Dr. Vellaboyina  Nagendramma

Dr. Vellaboyina Nagendramma

Assistant professor
Sree Rama Engineering College, India


Highest Degree
Ph.D. in Mathematics from Sri Padmavati Mahila Visvavidyalayam, India

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Area of Interest:

Mathematics
100%
Thermal Instability
62%
Newtonian and Non-Newtonian Fluid Mechanics
90%
Geometric Theory
75%
Numerical Analysis
55%

Selected Publications

  1. Nagendramma, V., A. Leelarathnam, C.S.K. Raju and S.A.Shehzad, 2018. Doubly stratified MHD tangent hyperbolic nanofluid flow due to permeable stretched cylinder. Results Physics, 9: 23-32.
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  2. Ratnam, A.L. and V. Nagendramma, 2017. 17. Nanofluid flow past a wedge in the presence of thermal radiation with convective boundary condition. Int. J. Innov. Res. Sci. Eng. Technol., 6: 187-192.
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  3. Ratnam, A.L. and V. Nagendramma, 2017. 12. MHD boundary layer slip flow of a casson nanofluid through a porous medium over a stretching cylinder with dissipation and suction/blowing. J. Nanolfuids, 6: 410-419.
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  4. Rao, M., C.S.K. Raju, A. Leelaratnam, V. Nagendramma, 2017. Convective conditions on magnetohydrodynamic flow over stretched cylinder with time and space dependent heat source or sink. Res. J. Sci. Technol., Vol 9 .
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  5. Raju, C.S.K., V. Nagendramma and A.L. Ratnam, 2017. 14. Cattaneo-christov heat flux model for sakiadis flow of mhd carreau fluid. Int. J. Res. Sci. Eng., .
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  6. Nagendramma, V., A.L. Ratnam, 2017. MHD Non-newtonian nanofluid flow over an exponentially stretching surface with convective boundary condition. Int. J. Pure Appl. Math., 113: 29-37.
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  7. Nagalakshmi, C., V. Nagendramma and A.L. Ratnam, 2017. 19. The influence of EMHD on boundary layer nanofluid stagnation flow over a stretching sheet. Res. J. Sci. Technol., 09: 461-466.
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  8. Nagalakshmi, C., V. Nagendramma and A.L. Ratnam, 2017. 18. Non-newtonian nanofluid flow over an exponentially stretching sheet with ohmic effects. Int. J. Innov. Res. Sci. Eng. Technol., 6: 193-198.
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  9. Nagalakshmi, C., V. Nagendramma and A.L. Ratnam, 2017. 13. MHD visco-elastic fluid flow over a stretching sheet with suction/injection. Int. J. Res. Sci. Eng., .
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  10. Makinde, O.D., C.S.K. Raju and A.L. Ratnam, 2017. 15. Effects of cattaneo-christov heat flux on casson nanofluid flow past a stretching cylinder. Def. Diffusion Forum, 378: 28-38.
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  11. Kumar, R.V.M.S.S.K., P.D. Prasad, S.V.K. Varma and A.L. Ratnam, 2017. 11. Radiation and viscous dissipation effects on mhd heat transferflow of nanofluid over an exponentially stretching sheet in a Porous medium. Int. J. Pure Appl. Math., 113: 155-163.
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  12. Kumar, R.V.M.S.S.K., P.D. Prasad, A.L. Ratnam and S.V.K. Varma, 2017. 8. Themodiffusion effects on mhd boundary layer slip flow of nanofluid over a nonlinear stretching sheet through a porous medium. J. Porous Media, 20: 961-970.
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  13. Bandaru, M., A.M. Gamsha, C.S.K. Raju and A.L. Ratnam, 2017. 16. 3D Casson nanofluid flow over slendering surface in a suspension of gyrotactic microorganisms with Cattaneo-Christov heat flux. Appl. Math. Mech., 39: 628-638.
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  14. Nagendramma, V., C. Nagalakshmi and A.L. Ratnam, 2016. MHD Heat and Mass Transfer analysis for Maxwell NanoFluid flow over a convectively heated exponentially stretching sheet with thermal radiation and viscous dissipation. Special Issue Comp. Sci. Math. Biol., 10.18645/IJCSME/SPM.0040.
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  15. Nagachandrakala, G., V. Nagendramma and A.L. Ratnam, 2016. Effect of MHD on peristaltic flow of a micropolar fluid in an asymmetric channel. Special Issue Comput. Sci. Mathe. Biol., 10.18645/IJCSME/SPM.0002.
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  16. Kumar, R.V.M.S.S.K., P.D. Prasad, A. L. Ratnam and S.V.K. Varma, 2016. 7. Multiple slips and thermophoresis effects of maxwell nanofluid over a permeable stretching surface in the presence of radiation and dissipation. J. Nanofluids, 5: 1-9.
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  17. Sreelakshmi, K., V. Nagendramma and Sarojamma, 2015. Unsteady boundary layer flow induced by a stretching sheet in a rotating fluid with thermal radiation. Procedia Eng., 127: 678-685.
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  18. Nagendramma, V., K. Sreelakshmi and G. Sarojamma, 2015. MHD heat and mass transfer flow over a stretching wedge with convective boundary condition and thermophoresis. Procedia Eng., 127: 963-969.
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  19. Nagalakshmi, C., V. Nagendramma. K. Sreelakshmi and G. Sarojamma, 2015. Effects of hall currents on the boundary layer flow induced by an exponentially stretching surface. Procedia Eng., 127: 440-446.
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  20. Jyothi, P.K., K. Sreelakshmi, V. Nagendramma and Sarojamma, 2015. Study of thermophoresis on the MHD flow due to an exponentially stretching sheet in the presence of viscous dissipation. Procedia Eng., 127: 340-346.
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