Department of Mathematics,
Kuvempu University
Jnana Sahyadri577 451, SHIMOGA.
Karnataka, India
Selected Publication List
• P.B.Sampath Kumar, B.J.Gireesha, B.Mahanthesh, & R.S.R.Gorla, “Nonlinear thermal convection in jeffery liquid flow with cross diffusion effects past a streched surface”, Accepted in New Development for Heat Transfer in Solids and Fluid Flow (Special Issue)Defect and Diffusion Form, (2017).
• G.K.Ramesh, G.S.Roopa, B.J.Gireesha, S.A.Shehzad, & F.M.Shehzad, “An electromagnetohydrodynamic flow Maxwell nanoliquid past a Riga plate: numerical study ”, Accepted in Journal of the Brazilian Society of Mechanical Sciences and Engineering (Springer), (2017) (IF 1.235) .
• G.K.Ramesh & B.J.Gireesha, “Nonlinear radiative flow of nanofluid past a moving/stationary
Riga plate ”, Frontiers in Heat and Mass Transfer (FHMT), Vol. 9(3) (2017) pp. 17 (IF 0.49) .
• B.J.Gireesha, B.Mahanthesh, R.S.R.Gorla, & K.L.Krupalakshmi, “Hall effect on two phase radiated flow of magnetodustynanoliquid with irregular heat generation/consumption”, Accepted in Result in Physics (Elsevier), (2017) (IF 0.946) .
• N.S.Shashikumar, M.Archana, B.C.Prasannakumara, B.J.Gireesha, & O.D.Makinde, “Effects of Nonlinear Thermal Radiation and Second Order Slip on Casson Nanofluid Flow between Parallel Plates”, Accepted in New Development for Heat Transfer in Solids and Fluid Flow (Special Issue) Defect and Diffusion Form, (2017).
• B.Mahanthesh, B.J.Gireesha, B.C. Prasannakumara, & N.S.Shashikumar, “Marangoni convection radiative flow of dusty nanoliquid with exponential space dependent heat source”, Accepted in Nuclear Engineering and Technology (Elsevier) (2017) (IF 1.144) .
• K.Ganesh Kumar, B.J.Gireesha, M.R.Krishnamurthy, & N.G.Rudraswamy, “An unsteady squeezed flow of a tangent hyberbolic fluid over a sensor surface in the presence of variable thermal conductivity” Accepted in Result in Physics (Elsevier), (2017) (IF 0.946) .
• B.Mahanthesh, B.J.Gireesha, B.C.Prasannakumara, & P.B.Sampath Kumar, “MagnetoThermoMarangoni convective flow of Cu − H2O nanoliquid past an infinite disk with particle shape and exponential space based heat source effects”, Accepted in Results in Physics (Elsevier), (2017) (IF 0.946) .
• M.Archana, B.J.Gireesha, B.C.Prasannakumara, & M.M.Rashidi, “Bidirectionally stretched flow of Jeffrey liquid with nanoparticles, Rosseland radiation and variable thermal conductivity”, Accepted in Archives of Thermodynamics (De Gruyter), (2017) (IF 0.598) .
• B.J.Gireesha, P.B.Sampath Kumar, B.Mahanthesh, S.A.Shehzad, & A.Rauf, “Nonlinear 3D flow of CassonCarreau fluids with homogeneousheterogeneous reactions: A comparative study”, Accepted in Results in Physics (Elsevier), (2017) (IF 0.946) .
• B.C.Prasannakumara, B.J.Gireesha, M.R.Krishnamurthy, & K.Ganesh Kumar, “MHD flow and nonlinear radiative heat transfer of Sisko nanofluid over a nonlinear stretching sheet”, Informatics in Medicine Unlocked (Elsevier), Vol. 9 (2017) pp. 123132 (IF 2.525) .
• G.T.Thammanna, B.J.Gireesha, & B.Mahanthesh, “Partial slip and Joule heating on Magnetohydrodynamic radiated flow of nanofluid with dissipation and convective condition”, Accepted in Results in Physics (Elsevier), (2017) doi.org/10.1016/j.rinp.2017.07.056 (IF 0.946) .
• M.Umeshaiah, M.R.Krishnamurthy, N.G.Rudraswamy, B.J.Gireesha, & B.C.Prasannakumara,“Nonlinear radiative heat transfer to carreau fluid over a nonlinear stretching sheet in a porous medium in the presence of nonuniform heat source/sink and viscous dissipation”, Accepted in Frontiers in Heat and Mass Transfer (FHMT), (2017) (IF 0.49) .
• K.Ganesh Kumar, B.J.Gireesha, B.C.Prasannakumara, & G.K.Ramesh, “Phenomenon of radiation and viscous dissipation on Casson nano liquid flow past a moving melting surface”, Accepted in Advance in Nonlinear Heat Transfer in Fluids and Solids (Special Issue) Defect and Diffusion Form, (2017) (IF 0.24) .
• K.Ganesh Kumar, B.J.Gireesha, M.R.Krishnamurthy, & B.C.Prasannakumara, “Impact of convective condition on Marangoni convection flow and heat transfer in Casson nanofluid with uniform heat source/sink”, Accepted in Journal of Nanofluids (American Scientific Publishers), (2017) (IF 0.9) .
