems feature swirl flows from rotating bodies including thin
film coatings, centrifugal separation and mixing devices. This work therefore explores the steady axisymmetric laminar bo... Read More about Maple and spectral computation of free convection slip mass transfer from a spinning conical porous body to an anisotropic permeable medium.

Ferromagnetic and non-magnetic nano-particles in nanofluid flow from a stretching cylinder with magnetic induction: spectral relaxation solution
Presentation / Conference
Beg, O., Shamshuddin, M., Ferdows, M., Rezwan, M., & Kadir, A. Ferromagnetic and non-magnetic nano-particles in nanofluid flow from a stretching cylinder with magnetic induction: spectral relaxation solution. Presented at 2nd International Conference on Numerical Heat Transfer and Fluid Flow (NHTFF-2020) NIT Warangal, India – Jan 17-19, 2020, Department of Mathematics, National Institute of Technology, Warangal, India

This paper studies the boundary layer flow and heat transfer in an incompressible viscous
electrically conducting nanofluid containing ferroparticles or non-magnetic nanoparticles external to
a stretching cylinder in the presence of magnetic induct... Read More about Ferromagnetic and non-magnetic nano-particles in nanofluid flow from a stretching cylinder with magnetic induction: spectral relaxation solution.

Progress in nano-drug delivery systems and computational nano-pharmacodynamics
Presentation / Conference
Tripathi, J., Vasu, B., Gorla, R., Murthy, P., Dubey, A., Beg, O., & Saikrishnan, P. Progress in nano-drug delivery systems and computational nano-pharmacodynamics. Presented at ICEMCI 2019- International Conference on Engineering, Mathematical and Computational Intelligence, Jabalpur, India

Cardiovascular disease (CVD) is a leading cause of mortality and morbidity in developed
countries. CVD is initiated by atherosclerotic lesions that reduce arterial lumen size through
plaque formation and decreasing blood flow to the heart and frequ... Read More about Progress in nano-drug delivery systems and computational nano-pharmacodynamics.

Steady-state transport phenomena on induced magnetic field modeling for convective chemically reacting fluid with viscous dissipative heat
Journal Article
Ahmed, S., & Beg, O. (in press). Steady-state transport phenomena on induced magnetic field modeling for convective chemically reacting fluid with viscous dissipative heat. Heat Transfer Research, https://doi.org/10.1615/HeatTransRes.2016008487

Closed form solutions are presented for the steady magnetohydrodynamic (MHD) buoyancydriven convection flow, heat and mass transfer from a semi-infinite vertical surface with wall transpiration, first order chemical reaction, viscous heating, Ohmic h... Read More about Steady-state transport phenomena on induced magnetic field modeling for convective chemically reacting fluid with viscous dissipative heat.

Computational study of non-similar magneto-convection from an isothermal surface in saturated porous media with induction effects
Journal Article

We study theoretically and numerically the forced convection magnetohydrodynamic (MHD) boundary layer flow of an
electrically conducting fluid along a non-conducting isothermal wall adjacent to a porous medium, with magnetic field
aligned with the... Read More about Computational study of non-similar magneto-convection from an isothermal surface in saturated porous media with induction effects.