Dr. Ram Prakash Sharma
ProfessorJECRC University, India
Highest Degree
Ph.D. in Mathematics from University of Rajasthan, Jaipur, India
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Area of Interest:
Selected Publications
- Sharma, R.P., S.R. Mishra, S. Tinker and B.K. Kulshrestha, 2023. Exploration of radiative and dissipative heat on Williamson nanofluid flow in conjunction with convective boundary condition. J. Nanofluids, 12: 223-230.
CrossRef | Direct Link | - Sharma, R.P., S.R. Mishra, S. Tinker and B.K. Kulshrestha, 2022. Radiative heat transfer of hybrid nanofluid flow over an expanding surface with the interaction of joule effect. J. Nanofluids, 11: 745-753.
CrossRef | Direct Link | - Sharma, R.P., S.R. Mishra, S. Tinker and B.K. Kulshrestha, 2022. Effect of non-linear thermal radiation and binary chemical reaction on the Williamson nanofluid flow past a linearly stretching sheet. Int. J. Appl. Comput. Math., Vol. 8. 10.1007/s40819-022-01362-w.
CrossRef | Direct Link | - Sharma, R.P., O. Prakash, S.R. Mishra and P.S. Rao, 2022. Hall current effect on molybdenum disulfide (MoS2)-engine oil (EO) based MHD nanofluid flow in a moving plate. Int. J. Ambient Energy, 43: 6201-6209.
CrossRef | Direct Link | - Sharma, R.P., O. Prakash, I. Rashidi, S.R. Mishra, P.S. Rao and F. Karimi, 2022. Nonlinear thermal radiation and heat source effects on unsteady electrical MHD motion of nanofluid past a stretching surface with binary chemical reaction. Eur. Phys. J. Plus, Vol. 137. 10.1140/epjp/s13360-022-02359-6.
CrossRef | Direct Link | - Sharma, R.P., D. Gorai and K. Das, 2022. Comparative study on hybrid nanofluid flow of Ag–CuO/H2O over a curved stretching surface with Soret and Dufour effects. Heat Transfer, 51: 6365-6383.
CrossRef | Direct Link | - Sharma, R.P. and S. Shaw, 2022. MHD non-newtonian fluid flow past a stretching sheet under the influence of non-linear radiation and viscous dissipation. J. Appl. Comput. Mech., 8: 949-961.
CrossRef | Direct Link | - Munjam, S.R. and R.P. Sharma, 2022. The novel techniques used on convective motion in a permeable media due to a vertical surface under the effect of heat source. Int. J. Ambient Energy, 43: 2595-2605.
CrossRef | Direct Link | - Jena, S., S.R. Mishra and R.P. Sharma, 2022. Effect of chemical reaction and thermal radiation on bio-magnetic viscoelastic fluid flow embedded in a porous medium. Indian J. Pure Appl. Phys., 60: 996-1003.
CrossRef | Direct Link | - Gopalakrishnan, K.S., I.S. Oyelakin, S. Mondal and R.P. Sharma, 2022. Impact of Joule heating and nonlinear thermal radiation on the flow of Casson nanofluid with entropy generation. Int. J. Ambient Energy, 43: 5687-5710.
CrossRef | Direct Link | - Saranya, S., P. Ragupathi, B. Ganga, R.P. Sharma and A.A. Hakeem, 2018. Non-linear radiation effects on magnetic/non-magnetic nanoparticles with different base fluids over a flat plate. Adv. Powder Technol., 29: 1977-1990.
CrossRef | Direct Link | - Gaur, P.K., R.P. Sharma and A.K. Jha, 2018. Transient free convective radiative flow between vertical parallel plates heated/cooled asymmetrically with heat generation and slip condition. Int. J. Applied Mech. Eng., 23: 365-384.
CrossRef | Direct Link | - Gaur, P.K., A.K. Jha and R.P. Sharma, 2018. MHD flow of a polar fluid through a porous medium of variable permeability bounded by horizontal parallel plates. Acta Tech. CSAV, 63: 99-110.
- Swapna, Y., S.V.K. Verma, M.C. Raju and R.P. Sharma, 2017. Mass transfer effects on MHD mixed convective periodic Flow through porous medium in an inclined channel with transpiration cooling and thermal radiation. JNANABHA, 47: 195-206.
- Swapna, Y., S.V.K. Verma, M.C. Raju and R.P. Sharma, 2017. Chemical reaction and thermal effect on MHD mixed convective oscillatory flow through a porous medium bounded by two vertical porous plates. JNANABHA, 47: 218-228.
- Swapna, Y., M.C. Raju, R.P. Sharma and S.V.K. Varma, 2017. Magnetohydrodynamic (MHD) mixed convective periodic flow through porous medium in a rotating channel. J. Ultra Sci. Phys. Sci., 29: 302-311.
- Swapna, Y., M.C. Raju, R.P. Sharma and S.V.K. Varma, 2017. Chemical reaction, thermal radiation and injection/suction effects on MHD mixed convective oscillatory flow through a porous medium bounded by two vertical porous plates. Bull. Cal. Math. Soc., 109: 189-210.
- Singh, J., D. Kumar, R. Swroop and R.P. Sharma, 2017. An efficient computational approach for linear and nonlinear fractional differential equations. Waves Wavelets Fractals, 3: 1-13.
CrossRef | - Sharma, R.P., V. Ravikumar, M.C. Raju, G.S.S. Raju and S.V.K. Varma, 2017. Rotational impact on unsteady MHD double diffusive boundary layer flow over an impulsively emerged vertical porous plate. J. Int. Acad. Phys. Sci., 20: 303-317.
Direct Link | - Sharma, R.P., S.R. Mishra, D. Kumar and J. Singh, 2017. A hybrid computational approach for steady flow of walters B fluid in a vertical channel with porous wall. GANITA, 67: 89-98.
- Sharma, R.P., P.V.S.N. Murthy and D. Kumar, 2017. Transient free convection MHD flow of a nanofluid past a vertical plate with radiation in the presence of heat generation. J. Nanofluids, 6: 80-86.
CrossRef | Direct Link | - Sharma, R.P., M. Jain, S.R. Munjam and D. Kumar, 2017. Effects of Ohmic dissipation and chemical reaction on MHD free convection flow through porous medium with thermal radiation. J. Ultra Sci. Phys. Sci., 29: 315-326.
- Sharma, R.P., K. Avinash, N. Sandeep and O.D. Makinde, 2017. Thermal radiation effect on non-Newtonian fluid flow over a stretched sheet of non-uniform thickness. Defect Diffusion Forum, 377: 242-259.
CrossRef | Direct Link | - Sharma, R.P., 2017. Slip and chemical reaction effects on MHD natural convection flow past a vertical channel under the influence of radiation and heat source through porous medium. GANITA, 67: 117-127.
- Sharma, R.P. and S.R. Mishra, 2017. A mathematical model of MHD micropolar fluid flow with thermal-diffusion and diffusion-thermo effects. J. Int. Acad. Phys. Sci., 20: 273-292.
Direct Link | - Sandeep, N., R.P. Sharma and M. Ferdows, 2017. Enhanced heat transfer in unsteady magnetohydrodynamic nanofluid flow embedded with aluminum alloy nanoparticles. J. Mol. Liquids, 234: 437-443.
CrossRef | Direct Link | - Munjam, S.R. and R.P. Sharma, 2017. Homotopy solution for magnetohydrodynamic 3-D flow of nanofluid over a shrinking sheet in the presence of thermal radiation. Math. Today, 33: 75-87.
Direct Link | - Mishra, S.R., B. Nayak and R.P. Sharma, 2017. MHD stagnation-point flow past over a stretching sheet in the presence of non-darcy porous medium and heat source/sink. Defect Diffusion Forum, 374: 92-105.
CrossRef | Direct Link | - Kumar, D., J. Choi, J. Singh and R.P. Sharma, 2017. Numerical solution of nonlinear fractional camassa-holm equation. Far East J. Math. Sci., 101: 125-135.
- Krishna, P.M., R.P. Sharma and N. Sandeep, 2017. Boundary layer analysis of persistent moving horizontal needle in Blasius and Sakiadis magnetohydrodynamic radiative nanofluid flows. Nuclear Eng. Technol., 49: 1654-1659.
CrossRef | Direct Link | - Krishna, P.M., N. Sandeep, R.P. Sharma and O.D. Makinde, 2017. Thermal radiation effect on 3D slip motion of AlCu-water and Cu-water nanofluids over a variable thickness stretched surface. Defect Diffusion Forum, 377: 141-154.
CrossRef | Direct Link | - Krishna, P.M., N. Sandeep and R.P. Sharma, 2017. Computational analysis of plane and parabolic flow of MHD Carreau fluid with buoyancy and exponential heat source effects. Eur. Phys. J. Plus, Vol. 132. 10.1140/epjp/i2017-11469-9.
CrossRef | - Das, S., A. Sensharma, R.N. Jana and R.P. Sharma, 2017. Stability of nanofluid flow through a vertical channel with wall thermal conductance and radiation. J. Nanofluids, 6: 680-691.
CrossRef | Direct Link | - Das, S., A. Sensharma, R.N. Jana and R.P. Sharma, 2017. Slip flow of nanofluid past a vertical plate with ramped wall temperature considering thermal radiation. J. Nanofluids, 6: 1054-1064.
CrossRef | Direct Link | - Das, K., R.P. Sharma and P.R. Duari, 2017. Hydromagnetic rarefied fluid flow over a wedge in the presence of surface slip and thermal radiation. Int. J. Applied Mech. Eng., 22: 827-837.
CrossRef | Direct Link | - Sharma, R.P., M. Jain and D. Kumar, 2016. Analysis of nonlinear Blasius equation to boundary layer flow over a flat plate. Indian J. Theor. Phys., 64: 13-26.
- Kumar, D. and R.P. Sharma, 2016. Numerical approximation of Newell-Whitehead-Segel equation of fractional order. Nonlinear Eng., 5: 81-86.
CrossRef | - Gaur, P.K., R.P. Sharma and A.K. Jha, 2016. Radiative fluid flow over a non-linearly stretching sheet in porous medium with chemical reaction. Indian J. Theor. Phys., 64: 67-79.
- Gaur, P.K., A.K. Jha and R. Sharma, 2016. Magneto-polar fluid flow through a porous medium of variable permeability in slip flow regime. Int. J. Applied Mech. Eng., 21: 323-339.
CrossRef | Direct Link | - Das, S., R.N. Jana, R.P. Sharma and O.D. Makinde, 2016. MHD nanofluid flow and heat transfer in ekman layer on an oscillating porous plate. J. Nanofluids, 5: 968-981.
CrossRef | Direct Link | - Das, K., R.P. Sharma and A. Sarkar, 2016. Heat and mass transfer of a second grade magnetohydrodynamic fluid over a convectively heated stretching sheet. J. Comput. Design Eng., 3: 330-336.
CrossRef | Direct Link | - Sharma, R.R. and A.K. Jha, 2012. Magnetohydrodynamic flow of a viscous electrically conducting fluid through a porous medium induced by a rotating disk with suction. Indian J. Theor. Phys., 60: 83-92.
Direct Link | - Sharma, R.R. and A.K. Jha, 2012. Heat transfer in MHD micropolar fluid flow past a vertical plate in slip-flow regime. Mapana-J. Sci., 11: 179-191.
CrossRef | Direct Link | - Sharma, R.P., 2012. Unsteady MHD flow through a straight duct filled with porous material. Indian J. Theor. Phys., 60: 165-170.
- Sharma, R.P. and A. Sharma, 2011. An analytical study of curriculum of mathematics implemented by NCERT under the plan NCF-2005. Int. J. Math. Model. Simulations Applic., 5: 84-89.
- Sharma, P.R., Y.N. Gaur and R.P. Sharma, 2005. Steady laminar flow and heat transfer of a non-Newtonian fluid through a straight horizontal porous channel in the presence of heat source. Ind. J. Theor. Phys., 53: 37-47.
- Sharma, P.R., Y.N. Gaur and R.P. Sharma, 2004. Unsteady MHD flow and heat transfer over a continuous porous moving horizontal surface in the presence of an oscillating free stream and heat source. J. Ind. Acad. Math., 26: 105-114.
- Sharma, P.R., R.P. Sharma, U. Mishra, N. Kumar and Y.N. Gaur, 2004. Unsteady flow and heat transfer of a viscous incompressible fluid between parallel porous plates with heat source/sink. Applied Sci. Periodical, 6: 97-109.
- Sharma, P.R., R.P. Sharma, N. Kumar, U. Mishra and Y.N. Gaur, 2004. Unsteady MHD flow and heat transfer along a horizontal porous plate in the presence of heat source and periodic free stream. Indian J. Theor. Phys., 52: 11-18.
Direct Link | - Sharma, P.R., Y.N. Gaur and R.P. Sharma, 2003. Unsteady MHD flow and heat transfer along a continuous porous moving vertical porous surface in the presence of an oscillating free stream and heat source. Ultra Sci. Phys. Sci., 15: 323-330.
- Sharma, P.R., Y.N. Gaur and R.P. Sharma, 2003. Ohmic dissipation effect on unsteady free convective MHD flow past an infinite hot vertical porous surface of variable temperature. J. Nat. Acad. Math. India, 17: 21-33.
- Gaur, Y.N., P.R. Sharma and R.P. Sharma, 2003. Mean flow and Mean temperature of a non-Newtonian fluid along a porous moving vertical plate in the presence of oscillating free stream. Ultra Sci. Phys. Sci., 15: 103-108.