Dr. Rama S.R. Gorla

Visiting Professor
Purdue University Northwest, USA

Highest Degree
Ph.D. in Mechanical Engineering from The University of Toledo, USA

My URL
https://livedna.org/91.13654

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Area of Interest:

Physical Science Engineering
Mechanical Engineering
Thermal Sciences
Heat Transfer
Nanofluids

Selected Publications

  1. Siddiqa, S., N. Begum, M.A. Hossain and R.S.R. Gorla, 2017. Numerical solutions of natural convection flow of a dusty nanofluid about a vertical wavy truncated cone. J. Heat Transfer, Vol. 139, No. 2. 10.1115/1.4034815.
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  2. Siddiqa, S., A. Faryad, N. Begum, M.A. Hossain and R.S.R. Gorla, 2017. Periodic magnetohydrodynamic natural convection flow of a micropolar fluid with radiation. Int. J. Thermal Sci., 111: 215-222.
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  3. Umavathi, J.C., J.P. Kumar, R.S.R. Gorla and B.J. Gireesha, 2016. Effect of electric field on dispersion of a solute in an MHD flow through a vertical channel with and without chemical reaction. Int. J. Applied Mech. Eng., 21: 683-711.
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  4. Sutradhar, A., J.K. Mondal, P.V.S.N. Murthy and R.S.R. Gorla, 2016. Influence of Starling's hypothesis and Joule heating on peristaltic flow of an electrically conducting Casson fluid in a permeable microvessel. J. Fluids Eng., Vol. 138, No. 11. 10.1115/1.4033367.
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  5. Siddiqa, S., N. Begum, M.A. Hossain, N. Mustafa and R.S.R. Gorla, 2016. Two-phase dusty fluid flow along a cone with variable properties. Heat Mass Transfer, (In Press). 10.1007/s00231-016-1918-y.
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  6. Siddiqa, S., M.A. Hossain and R.S.R. Gorla, 2016. Temperature-dependent density effect on natural convection flow over a horizontal circular disk. J. Thermophys. Heat Transfer, 30: 890-896.
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  7. Siddiqa, S., M.A. Hossain and R.S.R. Gorla, 2016. Conjugate natural convection flow over a vertical surface with radiation. Heat Mass Transfer, 52: 1193-1202.
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  8. Siddiqa, S., M. Sulaiman, M.A. Hossain, S. Islam and R.S.R. Gorla, 2016. Gyrotactic bioconvection flow of a nanofluid past a vertical wavy surface. Int. J. Thermal Sci., 108: 244-250.
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  9. Roy, N.C. and R.S.R. Gorla, 2016. Unsteady mixed convection of a micropolar fluid past a circular cylinder due to time-dependent free stream velocity and temperature. Commun. Numer. Anal., 1: 118-143.
    Direct Link  |  

  10. Rashad, A.M., M.A. Mansour and R.S.R. Gorla, 2016. Mixed convection from a discrete heater in lid-driven enclosures filled with non-Newtonian nanofluids. Proc. Inst. Mech. Eng. Part N: J. Nanomater. Nanoeng. Nanosyst., (In Press). 10.1177/1740349916634749.
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  11. Rana, J., P.V.S.N. Murthy and R.S.R. Gorla, 2016. Oxygen transport in and around the systemic capillary in hyperbaric environment. Chem. Eng. Commun., (In Press). 10.1080/00986445.2016.1241773.
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  12. Ramesh, G.K., A.J. Chamkha and B.J. Gireesha, 2016. Boundary layer flow past an inclined stationary/moving flat plate with convective boundary condition. Afr. Math., 27: 87-95.
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  13. Raju, R.S., G.J. Reddy, J.A. Rao, M.M. Rashidi and R.S.R. Gorla, 2016. Analytical and numerical study of unsteady MHD free convection flow over an exponentially moving vertical plate with heat absorption. Int. J. Thermal Sci., 107: 303-315.
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  14. Raju, R.S., B.M. Reddy, M.M. Rashidi and R.S.R. Gorla, 2016. Application of finite element method to unsteady magnetohydrodynamic free-convection flow past a vertically inclined porous plate including thermal diffusion and diffusion thermo effects. J. Porous Media, 19: 701-722.
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  15. Prasannakumara, B.C., M.R. Krishnamurthy, B.J. Gireesha and R.S.R. Gorla, 2016. Effect of multiple slips and thermal radiation on MHD flow of jeffery nanofluid with heat transfer. J. Nanofluids, 5: 82-93.
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  16. Prasannakumara, B.C., B.J. Gireesha, R.S.R. Gorla and M.R. Krishnamurthy, 2016. Effects of chemical reaction and nonlinear thermal radiation on williamson nanofluid slip flow over a stretching sheet embedded in a porous medium. J. Aerospace Eng., Vol. 29. 10.1061/(ASCE)AS.1943-5525.0000578.
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  17. Mansour, M.A., A.M. Rashad, R.S.R. Gorla and S. Siddiqa, 2016. Inclined magneto-hydrodynamic mixed convection in lid-driven cavity filled within nanofluids with partial slip and internal heat generation. J. Nanofluids, 5: 634-651.
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  18. Mahanthesh, B., R.S.R. Gorla and B.J. Gireesha, 2016. Mixed convection squeezing three-dimensional flow in a rotating channel filled with nanofluid. Int. J. Numer. Methods Heat Fluid Flow, 26: 1460-1485.
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  19. Lakshmi, K.L.K., B.J. Gireesha, R.S.R. Gorla and B. Mahanthesh, 2016. Two-phase boundary layer flow, heat and mass transfer of a dusty liquid past a stretching sheet with thermal radiation. Int. J. Ind. Math., 8: 279-292.
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  20. Lakshmi, K.K., B.J. Gireesha, R.S. Gorla and B. Mahanthesh, 2016. Effects of diffusion-thermo and thermo-diffusion on two-phase boundary layer flow past a stretching sheet with fluid-particle suspension and chemical reaction: A numerical study. J. Niger. Math. Soc., 35: 66-81.
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  21. Krishnamurthy, M.R., B.C. Prasannakumara, B.J. Gireesha and R.S.R. Gorla, 2016. Effect of chemical reaction on MHD boundary layer flow and melting heat transfer of Williamson nanofluid in porous medium. Eng. Sci. Technol. Int. J., 19: 53-61.
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  22. Khani, F., M.T. Darvishi, R.S.R. Gorla and B.J. Gireesha, 2016. Thermal analysis of a fully wet porous radial fin with natural convection and radiation using the spectral collocation method. Int. J. Applied Mech. Eng., 21: 377-392.
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  23. Kameswaran, P.K., B. Vasu, P.V.S.N. Murthy and R.S.R. Gorla, 2016. Mixed convection from a wavy surface embedded in a thermally stratified nanofluid saturated porous medium with non-linear Boussinesq approximation. Int. Commun. Heat Mass Transfer, 77: 78-86.
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  24. Ibrahem, A.M., M.F. El-Amin, A.A. Mohammadein and R.S.R. Gorla, 2016. Lattice Boltzmann technique for heat transport phenomena coupled with melting process. Heat Mass Transfer, (In Press). 10.1007/s00231-016-1811-8.
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  25. Gorla, R.S.R., B. Vasu and S. Siddiqa, 2016. Transient combined convective heat transfer over a stretching surface in a non-Newtonian nanofluid using Buongiorno's model. J. Applied Math. Phys., 4: 443-460.
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  26. Gorla, R.S.R. and M. Kumari, 2016. Stagnation point flow towards a stretching/shrinking sheet in a non-newtonian nanofluid. J. Nanofluids, 5: 159-167.
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  27. Gorla, R.S.R. and M. Kumari, 2016. Effect of melting on free convection along a vertical wavy surface in a nanofluid. J. Nanofluids, 5: 148-158.
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  28. Gorla, R.S.R. and B.J. Gireesha, 2016. Dual solutions for stagnation-point flow and convective heat transfer of a Williamson nanofluid past a stretching/shrinking sheet. Heat Mass Transfer, 52: 1153-1162.
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  29. Gorla, R.S.R. and B. Vasu, 2016. Unsteady convective heat transfer to a stretching surface in a non-Newtonian nanofluid. J. Nanofluids, 5: 581-594.
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  30. Gireesha, B.J., B. Mahanthesh, R.S.R. Gorla and P.T. Manjunatha, 2016. Thermal radiation and Hall effects on boundary layer flow past a non-isothermal stretching surface embedded in porous medium with non-uniform heat source/sink and fluid-particle suspension. Heat Mass Transfer, 52: 897-911.
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  31. Darvishi, M.T., R.S.R. Gorla, F. Khani and B.J. Gireesha, 2016. Thermal analysis of natural convection and radiation in a fully wet porous fin. Int. J. Numer. Methods Heat Fluid Flow, Vol. 26. 10.1108/HFF-06-2015-0230.
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  32. Beg, O.A., M.J. Uddin, T. Beg and R.R. Gorla, 2016. Numerical simulation of self-similar thermal convection from a spinning cone in anisotropic porous medium. J. Hydrodynamics Ser. B, 28: 184-194.
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  33. Siddiqa, S., M.A. Hossain and R.S.R. Gorla, 2015. Natural convection flow of viscous fluid over triangular wavy horizontal surface. Comput. Fluids, 106: 130-134.
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  34. Roy, N.C., M.A. Hossain and R.S.R. Gorla, 2015. Unsteady free convection from a heated sphere in the presence of internal heat generation or absorption. Int. J. Thermal Sci., 98: 237-244.
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  35. Roy, N. and R.S.R. Gorla, 2015. Unsteady mixed convection flow of a micropolar fluid about a sphere. Int. J. Heat Mass Transfer-Theory Applic., 3: 54-66.
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  36. Ramesh, G.K., B.J. Gireesha and R.S.R. Gorla, 2015. Study on Sakiadis and Blasius flows of Williamson fluid with convective boundary condition. Nonlinear Eng., 4: 215-221.
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  37. Ramesh, G.K., B.J. Gireesha and R.S.R. Gorla, 2015. Boundary layer flow past a stretching sheet with fluid-particle suspension and convective boundary condition. Heat Mass Transfer, 51: 1061-1066.
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  38. Prasannakumara, B.C., B.J. Gireesha and P.T. Manjunatha, 2015. Melting phenomenon in MHD stagnation point flow of dusty fluid over a stretching sheet in the presence of thermal radiation and non-uniform heat source/sink. Int. J. Comput. Methods Eng. Sci. Mech., 16: 265-274.
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  39. Kumari, M., B.J. Gireesha and R.S.R. Gorla, 2015. Heat and mass transfer in a nanofluid film on an unsteady stretching surface. J. Nanofluids, 4: 560-567.
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  40. Kumari, M. and R.S.R. Gorla, 2015. Mixed convective boundary layer flow over a horizontal plate embedded in a porous medium saturated with a nanofluid. J. Nanofluids, 4: 412-419.
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  41. Kumari, M. and R.S.R. Gorla, 2015. MHD boundary layer flow of a non-newtonian nanofluid past a wedge. J. Nanofluids, 4: 73-81.
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  42. Kumari, M. and R.S.R. Gorla, 2015. Effect of melting on mixed convective boundary layer flow over a vertical plate embedded in a porous medium saturated with a nanofluid. J. Nanofluids, 4: 82-90.
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  43. Krishnamurthy, M.R., B.C. Prasannakumara, B.J. Gireesha and R.S. Gorla, 2015. Effect of viscous dissipation on hydromagnetic fluid flow and heat transfer of nanofluid over an exponentially stretching sheet with fluid-particle suspension. Cogent Math., Vol. 2. 10.1080/23311835.2015.1050973.
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  44. Gorla, R.S.R., B.J. Gireesha and B. Singh, 2015. MHD flow and heat transfer of dusty nanofluid embedded in porous medium over an exponentially stretching sheet. J. Nanofluids, 4: 449-460.
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  45. Gorla, R.S.R. and B.J. Gireesha, 2015. Transient velocity and steady state entropy generation in a microfluidic Couette flow containing charged nano particles. Int. J. Applied Mech. Eng., 20: 787-804.
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  46. Gorla, R.S.R. and B.J. Gireesha, 2015. Convective heat transfer in three-dimensional boundary-layer flow of viscoelastic nanofluid. J. Thermophys. Heat Transfer, 29: 334-341.
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  47. Gireesha, B.J., R.S.R. Gorla and B. Mahanthesh, 2015. Effect of suspended nanoparticles on three-dimensional MHD flow, heat and mass transfer of radiating Eyring-Powell fluid over a stretching sheet. J. Nanofluids, 4: 474-484.
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  48. Gireesha, B.J., B. Mahanthesh, P.T. Manjunatha and R.S.R. Gorla, 2015. Numerical solution for hydromagnetic boundary layer flow and heat transfer past a stretching surface embedded in non-Darcy porous medium with fluid-particle suspension. J. Niger. Math. Soc., 34: 267-285.
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  49. Subba, R. and R. Gorla, 2014. Entropy generation in thermally fully developed electro-osmotic flow in circular microtubes. Int. J. Microscale Nanoscale Thermal Fluid Transport Phenomena, 5: 279-295.
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  50. Shahmohamadi, H., M.M. Rashidi, O.A. Beg and R.S.R. Gorla, 2014. Analysis of magnetofluid dynamic radiation-convection boundary-layer flow with combined HAM-Pade approximants method. Int. J. Applied Math. Mech., 10: 18-41.

  51. Rashidi, M.M., A. Aghagoli, O.A. Beg and R.S.R. Gorla, 2014. Optimum thermodynamic exergy analysis and design of an ejector refrigeration cycle. Int. J. Applied Math. Mech., 10: 21-40.
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  52. Najafabadi, M.M. and R.S.R. Gorla, 2014. Mixed convection MHD heat and mass transfer over a nonlinear stretching vertical surface in a Non-Darcian porous medium. J. Porous Med., Vol. 17. 10.1615/JPorMedia.v17.i6.40.
    CrossRef  |  

  53. Mukhopadhyay, S. and R.S.R. Gorla, 2014. Diffusion of chemically reactive species of a casson fluid flow over an exponentially stretching surface. Thermal Energy Power Eng., 3: 216-221.

  54. Mahdy, A. and R.S.R. Gorla, 2014. Soret and dufor effects on MHD Non-Darcian natural convection from a vertical wavy surface embedded in a porous medium. Thermal Energy Power Eng. J., 3: 206-215.

  55. Kumari, M. and R.S.R. Gorla, 2014. Natural convection heat and mass transfer from a sphere in non-Newtonian nanofluids. J. Nanoeng. Nanosyst., 228: 129-138.
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  56. Kumari, M. and R.S.R. Gorla, 2014. Effect of melting on natural convective boundary layer flow over a horizontal plate embedded in a porous medium saturated with a Non-Newtonian Nanofluid. J. Nanofluids, 3: 278-286.
    CrossRef  |  Direct Link  |  

  57. Kumari, M. and R.S.R. Gorla, 2014. Effect of melting in natural convective boundary layer flow over a vertical plate embedded in a porous medium saturated with a Non-Newtonian Nanofluid. J. Nanoeng. Nanosyst. 10.1177/1740349914551012.
    CrossRef  |  Direct Link  |  

  58. Gorla, R.S.R., A. Chamkha and K. Ghodeswar, 2014. Natural convective boundary layer over a cone embedded in a porous medium saturated with a Nanofluid. J. Nanofluids, 3: 65-71.

  59. Gorla, R.S.R. and M. Kumari, 2014. Effect of melting on mixed convective boundary layer flow over a vertical wedge embedded in a porous medium saturated with a nanofluid. Int. J. Microscale Nanoscale Thermal Fluid Transport Phenomena, 5: 297-312.

  60. Gireesha, B.J., B. Mahanthesh and R.S.R. Gorla, 2014. Suspended particle effect on nanofluid boundary layer flow past a stretching surface. J. Nanofluids, 3: 267-277.
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  61. El-Dawy, H.A., A.A. Mohammadein and R.S.R. Gorla, 2014. Mixed convection in a Nanofluid past a vertical plate in a saturated porous medium. J. Nanofluids, 3: 117-120.
    CrossRef  |  Direct Link  |  

  62. El-Dawy, H.A., A.A. Mohammadein and R.S.R. Gorla, 2014. Influence of thermal dispersion and radiation on heat transfer from a stretching surface in a porous medium saturated with a Nanofluid. J. Nanofluids, 3: 44-50.
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  63. El-Dawy, H.A., A.A. Mohammadein and R.S.R. Gorla, 2014. Effect of magnetic field on free convection boundary layer flow over a vertical surface in a porous medium saturated with a Nanofluid. J. Nanofluids, 3: 72-77.
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  64. Darvishi, M.T., R.S.R. Gorla and F. Khani, 2014. Unsteady thermal response of a porous fin under the influence of natural convection and radiation. Heat Mass Transfer, 50: 1311-1317.
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  65. Chamkha, A.J., M. Rashad and R.S.R. Gorla, 2014. Non-similar solutions for mixed convection along a wedge embedded in a porous medium saturated by a non-Newtonian nanofluid: Natural convection dominated regime. Int. J. Numer. Methods Heat Fluid Flow, 24: 1471-1486.
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  66. Beg, O.A., S. Rawat, J. Zueco, L. Osmond and R.S.R. Gorla, 2014. Finite element and network electrical simulation of rotating magneto-fluid flow in nonlinear porous media with inclined magnetic field and Hall currents. Theoret. Applied Mech., 41: 1-35.

  67. Werner, C. and R.S.R. Gorla, 2013. Probabilistic study of bone remodeling using finite element analysis. Int. J. Applied Mech. Eng., 18: 911-921.
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  68. Siddiqa, S., M.A. Hossain and R.S.R. Gorla, 2013. Hall current effects on magnetohydrodynamic natural convection flow with strong cross magnetic field. Int. J. Thermal Sci., 71: 196-204.
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  69. Saleem, M., A. Hossain and R.S.R. Gorla, 2013. Effect of magnetic field on thermocapillary convection in a system of two immiscible liquid layers in a rectangular cavity. Int. J. Numerical Methods Heat Fluid Flow, 23: 405-426.
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  70. Rashidi, M.M., N. Kavyani, O.A. Beg and R.S.R. Gorla, 2013. Transient magnetohydrodynamic film flow, heat transfer and entropy generation from a spinning disk system: DTM-Pade semi-numerical simulation. Int. J. Energy Technol., 5: 1-14.

  71. Mukhopadhyay, S., I.C. Mondal and R.S.R. Gorla, 2013. MHD flow and heat transfer past a porous stretching non-isothermal surface in porous medium with variable free stream temperature. Thermal Energy Power Eng., 2: 29-37.
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  72. Mukhopadhyay, S., I.C. Mondal and R.S.R. Gorla, 2013. Effects of partial slip on boundary layer flow and heat transfer past a stretching circular cylinder in a nanofluid. Int. J. Microscale Nanoscale Thermal Fluid Trans. Phenom., 4: 115-134.
    Direct Link  |  

  73. Mukhopadhyay, S. and R.S.R. Gorla, 2013. Slip effects on boundary layer flow and heat transfer along a stretching cylinder. Int. J. Applied Mech. Eng., 18: 447-459.
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  74. Mukhopadhyay, S. and R.S.R. Gorla, 2013. Dual solutions for boundary layer flow of moving fluid over a moving surface with power-law surface temperature. Int. J. Applied Mech. Eng., 18: 113-124.
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  75. Mansour, M.A., M.A. Bakier and R.S.R. Gorla, 2013. Natural convection in vertical i-shaped nanofluid-filled enclosures. J. Nanofluids, 2: 221-230.
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  76. Hossain, M.A., M. Saleem and R.S.R. Gorla, 2013. Surface-radiation effect on natural convection flow in a fluid-saturated non-darcy porous medium enclosed by non-isothermal walls. Int. J. Numer. Methods Heat Fluid Flow, 23: 1320-1339.
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  77. Hossain, A. and R.S.R. Gorla, 2013. Joule heating effect on magnetohydrodynamic mixed convection boundary layer flow with variable electrical conductivity. Int. J. Numerical Methods Heat Fluid Flow, 23: 275-288.
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  78. Hayat, K.B.T. and R.S.R. Gorla, 2013. Heat transfer in the boundary layer flow of Maxwell fluid over a permeable shrinking sheet. Thermal Energy Power Eng., 2: 72-78.

  79. Gorla, R.S.R., A. Chamkha and H. Takhar, 2013. Mixed convection in non-newtonian fluids along a vertical plate in porous media with constant surface heat flux. Thermal Energy Power Eng. J., 2: 65-70.

  80. Gorla, R.S.R. and M.F. El-Amin, 2013. MHD stagnation point flow of a non-newtonian nanofluid. Int. J. Microscale Nanoscale Thermal Fluid Trans. Phenom., 4: 79-98.

  81. Gorla, R.S.R. and M.A. Hossain, 2013. Mixed convective boundary layer flow over a vertical cylinder embedded in a porous medium saturated with Nanofluid. Int. J. Numer. Methods Heat Fluid Flow, 23: 1393-1405.

  82. Gorla, R.S.R. and M. Kumari, 2013. Mixed convection in an axisymmetric stagnation flow of a non-Newtonian nanofluid on a vertical cylinder. Proc. Inst. Mech. Eng. Part N, 227: 150-160.
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  83. Gorla, R.S.R. and M. Kumari, 2013. Combined convection on a vertical cylinder in a Non-Newtonian Nanofluid. J. Nanofluids, 2: 157-164.
    CrossRef  |  

  84. Gorla, R.S.R. and J.F. Llapa, 2013. Heat transfer in a nano thin-film region of an evaporating meniscus. J. Nanofluids, 2: 127-132.
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  85. Gorla, R.S.R. and A. Tanawade, 2013. Probabilistic structural and thermal analysis of a gasketed flange. Applied Thermal Eng., 59: 535-541.
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  86. Gorla, R.S.R. and A. Chamkha, 2013. Free convection past a vertical plate embedded in a porous medium saturated with a non-newtonian Nanofluid. J. Nanofluids, 2: 297-302.
    CrossRef  |  Direct Link  |  

  87. El-Dawy, H.A., A.A. Mohammadein and R.S.R. Gorla, 2013. Stagnation point thermal boundary layer flow towards a stretching/shrinking sheet in a nanofluid. J. Nanofluids, 2: 292-296.
    CrossRef  |  Direct Link  |  

  88. El-Dawy, H.A., A.A. Mohammadein and R.S.R. Gorla, 2013. Nanofluid heat transfer in parallel-plate vertical channels with porous medium in stretching/shrinking surfaces. J. Nanofluids, 2: 208-212.
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  89. El-Amin, M.F., A. Salama, A.A. El-Amin and R.S.R. Gorla, 2013. Combined effect of thermal dispersion and variable viscosity of non-Darcy convection heat transfer in a fluid-saturated porous medium. J. Porous Media, Vol. 16. 10.1615/JPorMedia.v16.i5.70.
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  90. Darvishi, M.T., R.S.R. Gorla and F. Khani, 2013. Natural convection and radiation in porous fins. Int. J. Numer. Methods Heat Fluid Flow, 23: 1406-1420.
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  91. Bhattacharyya, K., G.C. Layek and R.S.R. Gorla, 2013. Boundary layer slip flow and heat transfer past a stretching sheet with temperature dependent viscosity. Thermal Energy Power Eng., 2: 38-43.

  92. Bhattacharyya, K. and R.S.R. Gorla, 2013. Boundary layer flow and heat transfer over a permeable shrinking cylinder with surface mass transfer. Int. J. Applied Mech. Eng., 18: 1003-1012.
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  93. Ahmed, S.E., A.M. Rashad and R.S.R. Gorla, 2013. Natural convection in triangular enclosures filled with nanofluid saturated porous media. J. Thermophys. Heat Transfer, 27: 700-706.
    CrossRef  |  

  94. Siddiqa, S., M.A. Hossain and R.S.R. Gorla, 2012. Conduction-radiation effects on periodic magnetohydrodynamic natural convection boundary layer flow along a vertical surface. Int. J. Thermal Sci., 53: 119-129.
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  95. Rashidi, M.M., A.O. Beg, M.N. Freidooni, A. Hosseini and R.S.R. Gorla, 2012. Homotopy simulation of axisymmetric laminar mixed convection nanofluid boundary layer flow over a vertical cylinder. Theoret. Applied Mech., 39: 365-390.
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  96. Mukhopadhyay, S., I.C. Mondal and R.S.R. Gorla, 2012. Effects of thermal stratification on flow and heat transfer past a porous vertical stretching surface. Heat Mass Transfer, 48: 915-921.
    Direct Link  |  

  97. Mukhopadhyay, S. and R.S.R. Gorla, 2012. Effects of partial slip on boundary layer flow past a permeable exponential stretching sheet in presence of thermal radiation. Heat Mass Transfer, 48: 1773-1781.
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  98. Mukhopadhyay, S. and R.S. Gorla, 2012. Unsteady MHD boundary layer flow of an upper convected Maxwell fluid past a stretching sheet with first order constructive/destructive chemical reaction. J. Naval Architecture Mar. Eng., 9: 123-133.
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  99. Mahfooz, S.M., M.A. Hossain and R.S.R. Gorla, 2012. Radiation effects on transient magnetohydrodynamic natural convection flow with heat generation. Int. J. Thermal Sci., 58: 79-91.
    CrossRef  |  Direct Link  |  

  100. Kumari, M. and R.S.R. Gorla, 2012. Mixed convective boundary layer flow over a vertical plate embedded in a porous medium saturated with a nanofluid. J. Nanofluids, 1: 166-174.
    CrossRef  |  Direct Link  |  

  101. Kumari, M. and R.S.R. Gorla, 2012. Mixed convection boundary layer flow from a horizontal circular cylinder in a non-newtonian nanofluid. Int. J. Microscale Nanoscale Thermal Fluid Trans. Phenomena, 3: 267-281.
    Direct Link  |  

  102. Kumari, M. and R.S.R. Gorla, 2012. Mixed convection along a vertical plate embedded in a porous medium saturated with a nanofluid: Entire regime. Int. J. Microscale Nanoscale Thermal Fluid Trans. Phenomena, 3: 215-232.
    Direct Link  |  

  103. Kumari, M. and R.S.R. Gorla, 2012. Combined convective boundary layer flow over a horizontal plate embedded in a porous medium saturated with a nanofluid. Int. J. Micro-Nano Scale Transport, 2: 167-186.

  104. Khan, W.A. and R.S.R. Gorla, 2012. Nonsimilar solutions for mixed convection of water at 4°C over a vertical surface with a convection boundary condition in a porous medium. Heat Transfer-Asian Res., 41: 681-689.
    CrossRef  |  Direct Link  |  

  105. Khan, W.A. and R.S.R. Gorla, 2012. Heat and mass transfer in power-law nanofluids over a nonisothermal stretching wall with convective boundary condition. J. Heat Transfer, Vol. 134. 10.1115/1.4007138.
    CrossRef  |  

  106. Gorla, R.S.R., A.J. Chamkha, W.A. Khan and P.V.S.N. Murthy, 2012. Second law analysis for combined convection in non-Newtonian fluids over a vertical wedge embedded in a porous medium. J. Porous Media, 15: 187-196.

  107. Gorla, R.S.R., A. Chamkha and E. Al-Meshaiei, 2012. Melting heat transfer in a nanofluid boundary layer on a stretching circular cylinder. J. Naval Architecture Mar. Eng., 9: 1-10.

  108. Gorla, R.S.R. and W. Khan, 2012. Natural convective boundary-layer flow over a vertical cylinder embedded in a porous medium saturated with a nanofluid. J. Nanotechnol. Eng. Med., Vol. 3. 10.1115/1.4007886.
    CrossRef  |  

  109. Gorla, R.S.R. and S.M. Abdel-Gaied, 2012. Mixed convection in a porous medium saturated with a nanofluid: Entire regime. J. Thermophysics Heat Transfer, 26: 386-390.
    CrossRef  |  

  110. Gorla, R.S.R. and M.F. El-Amin, 2012. Thermal boundary layer flow over a stretching sheet in a non-newtonian nanofluid with radiation effect. Int. J. Microscale Nanoscale Thermal Fluid Trans. Phenomena, 3: 181-199.
    Direct Link  |  

  111. Gorla, R.S.R. and M. Kumari, 2012. Mixed convection flow of a non-Newtonian nanofluid over a non-linearly stretching sheet. J. Nanofluids, 1: 186-195.
    CrossRef  |  Direct Link  |  

  112. Gorla, R.S.R. and A. Chamkha, 2012. Natural convective boundary layer flow over a vertical plate embedded in a porous medium saturated with a non-newtonian nanofluid. Int. J. Microscale Nanoscale Thermal Fluid Trans. Phenomena, 3: 131-150.

  113. El-Amin, M.F., A. Salama, S. Sun and R.S.R. Gorla, 2012. Development of flow and heat transfer in the vicinity of a vertical plate embedded in a porous medium with viscous dissipation effects. Special Top. Rev. Porous Media: Int. J., 3: 169-175.
    CrossRef  |  Direct Link  |  

  114. Caroneos, R.M. and R.S.R. Gorla, 2012. Structural analysis and optimization of a composite fan blade for future aircraft engine. Int. J. Turbo Jet Eng., 29: 131-164.
    CrossRef  |  

  115. Bhattacharyya, K., G.C. Layek and R.S.R. Gorla, 2012. Slip effect on boundary layer flow on a moving flat plate in a parallel free stream. Int. J. Fluid Mech. Res., 39: 438-447.
    CrossRef  |  

  116. Zaman, H., T. Hayat, M. Ayub and R.S.R. Gorla, 2011. Series solution for heat transfer from a continuous surface in a parallel free stream of viscoelastic fluid. Numerical Methods Partial Differential Equations, 27: 1511-1524.
    CrossRef  |  Direct Link  |  

  117. Rashidi, M.M., E. Erfani, O.A. Beg and S.K. Ghosh, 2011. Modified Differential Transform Method (DTM) simulation of hydromagnetic multi-physical flow phenomena from a rotating disk. World J. Mech., 1: 217-230.
    CrossRef  |  Direct Link  |  

  118. Mondal, I., S. Mukhopadhyay and R. Gorla, 2011. Dual solutions for the boundary layer flow of a nanofluid over a moving surface. Int. J. Micro-Nano Scale Trans., 2: 221-234.

  119. Khani, F., M.T. Darvishi and R.S.R. Gorla, 2011. Analytical investigation for cooling turbine disks with a non-Newtonian viscoelastic fluid. Comput. Math. Appl., 61: 1728-1738.
    CrossRef  |  

  120. Khan, W.A. and R.S.R. Gorla, 2011. Mixed convection ofwater at 4°c along a wedge with a convective boundary condition in a porous medium. Special Topics Rev. Porous Media: An Int. J., 2: 227-236.
    Direct Link  |  

  121. Khan, W.A. and R.S.R. Gorla, 2011. Entropy generation in non-newtonian fluids along horizontal plate in porous media. J. Thermophys. Heat Transfer, 25: 298-303.
    CrossRef  |  Direct Link  |  

  122. Gorla, R.S.R., S.M.M. El-Kabeir and A.M. Rashad, 2011. Heat transfer in the boundary layer on a stretching circular cylinder in a nanofluid. J. Thermophys. Heat Transfer, 25: 183-186.

  123. Gorla, R.S.R., R. Rarick and S. Al-Harbi, 2011. Heat transfer in the thermal entrance region of fluid flow in a micro channel. Int. J. Microscale Nanoscale Thermal Fluid Transport Phenomena, 2: 35-49.

  124. Gorla, R.S.R., M.A. Hossain and A.J. Chamkha, 2011. Combined convection in micropolar fluids from a vertical surface with slip. J. Energy Heat Mass Transfer, 33: 311-336.

  125. Gorla, R.S.R., A.Y. Bakier and A.M. Rashad, 2011. Heat transfer in a nanofluid past a permeable continuous moving surface. Int. J. Microscale Nanoscale Thermal Fluid Trans. Phenomena, 2: 307-322.

  126. Gorla, R.S.R., A. Chamkha and A. Rashad, 2011. Mixed convection boundary layer flow over a vertical wedge embedded in a porous medium saturated with a nanofluid. Nanoscale Res. Lett. J., 6: 207-218.

  127. Gorla, R.S.R. and R.P.K. Pokkunuri, 2011. Finite element heat transfer and structural analysis of a chemical reactor head. Int. J. Applied Mech., 16: 589-596.

  128. Gorla, R.S.R. and R. Salako, 2011. Feasibility of wind-solar hybrid system for cleveland, Ohio, USA. Smart Grid Renewable Energy J., 2: 37-44.

  129. Gorla, R.S.R. and M. Kumari, 2011. Mixed convective boundary layer flow over a vertical wedge embedded in a porous medium saturated with a nanofluid: Entire regime. J. Nanoengin. Nanosyst., 225: 55-66.

  130. Gorla, R.S.R. and D. Pratt, 2011. Entropy minimization in a micro-scale evaporating thin film heat transfer device. Int. J. Microscale Nanoscale Thermal Fluid Transport Phenomena, 1: 329-348.

  131. Gorla, R.S.R. and A.Y. Bakier, 2011. Thermal analysis of natural convection and radiation in porous fins. Int. Commun. Heat Mass Transfer, 38: 638-645.
    CrossRef  |  Direct Link  |  

  132. Gorla, R.S.R. and A.J. Chamkha, 2011. Natural convective boundary layer flow over a horizontal plate embedded in a porous medium saturated with a non-newtonian nanofluid. Int. J. Microscale Nanoscale Thermal Fluid Transport Phenomena, 2: 211-227.
    Direct Link  |  

  133. Gorla, R.S.R. and A.J. Chamkha, 2011. Natural convective boundary layer flow over a horizontal plate embedded in a porous medium saturated with a nanofluid. J. Mod. Phys., 2: 62-71.
    CrossRef  |  Direct Link  |  

  134. Gorla, R.S.R and A.Y. Bakier, 2011. Thermal analysis of natural convection and radiation in porous fins. Int. Commun. Heat Mass Transf., 38: 638-645.
    CrossRef  |  

  135. Gorla, R.S., A.J. Chamkha and A. Aloraier, 2011. Melting heat transfer in a nanofluid flow past a permeable continuous moving surface. J. Naval Architecture Mar. Eng., 8: 83-92.
    CrossRef  |  Direct Link  |  

  136. Gorla, R.S. and M. Kumari, 2011. Free convection along a vertical wavy surface in a nanofluid. J. Nanoengin. Nanosyst., 225: 133-142.
    Direct Link  |  

  137. El-Amin, M.F., S. Sun, M.A. El-Ameen, Y.A. Jaha and R.S.R. Gorla, 2011. Non-darcy free convection of power-law fluids over a two-dimensional body embedded in a porous medium. Transport Porous Media, 86: 965-972.
    CrossRef  |  Direct Link  |  

  138. El‐Kabeir, S.M.M., A.M. Rashad and R.S.R. Gorla, 2011. Heat transfer in a micropolar fluid flow past a permeable continuous moving surface. ZAMM‐J. Applied Math. Mech., 91: 360-370.
    CrossRef  |  Direct Link  |  

  139. Domairry, D., M. Sheikholeslami, H.R. Ashorynejad, R.S.R. Gorla and M. Khani, 2011. Natural convection flow of a non-Newtonian nanofluid between two vertical flat plates. J. Nanoengin. Nanosyst., 225: 115-122.

  140. Chamkha, A.J., R.S.R. Gorla and K. Ghodeswar, 2011. Non-similar solution for natural convective boundary layer flow over a sphere embedded in a porous medium saturated with a nanofluid. Transp. Porous Media, 86: 13-22.
    CrossRef  |  

  141. Bakier, A.Y. and R.S.R. Gorla, 2011. Effects of thermophoresis and radiation on laminar boundary layer flow along a vertical plate. Heat Mass Transfer J., 47: 419-425.

  142. Rashad, A.M., A.Y. Bakier and R.S.R. Gorla, 2010. Viscous dissipation and Ohmic heating effects on Magnetohydrodynamic mixed convection along a vertical moving surface embedded in a fluid-saturated porous medium. J. Porous Media, 13: 159-170.
    CrossRef  |  Direct Link  |  

  143. Mukhopadhyay, S., G.C. Layek and R.S.R. Gorla, 2010. Radiation effects on MHD combined convective flow and heat transfer past a porous stretching surface. Int. J. Fluid Mech. Res., 37: 567-581.
    Direct Link  |  

  144. Mansour, M.A., N.F. El-Anssary, A.M. Aly and R.S.R. Gorla, 2010. Chemical reaction and magnetohydrodynamic effects on free convection flow past an inclined surface in a porous medium. J. Porous Media, 13: 87-96.
    Direct Link  |  

  145. Khan, W.A. and R.S.R. Gorla, 2010. Nonsimilar solutions for mixed convection of water at 4°C over a vertical surface with prescribed surface heat flux in a porous medium. J. Porous Media, 13: 1025-1032.
    CrossRef  |  Direct Link  |  

  146. Khan, W.A. and R.S.R. Gorla, 2010. Mixed convection of water at 4°C along a wedge with variable surface flux in a porous medium. Transp. Porous Media, 83: 413-424.
    CrossRef  |  Direct Link  |  

  147. Khan, W.A. and R.S.R. Gorla, 2010. Mixed convection of power-law fluids along a vertical wedge with convective boundary condition in a porous medium. J. Mech. Sci. Technol., 24: 1919-1925.
    CrossRef  |  Direct Link  |  

  148. Khan, W. and R.S.R. Gorla, 2010. Nonsimilar solutions for mixed convection of water at 4°c over a vertical surface in a porous medium with prescribed surface temperature. Transport Porous Media J., 13: 1025-1032.

  149. Khan, W. and R.S.R. Gorla, 2010. Heat transfer in electroosmotic flow of power-law fluids in a slit microchannel. Int. J. Microscale Nanoscale Thermal Fluid Transport Phenomena, 1: 1-16.

  150. Hossain, M.A., S. Asghar and R.S.R. Gorla, 2010. Buoyancy-driven flow of a viscous incompressible fluid in an open-ended rectangular cavity with permeable horizontal surfaces. Int. J. Numer. Methods Heat Fluid Flow, 20: 759-772.
    CrossRef  |  Direct Link  |  

  151. Gorla, R.S.R., 2010. Rapid calculation procedure to determine the pressurizing period for stored cryogenic fluids. Applied Thermal Eng., 30: 1997-2002.
    CrossRef  |  Direct Link  |  

  152. Gorla, R.S.R., 2010. Probabilistic analysis of a liquefied natural gas storage tank. Applied Thermal Eng., 30: 2763-2769.
    CrossRef  |  Direct Link  |  

  153. Elaiw, A.M., F.S. Ibrahim, A.A. Bakr and R.S.R. Gorla, 2010. Variable permeability effect on vortex instability of non-darcian mixed convection flow over a horizontal permeable surface embedded in a saturated porous medium. Int. J. Fluid Mech. Res., 37: 15-30.
    CrossRef  |  Direct Link  |  

  154. El-Kholy, S.A.E.A. and R.S.R. Gorla, 2010. The onset of heat transfer in multiple layers. Int. J. Fluid Mech. Res., 37: 31-41.
    CrossRef  |  Direct Link  |  

  155. Aly, A.M., M.A. Mansour and R.S.R. Gorla, 2010. Effects of chemical reaction, viscous dissipation and pressure work on mhd free convection flow in a porous medium. Trends Chem. Eng., 13: 65-76.

  156. Singh, A.K. and R.S.R. Gorla, 2009. Free convection heat and mass transfer with Hall current, Joule heating and thermal diffusion. Heat Mass Transfer, 45: 1341-1349.
    CrossRef  |  Direct Link  |  

  157. Shaw, S., R.S.R. Gorla, P.V.S.N. Murthy and C.O. Ng, 2009. Pulsatile Casson fluid flow through a stenosed bifurcated artery. Int. J. Fluid Mech. Res., 36: 43-63.
    CrossRef  |  Direct Link  |  

  158. Molla, M.M., M.A. Hossain and R.S.R. Gorla, 2009. Radiation effect on natural convection boundary layer flow over a vertical wavy frustum of a cone. Proc. Inst. Mech. Eng. Part C: J. Mech. Eng. Sci., 223: 1605-1614.
    CrossRef  |  Direct Link  |  

  159. Molla, M.M. and R.S.R. Gorla, 2009. Natural convection laminar flow with temperature dependent viscosity and thermal conductivity along a vertical wavy surface. Int. J. Fluid Mech. Res., 36: 272-288.
    CrossRef  |  Direct Link  |  

  160. Mansour, M.A., R.S.R. Gorla, M.M. Abd El-Aziz and S.E. Ahmed, 2009. Thermal non-equilibrium model for mhd micropolar free convection from elliptic cylinders in a porous medium. Int. J. Applied Mech. Eng., 14: 443-459.
    Direct Link  |  

  161. Layek, G.C., S. Mukhopadhyay and R.S.R. Gorla, 2009. Unsteady viscous flow with variable viscosity in a vascular tube with an overlapping constriction. Int. J. Eng. Sci., 47: 649-659.
    CrossRef  |  Direct Link  |  

  162. Ibrahim, F.S., I.A. Hassanien and R.S.R. Gorla, 2009. Microstructure effects on mixed convection flow over a nonisothermal vertical surface. Int. J. Fluid Mech. Res., 36: 145-165.
    CrossRef  |  Direct Link  |  

  163. Hossain, A., M. Kamrujjaman and R.S.R. Gorla, 2009. Fluctuating free convection flow along heated horizontal circular cylinders. Int. J. Fluid Mech. Res., 36: 207-230.
    CrossRef  |  Direct Link  |  

  164. Hossain, A. and R.S.R. Gorla, 2009. Natural convection flow of non-Newtonian power-law fluid from a slotted vertical isothermal surface. Int. J. Numer. Methods Heat Fluid Flow, 19: 835-846.
    CrossRef  |  Direct Link  |  

  165. Hassanien, I.A., A.M. Elaiw and R.S.R. Gorla, 2009. Variable permeability effect on vortex instability of buoyancy-induced inclined boundary layer flow in a saturated porous medium. Int. J. Fluid Mech. Res., 36: 133-144.
    CrossRef  |  Direct Link  |  

  166. Gorla, R.S.R., A.J. Chamkha and M. Hossain, 2009. Mixed convection flow of non-Newtonian fluid from a slotted vertical surface with uniform surface heat flux. Can. J. Chem. Eng., 87: 534-540.
    CrossRef  |  Direct Link  |  

  167. Gorla, R.S.R., 2009. Heat transfer in an axisymmetric stagnation flow of a micropolar fluid on a cylinder. Trends Heat Mass Transfer, 11: 55-60.

  168. Gorla, R.S.R., 2009. Heat transfer in a laminar curved wall jet with variable normal magnetic field. Trends Heat Mass Transfer, 11: 47-54.

  169. Gorla, R.S.R. and M.A. Hossain, 2009. Natural convection flow of a non-Newtonian power-law fluid from a slotted vertical surface with uniform surface heat flux. Proc. Inst. Mech. Eng. Part C: J. Mech. Eng. Sci., 223: 637-642.
    CrossRef  |  Direct Link  |  

  170. Al-Harbi, S. and R.S.R. Gorla, 2009. Non-darcian mixed convection flow over a sphere embedded in a porous medium. Int. J. Applied Mech. Eng., 14: 321-335.
    Direct Link  |  

  171. Narayana, P.L., P.V.S.N. Murthy and R.S.R. Gorla, 2008. Soret-driven thermosolutal convection induced by inclined thermal and solutal gradients in a shallow horizontal layer of a porous medium. J. Fluid Mech., 612: 1-19.
    CrossRef  |  Direct Link  |  

  172. Mohammadein, A.A., W.A. Aissa and R.S.R. Gorla, 2008. The effect of radiation on mixed convection flow past a stretching surface. Heat Mass Transfer, 44: 1035-1040.
    CrossRef  |  Direct Link  |  

  173. Hossain, M.A., S. Ashgar and R.S.R. Gorla, 2008. Mixed convection boundary-layer flow along a vertical stretched surface with uniform surface mass transfer. Int. J. Fluid Mech. Res., 35: 326-339.
    CrossRef  |  Direct Link  |  

  174. Hossain, M.A., S. Ashgar and R.S.R. Gorla, 2008. Free convection flow and heat transfer along a heated vertical slotted surface. Int. J. Fluid Mech. Res., 35: 340-353.
    CrossRef  |  Direct Link  |  

  175. Gorla, R.S.R., T. Nallappan, L.W. Byrd and D.M. Pratt, 2008. Entropy minimization in phase change energy systems. Int. J. Fluid Mech. Res., 35: 557-569.
    CrossRef  |  Direct Link  |  

  176. Gorla, R.S.R., L.W. Byrd and D.M. Pratt, 2008. Entropy minimization in micro-scale evaporating thin liquid film in capillary tubes. Heat Mass Transfer, 45: 131-138.
    CrossRef  |  Direct Link  |  

  177. Gorla, R.S.R., 2008. Heat transfer between two vertical parallel walls partially filled with a porous medium: Use of a Brinkman-extended Darcy model. J. Porous Media, 11: 457-467.
    CrossRef  |  Direct Link  |  

  178. Gorla, R.S.R. and S.R. Gorla, 2008. Probabilistic finite element analysis of a non-gasketed flange. Int. Applied Mech., 44: 590-597.
    CrossRef  |  Direct Link  |  

  179. El-Kabeir, S.M.M., M.M.M. Abdou and R.S.R. Gorla, 2008. Hydromagnetic combined convection from a radiating vertical stretching sheet with surface mass transfer. Int. J. Fluid Mech. Res., 35: 544-556.
    CrossRef  |  Direct Link  |  

  180. El-Amin, M.F., I. Abbas and R.S.R. Gorla, 2008. Boundary layer natural convection in a fluid saturated porous medium using finite element method. Int. J. Fluid Mech. Res., 35: 445-458.
    CrossRef  |  Direct Link  |  

  181. El-Amin, M.F. and R.S.R. Gorla, 2008. Unsteady free convection in a fluid past a vertical plate immersed in a porous medium. Int. J. Fluid Mech. Res., 35: 434-444.
    CrossRef  |  Direct Link  |  

  182. Saha, L.K., M.A. Hossain and R.S.R. Gorla, 2007. Effect of Hall current on the MHD laminar natural convection flow from a vertical permeable flat plate with uniform surface temperature. Int. J. Thermal Sci., 46: 790-801.
    CrossRef  |  Direct Link  |  

  183. Mukhopadhyay, S., G.C. Layek and R.S.R. Gorla, 2007. MHD combined convection flow past a stretching surface. Int. J. Fluid Mech. Res., 34: 244-257.
    CrossRef  |  Direct Link  |  

  184. Gorla, R.S.R., L.W. Byrd and D.M. Pratt, 2007. Second law analysis for microscale flow and heat transfer. Applied Thermal Eng., 27: 1414-1423.
    CrossRef  |  Direct Link  |  

  185. Gorla, R.S.R. and V. Agrawal, 2007. Probabilistic Analysis of a turbine blade. Int. J. Turbo Jet Engines, 24: 257-267.
    CrossRef  |  Direct Link  |  

  186. Gorla, R.S.R. and O. Haddad, 2007. Finite element heat transfer and structural analysis of a eone-eylinder pressure vessel. Int. J. Applied Mech. Eng., 12: 951-963.
    Direct Link  |  

  187. Gorla, R.S.R. and D.M. Pratt, 2007. Second law analysis of a non-Newtonian laminar falling liquid film along an inclined heated plate. Entropy, 9: 30-41.
    CrossRef  |  Direct Link  |  

  188. Gorla, R.S.R. and D.M. Pratt, 2007. Probabilistic finite element analysis of a pressure vessel. Int. J. Applied Mech. Eng., 12: 951-963.
    Direct Link  |  

  189. Ghosh, N.C., B.C. Ghosh and R.S.R. Gorla, 2007. Hydromagnetic flow of a dusty viscoelastic Maxwell fluid through a rectangular channel. Int. J. Fluid Mech. Res., 34: 20-41.
    CrossRef  |  Direct Link  |  

  190. El-Kabeir, S.M.M., A.M. Rashad and R.S.R. Gorla, 2007. Unsteady MHD combined convection over a moving vertical sheet in a fluid saturated porous medium with uniform surface heat flux. Math. Comput. Modell., 46: 384-397.
    CrossRef  |  Direct Link  |  

  191. El-Kabeir, S.M.M. and R.S.R. Gorla, 2007. Variable viscosity effects on boundary layer heat transfer to a stretching sheet including viscous dissipation and internal heat generation. Int. J. Fluid Mech. Res., 34: 42-51.
    CrossRef  |  Direct Link  |  

  192. El-Kabeir, S.M.M. and R.S.R. Gorla, 2007. MHD effects on natural convection in a micropolar fluid at a three-dimensional stagnation point in a porous medium. Int. J. Fluid Mech. Res., 34: 145-158.
    CrossRef  |  Direct Link  |  

  193. El-Amin, M.F., I. Abbas and R.S.R. Gorla, 2007. Effects of thermal radiation on natural convection in a porous medium. Int. J. Fluid Mech. Res., 34: 129-144.
    CrossRef  |  Direct Link  |  

  194. Das, S.K., A.S. Warke and R.S.R. Gorla, 2007. Qualitative study to assess the effect of a subsurface barrier on contaminant transport in groundwater: Computation of moments. Int. J. Fluid Mech. Res., 34: 210-223.
    CrossRef  |  Direct Link  |  

  195. Abdou, M.M.M., S.M.M. El-Kabeir and R.S.R. Gorla, 2007. Effect of mixed thermal boundary conditions and magnetic field on free convection flow about a cone in micropolar fluids. Int. J. Fluid Mech. Res., 34: 387-402.
    CrossRef  |  Direct Link  |  

  196. Takhar, H.S., R.S.R. Gorla and M.A. Halim, 2006. Momentum and heat transfer in a buoyant turbulent swirling jet. Int. J. Fluid Mech. Res., 33: 230-245.
    CrossRef  |  Direct Link  |  

  197. Hossain, M.A., S. Bhowmick and R.S.R. Gorla, 2006. Unsteady mixed-convection boundary layer flow along a symmetric wedge with variable surface temperature. Int. J. Eng. Sci., 44: 607-620.
    CrossRef  |  Direct Link  |  

  198. Hossain, A. and R.S.R. Gorla, 2006. Effect of viscous dissipation on mixed convection flow of water near its density maximum in a rectangular enclosure with isothermal wall. Int. J. Numer. Methods Heat Fluid Flow, 16: 5-17.
    CrossRef  |  Direct Link  |  

  199. Gorla, R.S.R., H.S. Takhar and A.J. Chamkha, 2006. Mixed convection boundary layer flow of a micropolar fluid along a vertical cylinder. Int. J. Fluid Mech. Res., 33: 211-229.
    CrossRef  |  Direct Link  |  

  200. Gorla, R.S.R., 2006. Numerical investigation of unsteady flow in turbomachinery. Int. J. Turbo Jet-Engines, 23: 1-14.

  201. El-Amin, M.F., M.A. El-Hakiem and R.S.R. Gorla, 2006. MHD free convection of a large prandtl number liquid over a non-isothermal two-dimensional body. Int. J. Fluid Mech. Res., 33: 153-167.

  202. El-Amin, M.E., M.A. El-Hakiem and R.S.R. Gorla, 2006. MHD free convection of a large prandtl number liquid over a non-isothermal two dimensional body. Int. J. Fluid Mech. Res., 33: 153-167.

  203. Takhar, H.S., A.J. Chamka and R.S.R. Gorla, 2005. Combined convection radiation interaction along a vertical flat plate in a porous medium. Int. J. Fluid Mech. Res., 32: 139-156.

  204. Molla, M.M., M.A. Hossain and R.S.R. Gorla, 2005. Natural convection flow from an isothermal horizontal circular cylinder with temperature dependent viscosity. Heat Mass Transfer, 41: 594-598.
    CrossRef  |  Direct Link  |  

  205. Layek, G.C., S. Mukhopadhyay and R.S.R. Gorla, 2005. Stagnation point flow towards a heated stretching sheet with variable fluid viscosity. Int. J. Fluid Mech. Res., 32: 538-548.
    CrossRef  |  

  206. Hossain, A., S.C. Saha and R.S.R. Gorla, 2005. Viscous dissipation effects on natural convection from a vertical plate with uniform surface heat flux placed in a thermally stratified media. Int. J. Fluid Mech. Res., 32: 269-280.

  207. Gorla, R.S.R., L. Byrd, D. Kost and B. Ghorashi, 2005. Rupture of thin liquid films utilizing binary fluid mixtures. Int. J. Fluid Mech. Res., 32: 662-674.
    CrossRef  |  Direct Link  |  

  208. Gorla, R.S.R., 2005. Unsteady fluid structure interaction in turbomachinery. Int. J. Turbo Jet Engines, 22: 121-138.
    Direct Link  |  

  209. Gorla, R.S.R., 2005. Probabilistic heat transfer and structural analysis of a turbine blade. Int. J. Turbo Jet Engines, 22: 1-12.

  210. Gorla, R.S.R. and N.R. Gorla, 2005. Probabilistic finite element analysis in heat transfer. Int. J. Comput. Methods Eng. Sci. Mech., 6: 77-83.
    CrossRef  |  Direct Link  |  

  211. El-Kholy, S.A. and R.S.R. Gorla, 2005. Influence of magnetic field on the onset of convection in a porous medium. Int. J. Fluid Mech. Res., 32: 528-537.

  212. El-Amin, M.F. and R.S.R. Gorla, 2005. Non-darcy free convection of power-law fluids over a two-dimensional body embedded in a porous medium. Int. J. Fluid Mech. Res., 32: 21-38.

  213. Salem, A. and R.S.R. Gorla, 2004. Probabilistic finite element thermal analysis applied to a water tank design. Int. J. Fluid Mech. Res., 31: 131-142.
    CrossRef  |  

  214. Molla, M.M., A. Hossain and R.S.R. Gorla, 2004. Conjugate effect on heat and mass transfer in natural convection flow from an isothermal sphere with chemical reaction. Int. J. Fluid Mech. Res., 31: 319-331.

  215. Hassanien, I.A., N.M. Moursy and R.S.R. Gorla, 2004. Mixed convection flow of micropolar fluid on a horizontal plate moving in parallel to a free stream. Int. J. Fluid Mech. Res., 31: 417-429.
    CrossRef  |  Direct Link  |  

  216. Gorla, R.S.R., 2004. Probabilistic heat transfer and structural analysis in a turbine blade. Int. J. Turbo Jet Engines, 21: 115-125.

  217. Gorla, R.S.R., 2004. Probabilistic finite element analysis in heat transfer to a nuclear fuel rod bumper support. Proc. Inst. Mech. Eng. Part C J. Mech. Eng. Sci., 218: 1499-1505.
    CrossRef  |  Direct Link  |  

  218. Gorla, R.S.R., 2004. Probabilistic analysis of solid oxide fuel cell based hybrid gas turbine system. Applied Energy J., 78: 63-74.

  219. Gorla, R.S.R. and M. Kumari, 2004. Nonsimilar solutions for free convection in Non-Newtonian fluids along a horizontal plate in a porous medium. Int. J. Fluid Mech. Res., 31: 116-130.
    CrossRef  |  

  220. Gorla, M.S.R. and R.S.R. Gorla, 2004. Rheological effects on tear film rupture. Int. J. Fluid Mech. Res., 31: 552-562.
    CrossRef  |  Direct Link  |  

  221. Mohammadein, S. and R.S.R. Gorla, 2003. The growth of vapor bubble and relaxation between two-phase bubble flow. Heat Mass Transfer J., 39: 97-100.
    CrossRef  |  Direct Link  |  

  222. Hassanien, I.A. and R.S.R. Gorla, 2003. Nonsimilar solutions for natural convection in micropolar fluids on a vertical plate. Int. J. Fluid Mech. Res., 30: 381-394.
    CrossRef  |  

  223. Gorla, R.S.R., T.S. Reddy, D.R. Reddy and A.P. Kurkov, 2003. Gust response analysis of a turbine cascade. Int. J. Turbo Jet Engines, 20: 115-124.

  224. Gorla, R.S.R., S. Viswanadham and L. Byrd, 2003. Heat transfer in thin liquid films utilizing binary fluid mixtures. Int. J. Fluid Mech. Res., 30: 473-484.

  225. Gorla, R.S.R., 2003. Unsteady mixed convection due to time-dependent free stream velocity. Heat Mass Transfer, 39: 639-644.
    CrossRef  |  Direct Link  |  

  226. Gorla, R.S.R., 2003. Probabilistic analysis of gas turbine field performance. Int. J. Turbo Jet Engines, 20: 133-140.

  227. Gorla, R.S.R., 2003. Probabilistic analysis in fluid/structure interaction. Int. J. Eng. Sci., 41: 271-282.

  228. Gorla, R.S.R. and N. Gorla, 2003. Probabilistic finite element analysis in fluid mechanics. Int. J. Numer. Methods Heat Fluid Flow, 13: 849-861.
    CrossRef  |  Direct Link  |  

  229. Gorla, R.S.R. and M. Kumari, 2003. Free convection in Non-Newtonian fluids along a horizontal plate in a porous medium. Heat Mass Transfer J., 39: 101-106.
    CrossRef  |  Direct Link  |  

  230. Gorla, R.S.R. and E.W. Turner, 2003. Three dimensional navier-stokes analysis of a rigid wing configuration. Int. J. Turbo Jet Engines, 20: 125-132.

  231. Hossain, M.A., M.S. Munir and R.S.R. Gorla, 2002. Combined convection from a vertical flat plate with temperature dependent viscosity and thermal conductivity. Int. J. Fluid Mech. Res., 29: 725-741.

  232. Gorla, R.S.R., E.N. Poulos and L.W. Byrd, 2002. Effect of electrostatic field on rupture of thin power-law liquid film. Int. J. Fluid Mech. Res., 29: 714-724.
    CrossRef  |  

  233. Gorla, R.S.R., 2002. Heat transfer in thin liquid film in the presence of electric field for non-isothermal interfacial condition. Int. J. Fluid Mech. Res., 29: 146-157.

  234. Gorla, R.S.R. and K. Nashery, 2002. The contributions of microrotation of lubricant molecules in a thin film journal bearing. Acta Mech., 158: 185-198.
    CrossRef  |  Direct Link  |  

  235. Mohammadien, A.A., M. Modather, A. Salem and R.S.R. Gorla, 2001. Mixed convection flow of a micropolar fluid on a moving heated horizontal plate. ZAMM‐J. Applied Math. Mechanics/Zeitschrift fur Angewandte Mathematik und Mechanik, 81: 549-557.
    CrossRef  |  Direct Link  |  

  236. Mohammadein, A.A. and R.S.R. Gorla, 2001. Heat transfer in a micropolar fluid over a stretching sheet with viscous dissipation and internal heat generation. Int. J. Numer. Methods for Heat Fluid Flow, 11: 50-58.
    CrossRef  |  Direct Link  |  

  237. Mansour, M.A. and R.S.R. Gorla, 2001. Combined thermal and diffusion buoyancy effects in micropolar fluids. Int. J. Applied Mech. Eng., 6: 551-572.

  238. Gorla, R.S.R., A. Salem, M.A. Mansour and H.M. El-Hawary, 2001. Chebyshev approximation for heat transfer in an axisymmetric stagnation flow on a cylinder. Proc. Int. Symp. Adv. Comput. Heat Transfer, 2: 559-566.

  239. Gorla, R.S.R., 2001. Unsteady heat transfer due to time-dependent free stream velocity. Proc. Int. Symp. Adv. Comput. Heat Transfer, 2: 681-688.

  240. Gorla, R.S.R., 2001. Rupture of thin power-law liquid film on a cylinder. J. Applied Mech., 68: 294-297.
    CrossRef  |  

  241. Gorla, R.S.R. and L.W. Byrd, 2001. Effect of electrostatic field on rupture of thin liquid film on a cylinder. Int. J. Applied Mech. Eng., 6: 151-164.

  242. Gorla, R.S.R. and A.P. Kurkov, 2001. Gust response analysis of a turbine cascade. Int. Forum Aeroelasticity Struct. Dynam., 3: 65-76.

  243. Mansour, M.A. and R.S.R. Gorla, 2000. Thermal dispersion effects on non-Darcy natural convection with internal heat generation. Chem. Eng. Commun., 177: 177-181.
    CrossRef  |  Direct Link  |  

  244. Mansour, M.A. and R.S.R. Gorla, 2000. Radiative effects on MHD natural convection flows. J. MHD Plasma Res., 9: 175-196.

  245. Mansour, M.A. and R.S.R. Gorla, 2000. MHD natural convection radiation interaction from a vertical plate embedded in a porous medium. J. MHD Plasma Res., 9: 197-228.

  246. Mansour, M.A. and R.S.R. Gorla, 2000. MHD free convective flow of a micropolar fluid over a vertical plate. J. MHD Plasma Space Res., 9: 89-106.

  247. Mansour, M.A. and R.S.R. Gorla, 2000. Combined convection in non-Newtonian fluids along a nonisothermal vertical plate in a porous medium. Int. J. Numerical Methods Heat Fluid Flow, 10: 163-179.
    CrossRef  |  Direct Link  |  

  248. Ibrahim, F.S., S.M. Abdel-Gaid and R.S.R. Gorla, 2000. Non-Darcy mixed convection flow along a vertical plate embedded in a non-Newtonian fluid saturated porous medium with surface mass transfer. Int. J. Numerical Methods Heat Fluid Flow, 10: 397-408.
    CrossRef  |  Direct Link  |  

  249. Gorla, R.S.R., 2000. Transient conjugate forced convection and conduction in a circular pin under radiative effect. Applied Mech. Eng., 5: 579-591.

  250. Gorla, R.S.R. and M. Kumari, 2000. Nonsimilar solutions for mixed convection in non- newtonian fluids along a wedge with variable surface heat flux in a porous medium. J. Porous Media, 3: 181-184.

  251. Gorla, R.S.R. and L.W. Byrd, 2000. Rupture of thin micropolar liquid film on a cylinder. Chem. Eng. Commun., 182: 35-48.
    CrossRef  |  Direct Link  |  

  252. Gorla, M.S.R. and R.S.R. Gorla, 2000. Nonlinear theory of tear film rupture. J. Biomechanical Eng., 122: 498-503.
    CrossRef  |  Direct Link  |  

  253. El-Hakiem, M.A., S.M.M. El-Kabeir and R.S.R. Gorla, 2000. Natural convection from combined thermal and mass diffusion buoyancy effects in micropolar fluids. Int. J. Fluid Mech. Res., 27: 1-20.

  254. Mansour, M.A., A.A. Mohammadein, S.M. El-Kabeir and R.S.R. Gorla, 1999. Heat transfer from moving surfaces in a micropolar fluid. Can. J. Phys., 77: 463-471.
    CrossRef  |  Direct Link  |  

  255. Mansour, M.A. and R.S.R. Gorla, 1999. Radiative effects in natural convection flows. Int. J. Thermal Sci., 38: 664-673.
    CrossRef  |  Direct Link  |  

  256. Mansour, M.A. and R.S.R. Gorla, 1999. Radiative and variable viscosity effects on a free convection flow over a vertical stretching surface. Applied Mech. Eng., 4: 191-201.

  257. Mansour, M.A. and R.S.R. Gorla, 1999. Nonsimilar boundary layer solutions for mixed convection in non-Newtonian fluids along a vertical plate in a porous medium. Applied Mech. Eng., 4: 715-726.
    Direct Link  |  

  258. Mansour, M.A. and R.S.R. Gorla, 1999. Micropolar fluid flow past a continuously moving plate in the presence of magnetic field. Applied Mech. Eng., 4: 663-672.

  259. Mansour, M.A. and R.S.R. Gorla, 1999. MHD mixed convection boundary layer flow of a micropolar fluid from a horizontal cylinder. Applied Mech. Eng., 4: 649-662.
    Direct Link  |  

  260. Mansour, M.A. and R.S.R. Gorla, 1999. Joule heating effects on unsteady natural convection from a heated vertical plate in a micropolar fluid. Can. J. Phys., 77: 1-8.

  261. Hossain, M.A., M.K. Chowdhury and R.S.R. Gorla, 1999. Natural convection of thermomicropolar fluid from an isothermal surface inclined at a small angle to the horizontal. Int. J. Numerical Methods Heat Fluid Flow, 9: 814-832.
    CrossRef  |  Direct Link  |  

  262. Hossain, M.A., M.K. Chowdhury and R.S.R. Gorla, 1999. Free convection flow of thermomicropolar fluid along a vertical plate with nonuniform surface temperature and surface heat flux. Int. J. Numerical Methods Heat Fluid Flow, 9: 568-585.
    CrossRef  |  Direct Link  |  

  263. Hassanien, I.A., A. Shamardan, N.M. Moursy and R.S.R. Gorla, 1999. Flow and heat transfer in the boundary layer of a micropolar fluid on a continuous moving surface. Int. J. Numerical Methods Heat Fluid Flow, 9: 643-659.
    CrossRef  |  Direct Link  |  

  264. Gorla, R.S.R., M.A. Mansour, I.A. Hassanien and A.Y. Bakier, 1999. Mixed convection effect on melting from a vertical plate in a porous medium. Trans. Porous Media, 36: 245-254.
    CrossRef  |  Direct Link  |  

  265. Gorla, R.S.R., M.A. Mansour and M.G. Sahar, 1999. Natural convection from a vertical plate in a porous medium using Brinkman's model. Transp. Porous Media, 36: 357-371.
    CrossRef  |  Direct Link  |  

  266. Gorla, R.S.R., E.N. Poulos and L.W. Byrd, 1999. Effect of electrostatic field on rupture of thin micropolar liquid film. Int. J. Fluid Mech. Res., 26: 425-436.

  267. Gorla, R.S.R. and M. Kumari, 1999. Nonsimilar solutions for mixed convection in non-Newtonian fluids along a wedge with variable surface temperature in a porous medium. Int. J. Numerical Methods For Heat Fluid Flow, 9: 601-611.
    CrossRef  |  Direct Link  |  

  268. Gorla, R.S.R. and M. Kumari, 1999. Nonsimilar solutions for free convection in non-Newtonian fluids along a vertical plate in a porous medium. Int. J. Numerical Methods Heat Fluid Flow, 9: 847-859.
    CrossRef  |  Direct Link  |  

  269. Gorla, R.S.R. and M. Kumari, 1999. Mixed convection in non-Newtonian fluids along a vertical plate with variable surface heat flux in a porous medium. Heat Mass Transfer, 35: 221-227.
    CrossRef  |  Direct Link  |  

  270. Gorla, R.S.R. and L.W. Byrd, 1999. Effect of electrostatic field on film rupture. J. Fluids Eng., 121: 651-655.
    CrossRef  |  Direct Link  |  

  271. El-Hakiem, M.A., A.A. Mohammadein, S.M.M. El-Kabeir and R.S.R. Gorla, 1999. Joule heating effects on magnetohydrodynamic free convection flow of a micropolar fluid. Int. Commun. Heat Mass Transfer, 26: 219-227.
    CrossRef  |  Direct Link  |  

  272. El-Hakiem, M.A., A.A. Mohammadein, M.A. Mansour and R.S.R. Gorla, 1999. Heat transfer from a stretching surface in a micropolar fluid. Applied Mech. Eng., 4: 25-34.

  273. El-Hakiem, M.A. and R.S.R. Gorla, 1999. Natural convection in a micropolar fluid with internal heat generation and viscous dissipation. Applied Mech. Eng., 4: 789-799.

  274. Pop, I., R.S.R. Gorla, D.A.S. Rees and H.S. Takhar, 1998. Convective wall plume in micropolar fluids. ZAMM, 78: 431-437.
    CrossRef  |  Direct Link  |  

  275. Mohammadein, A.A., S.M. El-Kabeir and R.S.R. Gorla, 1998. Variable viscosity effects on natural convection in micropolar fluid at an axisymetric stagnation point. Applied Mech. Eng., 3: 539-552.
    Direct Link  |  

  276. Mohammadein, A.A., S.M. El Kabeir, M.A. El-Hakiem and R.S.R. Gorla, 1998. Hiemenz flow of a micropolar fluid in hydromagnetics. Applied Mech. Eng., 3: 367-376.
    Direct Link  |  

  277. Mohammadein, A.A., M.A. Mansour, S.M.A. El Gaied and R.S.R. Gorla, 1998. Radiative effect on natural convection flows in porous media. Trans. Porous Media, 32: 263-283.
    CrossRef  |  Direct Link  |  

  278. Mansour, M.A. and R.S.R. Gorla, 1998. Mixed convection-radiation interaction in power-law fluids along a nonisothermal wedge embedded in a porous medium. Trans. Porous Media, 30: 113-124.
    CrossRef  |  Direct Link  |  

  279. Hassanien, I.A., R.S.R. Gorla and A.A. Mohammadein, 1998. Boundary layer heat transfer in a micropolar fluid over a flat plate with vectored surface mass transfer. Applied Mech. Eng., 3: 25-37.
    Direct Link  |  

  280. Hassanien, I.A., F.S. Ibrahim and R.S.R. Gorla, 1998. Mixed convection boundary layer flow of a micropolar fluid on a horizontal plate. Chem. Eng. Commun., 170: 117-131.
    CrossRef  |  Direct Link  |  

  281. Hassanien, I.A., A.Y. Bakier and R.S.R. Gorla, 1998. Effects of thermal dispersion and stratification on non-Darcy mixed convection from a vertical plate in a porous medium. Heat Mass Transfer, 34: 209-212.
    CrossRef  |  Direct Link  |  

  282. Hassanien, I.A., A.A. Abdullah and R.S.R. Gorla, 1998. Numerical solutions for heat transfer in a micropolar fluid over a stretching sheet. Applied Mech. Eng., 3: 377-391.
    Direct Link  |  

  283. Hassanien, I.A., A.A. Abdullah and R.S.R. Gorla, 1998. Flow and heat transfer in a power-law fluid over a nonisothermal stretching sheet. Math. Comput. Modell., 28: 105-116.
    CrossRef  |  Direct Link  |  

  284. Hassanien, I.A. and R.S.R. Gorla, 1998. Nonsimilar solutions for free convection from a nonisothermal vertical plate in a micropolar fluid. Int. J. Numer. Methods Heat Fluid Flow, 8: 369-380.
    CrossRef  |  Direct Link  |  

  285. Hady, F.M. and R.S.R. Gorla, 1998. Heat transfer from a continuous surface in a parallel free stream of viscoelastic fluid. Acta Mechanica, 128: 201-208.
    CrossRef  |  Direct Link  |  

  286. Gorla, R.S.R., M.S. Canter and P.J. Pallone, 1998. Variational approach to unsteady flow and heat transfer in a channel. Heat Mass Transfer, 33: 439-442.
    CrossRef  |  Direct Link  |  

  287. Gorla, R.S.R., M.A. Mansour and H.M. El-Hawary, 1998. Thermal radiation effects on boundary layer flow on a continuous porous flat surface. Applied Mech. Eng., 3: 205-216.
    Direct Link  |  

  288. Gorla, R.S.R., K. Shanmugam and M. Kumari, 1998. Mixed convection in non-Newtonian fluids along nonisothermal horizontal surfaces in porous media. Heat Mass Transfer, 33: 281-286.
    CrossRef  |  Direct Link  |  

  289. Gorla, R.S.R., H.S. Takhar and A. Slaouti, 1998. Magnetohydrodynamic free convection boundary layer flow of a thermomicropolar fluid over a vertical plate. Int. J. Eng. Sci., 36: 315-327.
    CrossRef  |  Direct Link  |  

  290. Gorla, R.S.R., D.E. Abboud and A. Sarmah, 1998. Magnetohydrodynamic flow over a vertical stretching surface with suction and blowing. Heat Mass Transfer, 34: 121-125.
    CrossRef  |  Direct Link  |  

  291. Gorla, R.S.R., A. Slaouti and H.S. Takhar, 1998. Free convection in micropolar fluids over a uniformly heated vertical plate. Int. J. Numerical Methods Heat Fluid Flow, 8: 504-518.
    CrossRef  |  Direct Link  |  

  292. Gorla, R.S.R. and M. Kumari, 1998. Nonsimilar solutions for mixed convection in non‐newtonian fluids along a vertical plate in a porous medium. Trans. Porous Media, 33: 295-307.
    CrossRef  |  Direct Link  |  

  293. Shook, T.D. and R.S.R. Gorla, 1997. Finite element analysis and redesign of a compressor hub spinner. Finite Elem. Anal. Des., 28: 19-31.
    CrossRef  |  Direct Link  |  

  294. Mohammadien, A. and R.S.R. Gorla, 1997. Transient free convection in micropolar fluids from an isothermal horizontal circular cylinder. J. Theoret. Applied Fluid Mech., 1: 117-128.

  295. Mansour, M.A., M.A. El-Hakiem, S.A. El-Gaid and R.S.R. Gorla, 1997. Mixed convection in non-Newtonian fluids along an isothermal vertical cylinder in a porous medium. Transp. Porous Media, 28: 307-317.
    CrossRef  |  Direct Link  |  

  296. Mansour, M.A., H.M. El-Hawary and R.S.R. Gorla, 1997. Chebyshev approximation for heat transfer from a semi-infinitely large porous plate in a viscoelastic fluid. Applied Mech. Eng. J., 2: 107-116.

  297. Kumari, M., R.S.R. Gorla and L. Byrd, 1997. Mixed convection in non-Newtonian fluids along a horizontal plate in a porous medium. J. Energy Resour. Technol., 119: 34-37.
    CrossRef  |  Direct Link  |  

  298. Kumari, M. and R.S.R. Gorla, 1997. Combined convection along a non-isothermal wedge in a porous medium. Heat Mass Transfer, 32: 393-398.
    CrossRef  |  Direct Link  |  

  299. Hassanien, I.A., A.Y. Bakier and R.S.R. Gorla, 1997. Natural convection boundary layer flow of a micropolar fluid. ZAMM-J. Applied Math. Mech., 77: 751-755.
    CrossRef  |  Direct Link  |  

  300. Gorla, R.S.R., K. Shanmugam and M. Kumari, 1997. Nonsimilar solutions for mixed convection in non-Newtonian fluids along horizontal surfaces in porous media. Transp. Porous Media, 28: 319-334.
    CrossRef  |  Direct Link  |  

  301. Gorla, R.S.R., K. Ramalingam and I. Adluri, 1997. Magnetohydrodynamic disk braking. Applied Mech. Eng. J., 2: 341-352.

  302. Gorla, R.S.R., C. Page and H.S. Takhar, 1997. A nonsimilar micropolar boundary layer on a moving wall. Theoret. Applied Fluid Mech. J., 1: 264-278.

  303. Gorla, R.S.R., A. Slaouti and H.S. Takhar, 1997. Mixed convection in non-Newtonian fluids along a vertical plate in porous media with surface mass transfer. Int. J. Numer. Methods Heat Fluid Flow, 7: 598-608.
    CrossRef  |  Direct Link  |  

  304. Gorla, R.S.R., 1997. Finite element analysis of a flat plate solar collector. Finite Elem. Anal. Des., 24: 283-290.
    CrossRef  |  Direct Link  |  

  305. Gorla, R.S.R. and M. Kumari, 1997. Combined convection in power-law fluids along a vertical wedge embedded in a porous medium. J. Applied Mech. Eng., 2: 457-473.

  306. Bakier, A.Y., M.A. Mansour, R.S.R. Gorla and A.B. Ebiana, 1997. Nonsimilar solutions for free convection from a vertical plate in porous media. Heat Mass Transfer, 33: 145-148.
    CrossRef  |  Direct Link  |  

  307. Takhar, H.S., R.S.R. Gorla and V.M. Soundalgekar, 1996. Short communication radiation effects on MHD free convection flow of a gas past a semi-infinite vertical plate. Int. J. Numer. Methods Heat Fluid Flow, 6: 77-83.
    CrossRef  |  Direct Link  |  

  308. Mohammedien, A.A., R.S.R. Gorla and I.A. Hassanien, 1996. Mixed convection in an axisymmetric stagnation flow of micropolar fluid on a vertical cylinder. Acta Mech. J., 114: 139-149.
    CrossRef  |  Direct Link  |  

  309. Mohammadein, A.A., M. El Hakiem and R.S.R. Gorla, 1996. Effect of a transverse magnetic field on natural convection in micropolar fluids. J. Applied Mech. Eng., 1: 337-353.

  310. Mohammadein, A.A. and R.S.R. Gorla, 1996. Effects of transverse magnetic field on mixed convection in a micropolar fluid on a horizontal plate with vectored mass transfer. Acta Mechanica, 118: 1-12.
    CrossRef  |  Direct Link  |  

  311. Kumari, M. and R.S.R. Gorla, 1996. Combined convection in power-law fluids along a nonisothermal vertical plate in a porous medium. Transp. Porous Media, 24: 157-166.
    CrossRef  |  Direct Link  |  

  312. Hassanien, I.A., A.Y. Bakier and R.S.R. Gorla, 1996. Natural convection boundary layer flow of a micropolar fluid along a vertical plate in a thermally stratified medium. J. Applied Mech. Eng., 1: 381-395.

  313. Hady, F.M., A.Y. Bakier and R.S.R. Gorla, 1996. Mixed convection boundary layer flow on a continuous flat plate with variable viscosity. Heat Mass Trans., 31: 169-172.
    CrossRef  |  

  314. Gorla, R.S.R., M.A. Mansour and H.M. El-Hawary, 1996. Chebyshev approximation for a laminar boundary layer of a power-law fluid in a transverse magnetic field. Dev. Theoret. Applied Mech., 18: 1-7.

  315. Gorla, R.S.R., M.A. Mansour and A.A. Mohammedien, 1996. Combined convection in an axisymmetric stagnation flow of micropolar fluid. Int. J. Numer. Methods Heat Fluid Flow, 6: 47-56.
    CrossRef  |  Direct Link  |  

  316. Gorla, R.S.R., A.Y. Bakier and L. Byrd, 1996. Effects of thermal dispersion and stratification on combined convection on a vertical surface embedded in a porous medium. Transp. Porous Media, 25: 275-282.
    CrossRef  |  Direct Link  |  

  317. Gorla, R.S.R., 1996. A nonsimilar boundary layer on a moving wall. Heat Mass Transfer, 31: 237-241.
    CrossRef  |  Direct Link  |  

  318. Gorla, R.S.R. and T.A. Bartrand, 1996. Couette flow heat loss model for the rotary combustion engine. Proc. Inst. Mech. Eng. Part C: J. Mech. Eng. Sci., 210: 587-596.
    CrossRef  |  Direct Link  |  

  319. Gorla, R.S.R. and P. Gorla, 1996. Unsteady planar stagnation point heat transfer in micropolar fluids. Can. J. Phys., 74: 77-80.
    CrossRef  |  Direct Link  |  

  320. Gorla, R.S.R. and P. Gorla, 1996. Unsteady axisymmetric stagnation point heat transfer in micropolar fluids. J. Theoret. Applied Fluid Mech., 1: 218-227.

  321. Gorla, R.S.R. and M. Kumari, 1996. Mixed convection in non-Newtonian fluids along a vertical plate in a porous medium. Acta Mechanica, 118: 55-64.
    CrossRef  |  Direct Link  |  

  322. Gorla, R.S.R. and E.W. Turner, 1996. Three dimensional navier-stokes analysis of a rigid wing configuration. Adv. Fluids, 9: 71-81.

  323. Bakier, A.Y. and R.S.R. Gorla, 1996. Thermal radiation effect on mixed convection from horizontal surfaces in saturated porous media. Transp. Porous Media, 23: 357-363.
    CrossRef  |  Direct Link  |  

  324. Gorla, R.S.R., W. Dakappagari and I. Pop, 1995. Three-dimensional flow of a power-law fluid due to a stretching flat surface. Zeitschrift Fur Angewandte Mathematik und Mechanik, 75: 389-394.
    CrossRef  |  Direct Link  |  

  325. Gorla, R.S.R., V. Dakappagari and I. Pop, 1995. Stretching a surface in a rotating power-law fluid. J. Applied Math. Mech., 75: 875-878.
    CrossRef  |  Direct Link  |  

  326. Gorla, R.S.R., K. Ramalingam and I. Adluri, 1995. Magnetohydrodynamic braking. J. Tribol., 117: 724-728.
    CrossRef  |  

  327. Gorla, R.S.R., H.S. Takhar, A. Slaouti, I. Pop, M. Kumari, 1995. Free convection in power-law fluids near a three-dimensional stagnation point. Int. J. Heat Fluid Flow, 16: 62-68.
    CrossRef  |  

  328. Gorla, R.S.R., A.A. Mohammedien, M.A. Mansour and I.A. Hassanien, 1995. Unsteady natural convection from a heated vertical plate in micropolar fluid. Numer. Heat Transfer J., 28: 253-262.
    CrossRef  |  Direct Link  |  

  329. Gorla, R.S.R., 1995. Unsteady mixed convection in micropolar boundary layer flow on a vertical plate. Int. J. Fluid Dynam. Res., 15: 237-250.

  330. Gorla, R.S.R., 1995. Nonsimilar solutions for heat transfer in wall jet flows. Chem. Eng. Commun., 140: 139-156.
    CrossRef  |  Direct Link  |  

  331. Gorla, R.S.R., 1995. Mixed convection boundary layer flow of a micropolar fluid on a horizontal plate. Acta Mech. J., 108: 101-119.
    CrossRef  |  Direct Link  |  

  332. Gorla, R.S.R. and S. Nakamura, 1995. Mixed convection of a micropolar fluid from a rotating cone. Int. J. Heat Fluid Flow, 16: 69-73.
    CrossRef  |  Direct Link  |  

  333. Mohammedien, A.A., I.A. Hassanien and R.S.R. Gorla, 1994. Mixed convection boundary layer flow of a micropolar fluid on a horizontal plate with vectored mass transfer. Warme-und Stoffubertragung J., 29: 235-241.
    CrossRef  |  Direct Link  |  

  334. Lee, J.K., R.S.R. Gorla, S. Nakamura and I. Pop, 1994. Mixed convection wall plumes in power-law fluid. Acta Mech. J., 102: 47-58.

  335. Hassanien, I.A., M.A. Mansour and R.S.R. Gorla, 1994. Combined convection on a vertical slender cylinder in a micropolar fluid. Warme-und Stoffubertragung, 29: 355-359.
    Direct Link  |  

  336. Gorla, R.S.R., V. Krishnan and I. Pop, 1994. Natural convection flow of a power-law fluid over a vertical frustum of a cone under uniform heat flux conditions. Mech. Res. Commun., 21: 139-146.
    Direct Link  |  

  337. Gorla, R.S.R., V. Krishnan and I. Pop, 1994. Free convection of a power-law fluid over the vertical frustum of a cone. Int. J. Eng. Sci., 32: 1791-1800.
    Direct Link  |  

  338. Gorla, R.S.R., 1994. Heat transfer in a laminar cylindrical wall jet with uniform surface heat flux. Chem. Eng. Commun., 130: 167-179.
    Direct Link  |  

  339. Gorla, R.S.R. and I. Sidawi, 1994. Free convection on a vertical stretching surface with suction and blowing. Applied Scient. Res., 52: 247-257.
    CrossRef  |  Direct Link  |  

  340. Gorla, R.S.R. and H.S. Takhar, 1994. Boundary layer flow of micropolar fluid on rotating axisymmetric surfaces with a concentrated heat source. Acta Mechanica, 105: 1-10.
    CrossRef  |  Direct Link  |  

  341. Pop, I., J.K. Lee and R.S.R. Gorla, 1993. Convective wall plume in power-law fluids. Int. J. Heat Mass Transfer, 36: 593-597.
    CrossRef  |  Direct Link  |  

  342. Nakamura, S., R.S.R. Gorla and I. Pop, 1993. Free convection similarity solutions of a non-Newtonian fluid on a horizontal surface. Math. Modell. Sci. Comput., 2: 1243-1248.

  343. Lee, J.K., R.S.R. Gorla, S. Nakamura and I. Pop, 1993. Mixed convection wall plumes in power-law fluids. Acta Mech. J., 99: 113-123.

  344. Gorla, R.S.R., V. Dakappagari and I. Pop, 1993. Boundary layer flow at a three-dimensional stagnation point in power-law non-Newtonian fluids. Int. J. Heat Fluid Flow, 14: 408-412.
    CrossRef  |  Direct Link  |  

  345. Gorla, R.S.R., J.K. Lee, S. Nakamura and I. Pop, 1993. Effects of transverse magnetic field on mixed convection in wall plume of powerlaw fluids. Int. J. Eng. Sci., 31: 1035-1045.
    CrossRef  |  Direct Link  |  

  346. Gorla, R.S.R., 1993. Combined forced and free convection in an axisymmetric stagnation flow on a vertical non-isothermal cylinder. Warme-und Stoffubertragung J., 28: 153-157.
    CrossRef  |  Direct Link  |  

  347. Gorla, R.S.R. and S. Nakamura, 1993. Mixed convection from a rotating cone to micropolar fluids. Math Model. Scient. Comput., 2: 1249-1254.

  348. Wangskarn, P., B. Ghorashi and R.S.R. Gorla, 1992. Hydrodynamic entrance length for the turbulent-flow of a non-newtonian fluid. Int. J. Eng. Fluid Mech., 5: 99-114.

  349. Pop, I., R.S.R. Gorla and M. Rashidi, 1992. The effect of variable viscosity on flow and heat transfer to a continuous moving flat plate. Int. J. Eng. Sci., 30: 1-6.
    CrossRef  |  Direct Link  |  

  350. Pop, I., M. Rashidi and R.S.R. Gorla, 1992. Mixed convection to power-law type non-newtonian fluids from a vertical wall. Int. J. Eng. Fluids Mech., 5: 197-212.

  351. Lee, J.K., R.S.R. Gorla and I. Pop, 1992. Second-order correction for convective wall plume in power-law fluids over an isothermal wall. Polymer-Plastics Technol. Eng., 31: 157-175.
    CrossRef  |  Direct Link  |  

  352. Lee, J.K., R.S.R. Gorla and I. Pop, 1992. Natural convection to power-law fluids from a heated vertical plate in a stratified environment. Int. J. Heat Fluid Flow, 13: 259-265.
    CrossRef  |  Direct Link  |  

  353. Gorla, R.S.R., I. Pop and J.K. Lee, 1992. Convective wall plume in power-law fluid: Second-order correction for the adiabatic wall. Warme-und Stoffubertragung J., 27: 473-479.
    CrossRef  |  Direct Link  |  

  354. Gorla, R.S.R., 1992. The effects of uniform suction on the magnetohydrodynamic flow over a rotating-disk. Int. J. Eng. Fluid Mech., 5: 413-433.

  355. Gorla, R.S.R., 1992. The effects of suction on the mhd flow over a rotating disc. J. Eng. Fluid Mech., 5: 413-434.

  356. Gorla, R.S.R., 1992. Mixed convection in a micropolar fluid from a vertical surface with uniform heat flux. Int. J. Eng. Sci., 30: 349-358.
    CrossRef  |  Direct Link  |  

  357. Gorla, R.S.R., 1992. Microstructure effects on the conjugate combined convective and conductive heat transfer along a vertical circular pin. AIAA J. Thermophys. Heat Transfer, 6: 160-162.

  358. Gorla, R.S.R., 1992. Heat transfer from a continuous surface to a non-Newtonian fluid. Polymer-Plastics Technol. Eng., 31: 241-257.
    CrossRef  |  Direct Link  |  

  359. Gorla, R.S.R., 1992. Free convection to ellis fluids from a horizontal isothermal cylinder. Int. J. Eng. Fluid Mech 5: 143-152.

  360. Gorla, R.S.R., 1992. Analysis of a foil bearing with turbulent flow conditions. Int. J. Eng. Fluid Mech., 5: 77-87.

  361. Gorla, R.S.R. and T. Williams, 1992. A model for the complete velocity profile in non-Newtonian turbulent flows. Int. J. Eng. Fluid Mech., 5: 153-159.

  362. Gorla, R.S.R. and P.V. Reddy, 1992. Combined forced and free convection in micropolar boundary layer flow on a continuous flat plate. Int. J. Eng. Fluid Mech., 5: 559-570.

  363. Gorla, R.S.R. and J.B. Pansare, 1992. Experimental investigation of heat transfer in curved rectangular ducts. Int. J. Eng. Fluid Mech., 5: 89-97.

  364. Gorla, R.S.R. and I.A. Hassanien, 1992. Mixed convection in stagnation flows of micropolar fluids over vertical surfaces with nonuniform surface heat-flux. Int. J. Eng. Fluid Mech., 5: 391-412.

  365. Arafa, A.A. and R.S.R. Gorla, 1992. Mixed convection boundary layer flow of a micropolar fluid along vertical cylinders and needles. Int. J. Eng. Sci., 30: 1745-1751.
    CrossRef  |  Direct Link  |  

  366. Ameri, A., P.M. Sockol and R.S.R. Gorla, 1992. Navier-stokes analysis of turbomachinery blade external heat transfer. J. Propulsion Power, 8: 374-381.
    Direct Link  |  

  367. Pop, I., M. Rashidi and R.S.R. Gorla, 1991. Mixed convection to power-law type non-Newtonian fluids from a vertical wall. Polymer-Plastics Technol. Eng., 30: 47-65.
    CrossRef  |  Direct Link  |  

  368. Pop, I. and R.S.R. Gorla, 1991. Mixed convection similarity solutions of a non-Newtonian fluid on a horizontal surface. Warme-Und Stoffubertragung J., 26: 57-63.
    CrossRef  |  Direct Link  |  

  369. Pop, I. and R.S.R. Gorla, 1991. Horizontal boundary-layer natural convection in a porous medium saturated with a gas. Transport Porous Med. J., 6: 159-171.
    CrossRef  |  Direct Link  |  

  370. Mansour, M.A., I.A. Hassanien and R.S.R. Gorla, 1991. Effect of suction/injection on the free convective heat transfer in a micropolar fluid from a nonisothermal flat plate under non-uniform gravity. Int. J. Eng. Sci., 29: 637-644.
    CrossRef  |  Direct Link  |  

  371. Gorla, R.S.R., 1991. Unsteady mass transfer to a rotating disk in a non-newtonian fluid. Polym. Plast. Technol. Eng. J., 30: 89-104.
    CrossRef  |  Direct Link  |  

  372. Gorla, R.S.R., 1991. Heat transfer to turbulent liquid falling films. Int. J. Eng. Fluid Mech., 4: 305-317.

  373. Gorla, R.S.R., 1991. Heat transfer to a power law non-newtonian falling liquid film. AIAA J. Thermophys. Heat Transfer, 4: 444-446.
    CrossRef  |  

  374. Gorla, R.S.R., 1991. Heat transfer to a nonisothermal rotating disk in a non-Newtonian fluid. Polymer-Plastics Technol. Eng., 30: 75-87.
    CrossRef  |  Direct Link  |  

  375. Gorla, R.S.R., 1991. Free stream turbulence effects on heat-transfer from a circular-cylinder with uniform surface heat-flux. Int. J. Eng. Fluid Mech., 4: 449-465.

  376. Gorla, R.S.R., 1991. Free convection to ellis fluids from a horizontal isothermal cylinder. Polymer-Plastics Technol. Eng., 30: 37-46.
    CrossRef  |  Direct Link  |  

  377. Gorla, R.S.R. and T. Williams, 1991. A model for the complete velocity profile in non-newtonian turbulent flows. Polymer-Plastics Technol. Eng., 30: 67-73.
    CrossRef  |  Direct Link  |  

  378. Gorla, R.S.R. and J. Yuko, 1991. Heat transfer in a laminar cylindrical wall jet. Int. J. Eng. Fluid Mech., 4: 305-317.

  379. Gorla, R.S.R. and H.S. Takhar, 1991. Unsteady mixed convection boundary-layer flow of a micropolar fluid near the lower stagnation point on a cylinder. Int. J. Eng. Fluid Mech., 4: 337-351.

  380. Gorla, R.S.R. and H.S. Takhar, 1991. Combined convective heat-transfer from a flat-plate embedded in porous-media. Int. J. Eng. Fluid Mech., 4: 363-373.

  381. Wangskarn, P., B. Ghorashi and R.S.R. Gorla, 1990. A numerical solution for the turbulent flow of non-newtonian fluids in the entrance region of a heated circular tube. Int. J. Heat Fluid Flow, 11: 40-43.
    CrossRef  |  Direct Link  |  

  382. Pop, I. and R.S.R. Gorla, 1990. Second-order boundary layer solution for a continuous moving surface in a non-newtonian fluid. Int. J. Eng. Sci., 28: 313-322.
    CrossRef  |  Direct Link  |  

  383. Hassanien, I.A. and R.S.R. Gorla, 1990. Mixed convection boundary layer flow of a micropolar fluid near a stagnation point on a horizontal cylinder. Int. J. Eng. Sci., 28: 153-161.
    CrossRef  |  Direct Link  |  

  384. Hassanien, I.A. and R.S.R. Gorla, 1990. Heat transfer to a micropolar fluid from a non-isothermal stretching sheet with suction and blowing. Acta Mech. J., 84: 191-199.
    CrossRef  |  Direct Link  |  

  385. Hassanien, I.A. and R.S.R. Gorla, 1990. Combined forced and free convection in stagnation flows of micropolar fluids over vertical non-isothermal surfaces. Int. J. Eng. Sci., 28: 783-792.
    CrossRef  |  Direct Link  |  

  386. Gorla, R.S.R., P.P. Lin and A.J. Yang, 1990. Asymptotic boundary layer solutions for mixed convection from a vertical surface in a micropolar fluid. Int. J. Eng. Sci., 28: 525-533.
    CrossRef  |  

  387. Gorla, R.S.R., 1990. Heat transfer in the thermal entrance region of non-newtonian fluid flow. Int. J. Math. Comput. Mod., 13: 1-7.
    CrossRef  |  Direct Link  |  

  388. Gorla, R.S.R., 1990. Conjugate combined convective and conductive heat transfer along a vertical circular pin in a non-newtonian ambient medium. Applied Sci. Res. J., 47: 341-356.
    CrossRef  |  Direct Link  |  

  389. Gorla, R.S.R., 1990. Boundary layer flow of a micropolar fluid in the vicinity of an axisymmetric stagnation point on a cylinder. Int. J. Eng. Sci., 28: 14-152.
    CrossRef  |  Direct Link  |  

  390. Gorla, R.S.R. and I.A. Hassanien, 1990. Boundary layer flow of a micropolar fluid near an axisymmetric stagnation point on a moving cylinder. Int. J. Eng. Sci., 28: 323-329.

  391. Gorla, R.S.R. and I. Pop, 1990. Heat transfer from a continuous moving surface in a non-newtonian fluid: Second order effects. Int. J. Eng. Fluid Mech., 3: 345-362.

  392. Gorla, R.S.R., P. Ghorashi and P. Wangskarn, 1989. Mixed convection in vertical internal flow of a micropolar fluid. Int. J. Eng. Sci., 27: 1553-1561.
    CrossRef  |  Direct Link  |  

  393. Gorla, R.S.R., 1989. Heat transfer to turbulent liquid falling films. Int. Symp. Multi-Phase Trans. Part. Phenomena, 1: 175-186.

  394. Gorla, R.S.R., 1989. Foil bearing lubrication theory including compressibility effects. JSME Int. J., 32: 289-293.
    CrossRef  |  

  395. Gorla, R.S.R., 1989. Combined forced and free convection in the boundary layer flow of a micropolar fluid on a continuous moving vertical cylinder. Int. J. Eng. Sci., 27: 77-86.
    CrossRef  |  Direct Link  |  

  396. Gorla, R.S.R. and Y.L. Nee, 1989. Heat transfer in the thermal entrance region of a laminar non-newtonian falling liquid film. Int. J. Heat Fluid Flow, 10: 166-169.
    CrossRef  |  Direct Link  |  

  397. Takhar, H.S., R.S.R. Gorla and W.R. Schoren, 1988. Free convection boundary layer flow of a micropolar fluid past slender cones. Mech. Res. Commun., 15: 167-176.
    CrossRef  |  Direct Link  |  

  398. Gorla, R.S.R., F. Jankowski and D. Textor, 1988. Periodic boundary layer near an axisymmetric stagnation point on a circular cylinder. Int. J. Heat Fluid Flow, 9: 421-426.
    CrossRef  |  Direct Link  |  

  399. Gorla, R.S.R., 1988. The final approach to steady state in a nonsteady axisymmetric stagnation point heat transfer. Warme-und Stoffubertragung, 22: 37-44.
    CrossRef  |  Direct Link  |  

  400. Gorla, R.S.R., 1988. Radiative effect on conjugate forced convection and conductive heat transfer in a circular pin. Int. J. Heat Fluid Flow, 9: 49-52.
    CrossRef  |  Direct Link  |  

  401. Gorla, R.S.R., 1988. Combined forced and free convection in micropolar boundary layer flow on a vertical flat plate. Int. J. Eng. Sci., 26: 385-391.
    CrossRef  |  Direct Link  |  

  402. Gorla, R.S.R., 1988. Buoyancy effects on the boundary layer flow of a micropolar fluid along a vertical cylinder. Int. J. Eng. Sci., 26: 883-892.
    CrossRef  |  Direct Link  |  

  403. Gorla, R.S.R. and T. Maloney, 1988. Conjugate heat transfer in turbulent falling liquid films. Can. J. Chem. Eng., 66: 334-337.
    CrossRef  |  Direct Link  |  

  404. Gorla, R.S.R. and R. Tornabene, 1988. Free convection from a vertical plate with nonuniform surface heat flux and embedded in a porous medium. Transport Porous Media, 3: 95-106.
    CrossRef  |  Direct Link  |  

  405. Gorla, R.S.R. and A. Chulya, 1988. Variational solution for unsteady heat transfer in boundary layer flows. Math. Comput. Model., 10: 807-816.
    CrossRef  |  Direct Link  |  

  406. Surampudi, S. and R.S.R. Gorla, 1987. Overview of damping media for shock absorber systems. Dev. Mech., 14: 1228-1235.

  407. Gorla, R.S.R., 1987. Variational solution of the Graetz problem for a power-law non-Newtonian fluid. Mech. Res. Commun., 14: 355-360.

  408. Gorla, R.S.R., 1987. Foil bearing lubrication theory including compressibility effects. Dev. Mech., 14: 1122-1127.

  409. Gorla, R.S.R. and T.M. Maloney, 1987. Conjugate heat transfer in falling laminar liquid films. Chem. Eng. Commun., 60: 271-282.
    CrossRef  |  Direct Link  |  

  410. Gorla, R.S.R. and P.V. Reddy, 1987. Flow and heat transfer from a continuous surface in a parallel free stream of micropolar fluid. Int. J. Eng. Sci., 25: 1243-1249.
    CrossRef  |  Direct Link  |  

  411. Gorla, R.S.R. and H.S. Takhar, 1987. Free convection boundary layer flow of a micropolar fluid past slender bodies. Int. J. Eng. Sci., 25: 949-962.
    CrossRef  |  Direct Link  |  

  412. Gorla, R.S.R. and A. Zinolabedini, 1987. Free convection from a vertical plate with nonuniform surface temperature and embedded in a porous medium. J. Energy Resour. Technol., 109: 26-30.
    CrossRef  |  Direct Link  |  

  413. Gorla, R.S.R. and A. Ameri, 1987. Unsteady heat transfer due to time-dependent free stream velocity. Proc. ASME/JSME Thermal Eng. Conf., 2: 647-652.

  414. Gorla, R.S.R., W.R. Schoren and H.S. Takhar, 1986. Natural convection boundary layer flow of a micropolar fluid over an isothermal cone. Acta Mech., 61: 139-152.
    CrossRef  |  Direct Link  |  

  415. Gorla, R.S.R., 1986. Heat transfer from continuous moving fibers in a micropolar fluid. Acta Mechanica, 59: 123-131.
    CrossRef  |  Direct Link  |  

  416. Gorla, R.S.R., 1986. Combined influence of unsteady free stream velocity and free stream turbulence on stagnation point heat transfer. Int. J. Turbo Jet Engines, 3: 117-124.

  417. Gorla, R.S.R., 1986. Combined forced and free convection in boundary layer flow of non-newtonian fluid on a horizontal plate. Chem. Eng. Commun. J., 49: 13-22.
    CrossRef  |  Direct Link  |  

  418. Gorla, R.S.R. and R.A. Stratman, 1986. Natural convection boundary layer flow of water at 4 C past slender cones. Int. Commun. Heat Mass Transfer, 13: 403-411.
    CrossRef  |  Direct Link  |  

  419. Gorla, R.S.R. and R.A. Stratman, 1986. Axisymmetric free convection boundary layer flow of water at 4° C past slender bodies. Int. J. Heat Fluid Flow, 7: 179-182.
    CrossRef  |  Direct Link  |  

  420. Gorla, R.S.R., 1985. Effect of free stream turbulence on flow separation. Int. J. Turbo Jet Engines, 2: 293-298.

  421. Gorla, R.S.R., 1985. Axisymmetric thermal boundary layer of a micropolar fluid on a cylinder. Int. J. Eng. Sci., 23: 401-407.
    CrossRef  |  Direct Link  |  

  422. Gorla, R.S.R. and A. Ameri, 1985. Boundary layer flow of a micropolar fluid on a continuous moving cylinder. Acta Mech., 57: 203-214.
    CrossRef  |  Direct Link  |  

  423. Gorla, R.S.R., 1984. The axisymmetric micropolar boundary layer on a long thin cylinder. Int. J. Eng. Sci., 22: 293-299.
    CrossRef  |  Direct Link  |  

  424. Gorla, R.S.R., 1984. Laminar wall jet of a non-Newtonian fluid over a curved surface. J. Applied Mech., 51: 440-443.
    CrossRef  |  Direct Link  |  

  425. Gorla, R.S.R., 1984. Heat transfer characteristics of a micropolar boundary layer in a crossflow over a non-isothermal circular cylinder. Int. J. Eng. Sci., 22: 47-55.
    CrossRef  |  Direct Link  |  

  426. Gorla, R.S.R., 1984. Flow and thermal characteristics of a circular porous slider bearing. Wear, 94: 157-174.
    CrossRef  |  Direct Link  |  

  427. Gorla, R.S.R., 1984. Effect of free-stream turbulence on heat and mass transfer from a sphere. Chem. Eng. Commun. J., 24: 195-305.
    CrossRef  |  Direct Link  |  

  428. Gorla, R.S.R. and P.E. Madden, 1984. A variational approach to non-steady non-Newtonian flow in a circular pipe. J. Non-Newtonian Fluid Mech., 16: 251-265.
    CrossRef  |  Direct Link  |  

  429. Gorla, R.S.R., R. Pender and J. Eppich, 1983. Heat transfer in micropolar boundary layer flow over a flat plate. Int. J. Eng. Sci., 21: 791-798.
    CrossRef  |  Direct Link  |  

  430. Gorla, R.S.R., 1983. The final approach to steady state in an axisymmetric stagnation flow following a change in free stream velocity. Applied Sci. Res., 40: 247-251.
    CrossRef  |  Direct Link  |  

  431. Gorla, R.S.R., 1983. Micropolar boundary layer flow at a stagnation point on a moving wall. Int. J. Eng. Sci., 21: 25-33.
    CrossRef  |  Direct Link  |  

  432. Gorla, R.S.R., 1983. Laminar plane wall jet of a non-Newtonian fluid with vectored surface mass transfer. Mech. Res. Commun., 10: 327-333.
    CrossRef  |  Direct Link  |  

  433. Gorla, R.S.R., 1983. Effects of unsteady free-stream velocity and free-stream turbulence at a stagnation point. J. Eng. Power, 105: 66-71.
    CrossRef  |  Direct Link  |  

  434. Gorla, R.S.R. and K.A. Loparo, 1983. Heat generated in a viscoelastic fluid by Couette flow in the presence of porous walls. Wear, 84: 151-165.
    CrossRef  |  Direct Link  |  

  435. Gorla, R.S.R., 1982. Unsteady heat transfer in laminar non-newtonian boundary layer over a wedge. AIChE J., 28: 56-60.
    CrossRef  |  Direct Link  |  

  436. Gorla, R.S.R., 1982. Stagnation point heat transfer augmentation due to free stream turbulence. Applied Sci. Res., 39: 143-153.
    CrossRef  |  Direct Link  |  

  437. Gorla, R.S.R., 1982. Influence of turbulence intensity and free stream velocity oscillations on stagnation point heat transfer. Int. J. Heat Fluid Flow, 3: 195-200.
    CrossRef  |  

  438. Gorla, R.S.R., 1981. Unsteady thermal boundary layer flow of a non-newtonian fluid over a flat plate. Int. J. Eng. Sci., 19: 1391-1399.
    CrossRef  |  Direct Link  |  

  439. Gorla, R.S.R., 1981. Thermal characteristics of a non-newtonian fluid in a porous thrust bearing. Wear, 67: 351-359.
    CrossRef  |  Direct Link  |  

  440. Gorla, R.S.R., 1980. Unsteady stagnation point heat transfer in non-newtonian fluids. Can. J. Chem. Eng., 58: 431-437.
    CrossRef  |  Direct Link  |  

  441. Gorla, R.S.R., 1980. Thermal boundary layer of a micropolar fluid at a stagnation point. Int. J. Eng. Sci., 18: 611-617.
    CrossRef  |  Direct Link  |  

  442. Gorla, R.S.R., 1980. Non-newtonian fluid dynamics of a porous thrust bearing. Wear, 63: 207-218.
    CrossRef  |  Direct Link  |  

  443. Gorla, R.S.R. and D.A. Voss, 1980. Heat transfer in a second order viscoelastic boundary layer flow at a stagnation point. Int. J. Eng. Sci., 18: 1301-1308.
    CrossRef  |  Direct Link  |  

  444. Gorla, R.S.R., 1979. Unsteady viscous flow in the vicinity of an axisymmetric stagnation point on a circular cylinder. Int. J. Eng. Sci., 17: 87-93.
    CrossRef  |  Direct Link  |  

  445. Gorla, R.S.R., 1979. Heat transfer in a laminar cylindrical wall jet with uniform surface heat flux. Dev. Mech., 10: 261-265.

  446. Gorla, R.S.R., 1979. Heat transfer characteristics of a porous thrust bearing. J. Lubrication Technol., 101: 531-536.
    CrossRef  |  Direct Link  |  

  447. Gorla, R.S.R., 1978. Viscous dissipation effects on heat transfer in an axisymmetric stagnation flow on a circular cylinder. Lett. Heat Mass Transfer, 5: 121-130.
    CrossRef  |  Direct Link  |  

  448. Gorla, R.S.R., 1978. Unsteady mass transfer in the boundary layer on a continuous moving sheet electrode. J. Electrochem. Soc., 125: 865-869.
    CrossRef  |  Direct Link  |  

  449. Gorla, R.S.R., 1978. Nonsimilar second order viscoelastic boundary layer flow at a stagnation point over a moving wall. Int. J. Eng. Sci., 16: 101-107.
    CrossRef  |  Direct Link  |  

  450. Gorla, R.S.R., 1978. Nonsimilar axisymmetric stagnation flow on a moving cylinder. Int. J. Eng. Sci., 16: 397-400.
    CrossRef  |  Direct Link  |  

  451. Gorla, R.S.R., 1978. Transient response behavior of an axisymmetric stagnation flow on a circular cylinder due to time dependent free stream velocity. Int. J. Eng. Sci., 16: 493-502.
    CrossRef  |  Direct Link  |  

  452. Gorla, R.S.R., 1977. Unsteady laminar axisymmetric stagnation flow over a circular cylinder. Dev. Mech., 9: 286-288.

  453. Gorla, R.S.R., 1977. Rapid calculation procedure for non-Newtonian non-similar laminar boundary layers. J. Macanique Appliquee, 1: 159-174.
    Direct Link  |  

  454. Gorla, R.S.R., 1977. Laminar swirling power law non-newtonian fluid jet impinging on a normal plane. J. Non-Newtonian Fluid Mech., 2: 299-306.
    CrossRef  |  Direct Link  |  

  455. Gorla, R.S.R., 1977. Heat transfer in wall jet flows with vectored surface mass transfer. AIAA J., 15: 1514-1516.
    CrossRef  |  Direct Link  |  

  456. Gorla, R.S.R., 1977. Effect of variable gravity force on free convection from a vertical plate to non-Newtonian fluids. Lett. J. Heat Mass Transfer, 4: 155-161.
    CrossRef  |  Direct Link  |  

  457. Gorla, R.S.R., 1976. Transverse curvature effect on the flow field in a laminar cylindrical wall jet. Trans. ASME J. Fluids Eng., 98: 116-119.
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  458. Gorla, R.S.R., 1976. Non-newtonian fluid at a stagnation point in the presence of a transverse magnetic field. Mech. Res. Commun., 3: 1-6.
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  459. Gorla, R.S.R., 1976. Heat transfer in an axisymmetric stagnation flow on a cylinder. Applied Scient. Res. J., 32: 541-553.
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  460. Gorla, R.S.R., 1976. Heat transfer in a laminar wall jet over a curved surface. Applied Scient. Res. J., 31: 431-438.
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  461. Gorla, R.S.R., 1976. Heat transfer in a jet over a sinusoidally rotating disc and an oscillating plate. Lett. J. Heat Mass Transfer, 2: 389-398.
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  462. Gorla, R.S.R., 1976. Combined natural and forced convection in a laminar wall jet along a vertical plate with uniform surface heat flux. Applied Scient. Res. J., 31: 455-564.
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  463. Gorla, R.S.R., 1975. Non-newtonian nonsimilar boundary layers. Can. J. Chem. Eng., 53: 563-567.
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  464. Gorla, R.S.R., 1975. Flow and heat transfer characteristics of wall jets by the method of local nonsimilarity. Dev. Mech., 8: 517-533.

  465. Gorla, R.S.R. and T. Stearns, 1975. Effect of temperature dependence of the volumetric expansion coefficient on combined forced and free convection. Lett. J. Heat Mass Transfer, 2: 427-432.
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  466. Gorla, R.S.R., 1974. Heat transfer characteristics of a two dimensional laminar wall jet with non-isothermal surface conditions. Int. J. Eng. Sci., 12: 812-820.

  467. Gorla, R.S.R., 1973. Unsteady heat transfer characteristics of a two dimensional wall jet. Int. J. Eng. Sci., 11: 841-851.

  468. Gorla, R.S.R. and D.R. Jeng, 1973. Numerical evaluation of the wall gradient in laminar boundary layer by gaussian quadratures when Pr>>1. Ind. J. Technol., 11: 164-166.

  469. Sarpkaya, T. and L.P. Rainey, 1971. Stagnation point flow of a second-order viscoelastic fluid. Acta Mech., 11: 237-246.
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  470. Gorla, R.S.R. and D.R. Jeng, 1971. Laminar plane wall jet. Dev. Mech., 6: 137-151.

  471. Jeng, D.R. and R.S.R. Gorla, 1970. Rapid calculation for convective heat transfer in laminar boundary layer by Gaussian Quadratures. J. Eng. Mathe., 4: 319-329.
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  472. Gorla, R.S.R., 1967. Some fluid dynamic aspects of film cooling employing angular injection. J. Instit. Eng., 47: 427-435.

  473. Gorla, R.S.R., 1967. Film cooling employing angular injection. J. Instit. Eng., 47: 158-167.
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