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International Journal of Ambient Energy Volume 44, 2023 - Issue 1
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Research Article

The MHD graphene nanofluid flow between two stretching discs

T. Anushaa Department of Mathematics, Shivagangotri, Davangere University, Davangere, Karnataka, India
,
Gabriella Vadaszne Bognarb Institute of Machine and Product Design, University of Miskolc, Miskolc, Egyetemváros, Hungary
,
U. S. Mahabaleshwara Department of Mathematics, Shivagangotri, Davangere University, Davangere, Karnataka, India
&
Basma Souayehc Department of Physics, College of Science, King Faisal University, AI-Ahsa, Saudi Arabia;d Department of Physics, Laboratory of Fluid Mechanics, Faculty of Science of Tunis, University of Tunis EI Manas, Tunis, TunisiaCorrespondence[email protected] [email protected]
Pages 780-788 | Received 17 Jul 2022, Accepted 23 Oct 2022, Published online: 21 Nov 2022

References

  • Aly, Emad H. 2019. “Dual Exact Solutions of Graphene-Water Nanofluid Flow Over Stretching/Shrinking Sheet with Suction/Injection and Heat Source/Sink: Critical Values and Regions with Stability.” Powder Technology 342: 528–544.
  • Anusha, T., U. S. Mahabaleshwar, and Yahya Sheikhnejad. 2021. “An MHD of Nanofluid Flow Over a Porous Stretching/Shrinking Plate with Mass Transpiration and Brinkman Ratio.” Transport in Porous Media 142 (1): 333–352.
  • Banks, W. H. H. 1983. “Similarity Solutions of the Boundary Layer Equations for a Stretching Wall.” Journal de Mécanique théorique et appliquée 2: 375–392.
  • Crane, L. J. 1970. “Flow Past a Stretching Plate.” Zeitschrift für angewandte Mathematik und Physik ZAMP 21: 645–647.
  • Fang, T. 2007. “Flow Over a Stretchable Disk.” Physics of Fluids 19: 128105.
  • Fang, T., and J. Zhang. 2008. “Flow Between Two Stretchable Disks-An Exact Solution of the Navier-Stokes Equations.” ICHMT 35: 892–895.
  • Gangadhar, K., N. Bhargavi, V. S. M. Rao, and A. J. Chamkha. 2022b. “Entropy Minimization on Magnetized Boussinesq Couple Stress Fluid with Non-Uniform Heat Generation.” Physica Scripta 96 (9): 095205.
  • Gangadhar, K., T. Kannan, and P. Jayalakshmi. 2017. “Magnetohydrodynamic Micropolar Nanofluid Past a Permeable Stretching/Shrinking Sheet with Newtonian Heating.” Journal of the Brazilian Society of Mechanical Sciences and Engineering 39: 4379–4391.
  • Gangadhar, K., M. A. Kumari, and A. J. Chamkha. 2022e. “EMHD Flow of Radiative Second Grade Nanofluid Over a Riga Plate Due to Convective Heating: Revised Buongiorno’s Nanofluid Model.” Arabian Journal for Science and Engineering 47: 8093–8103.
  • Gangadhar, K., M. A. Kumari, V. S. M. Rao, A. Alnefaie, I. Khan, and M. Andualem. 2022a. “Magnetization for Burgers’ Fluid Subject to Convective Heating and Heterogeneous-Homogeneous Reactions.” Mathematical Problems in Engineering, 2022: 1–15.
  • Gangadhar, K., M. A. Kumari, V. S. M. Rao, and A. J. Chamkha. 2022d. “Oldroyd-B Nano-Liquid Flow Through a Triple Stratified Medium Submerged with Gyrotactic Bio Convection and Nonlinear Radiations.” Arabian Journal for Science and Engineering 47: 8863–8875.
  • Gangadhar, K., K. B. Lakshmi, and A. J. Chamkha. 2022g. “Bioconvective Magnetized Oldroyd-B Nanofluid Flow in the Presence of Joule Heating with Gyrotactic Microorganisms.” Waves in Random and Complex Media, 1–21. doi:10.1080/17455030.2022.2050441.
  • Gangadhar, K., K. B. Lakshmi, T. Kannan, and A. J. Chamkha. 2022f. “Stefan Blowing on Chemically Reactive Nano-Fluid Flow Containing Gyrotactic Microorganisms with Leading Edge Accretion (or) Ablation and Thermal Radiation.” Indian Journal of Physics 96: 2827–2840.
  • Gangadhar, K., P. M. Seshakumari, V. S. M. Rao, and A. J. Chamkha. 2022c. “Biconvective Transport of Magnetized Couple Stress Fluid Over a Radiative Paraboloid of Revolution.” Journal of Process Mechanical Engineering 236: 09544089211072715.
  • Gupta, P. S., and A. S. Gupta. 1977. “Heat and Mass Transfer on a Stretching Sheet with Suction or Blowing.” The Canadian Journal of Chemical Engineering 55: 744–746.
  • Ishak, A., R. Nazar, and I. Pop. 2006. “Unsteady Mixed Convection Boundary Layer Flow Due to a Stretching Vertical Surface.” Arabian Journal for Science and Engineering 31: 165–182.
  • Kumaran, V., A. K. Banerjee, A. Vanay Kumar, and I. Pop. 2011. “Unsteady MHD Flow and Heat Transfer with Viscous Dissipation Past a Stretching Sheet.” International Communications in Heat and Mass Transfer 38: 335–339.
  • Mahabaleshwar, U. S., K. R. Nagaraju, P. N. Vinay Kumar, and M. N. Azese. 2020. “Effect of Radiation on Thermosolutal Marangoni Convection in a Porous Medium with Chemical Reaction and Heat Source/Sink.” Physics of Fluids 32 (11): 113602.
  • Mahabaleshwar, U. S., K. N. Sneha, and Huang-Nan Huang. 2021. “An Effect of MHD and Radiation on CNTS-Water Based Nanofluid due to a Stretching Sheet in a Newtonian Fluid.” Case Studies in Thermal Engineering 28: 101462.
  • Momin, G. G. 2013. “Experimental Investigation of Mixed Convection with Water–Al2O3 & Hybrid Nanofluid in Inclined Tube for Laminar Flow.” IJSTR 2: 195–202.
  • Nandy, S. K., and T. R. Mahapatra. 2013. “Effects of Slip and Heat Generation/Absorption on MHD Stagnation Flow of Nanofluid Past a Stretching/Shrinking Surface with Convective Boundary Conditions.” International Journal of Heat and Mass Transfer 64: 1091–1100.
  • Rao, V. S. M., K. Gangadhar, T. Kannan, and A. J. Chamkha. 2022. “Cattaneo–Christov Heat Flux Theory on Transverse MHD Oldroyd B Liquid Over Nonlinear Stretched Flow.” Journal of Thermal Analysis and Calorimetry 147: 2749–2759.
  • Rao, V. S. M., K. Gangadhar, and P. L. N. Varma. 2018. “A Spectral Relaxation Method for Three-Dimensional MHD Flow of Nanofluid Flow Over an Exponentially Stretching Sheet Due to Convective Heating: An Application to Solar Energy.” Indian Journal of Physics 92: 1577–1588.
  • Rosca, A. V., and I. Pop. 2013. “Flow and Heat Transfer Over a Vertical Permeable Stretching/Shrinking Sheet with a Second Order Slip.” International Journal of Heat and Mass Transfer 60: 355–364.
  • Sakiadis, B. C. 1961a. “Boundary Layer Behavior on Continuous Solid Surface: I. Boundary-Layer Equations for Two-Dimensional and Axisymmetric Flow.” AIChE Journal 7: 26–28.
  • Sakiadis, B. C. 1961b. “Boundary Layer Behavior on Continuous Solid Surface: II. Boundary-Layer on a Continuous Flat Surface.” AIChE Journal 7: 221–225.
  • Sivakumar, A., R. Sathiyamoorthi, N. Alagumurthi, V. Jayaseelan, and K. Sudhakar. 2021a. “Thermal Performance of U Shaped Serpentine Microchannel Heat Sink Using Various Metal Oxide Nanofluids.” Heat Transfer 50 (4): 3094–3118.
  • Sivakumar, A., R. Sathiyamoorthi, V. Jayaseelan, R. A. Gandhi, and K. Sudhakar. 2021b. “Performance of Waste Insulating Mineral Oil-Based Biodiesel in a Direct-Injection CI Engine.” International Journal of Automotive and Mechanical Engineering 18 (4): 9349–9361.
  • Suresh, S., K. Venkitaraj, P. Selvakumar, and M. Chandrasekar. 2011. “Synthesis of Al2O3–Cu/Water Hybrid Nanofluids Using Two Step Method and Its Thermo Physical Properties.” Colloids and Surfaces A: Physicochemical and Engineering Aspects 388: 41–48.
  • Suresh, S., K. Venkitaraj, P. Selvakumar, and M. Chandrasekar. 2012. “Effect of Al2O3–Cu/Water Hybrid Nanofluid in Heat Transfer.” Experimental Thermal and Fluid Science 38: 54–60.
  • Turkyilmazoglu, M. 2011. “Multiple Solutions of Heat and Mass Transfer of MHD Slip Flow for the Viscoelastic Fluid Over a Stretching Sheet.” International Journal of Thermal Sciences 50: 2264–2276.
  • Veera, K. M. 2020d. “Hall and ion Slip Impacts on Unsteady MHD Free Convective Rotating Flow of Jeffrey Fluid with Ramped Wall Temperature.” International Communications in Heat and Mass Transfer 119: 104927.
  • Veera, K. M. 2021b. “Hall and Ion Slip Effects on Radiative MHD Rotating Flow of Jeffrey Fluid Past an Infinite Vertical Flat Porous Surface with Ramped Wall Velocity and Temperature.” International Communications in Heat and Mass Transfer 126: 105399.
  • Veera, K. M. 2022. “Chemical Reaction, Heat Absorption and Newtonian Heating on MHD Free Convective Casson Hybrid Nanofluids Past an Infinite Oscillating Vertical Porous Plate.” International Communications in Heat and Mass Transfer 138: 106327.
  • Veera, K. M., N. A. Ahamad, and A. J. Chamkha. 2020a. “Hall and Ion Slip Effects on Unsteady MHD Free Convective Rotating Flow Through a Saturated Porous Medium Over an Exponential Accelerated Plate.” Alexandria Engineering Journal 59: 565–577.
  • Veera, K. M., N. A. Ahamad, and A. J. Chamkha. 2021a. “Numerical Investigation on Unsteady MHD Convective Rotating Flow Past an Infinite Vertical Moving Porous Surface.” Ain Shams Engineering Journal 12: 2099–2109.
  • Veera, K. M., N. A. Ahamad, and A. J. Chamkha. 2021c. “Radiation Absorption on MHD Convective Flow of Nanofluids Through Vertical Travelling Absorbent Plate.” Ain Shams Engineering Journal 12: 3043–3056.
  • Veera, K. M., and A. J. Chamkha. 2019. “Hall and Ion Slip Effects on MHD Rotating Boundary Layer Flow of Nanofluid Past an Infinite Vertical Plate Embedded in a Porous Medium.” Results in Physics 15: 102652.
  • Veera, K. M., and A. J. Chamkha. 2020c. “Hall and Ion Slip Effects on MHD Rotating Flow of Elastico-Viscous Fluid Through Porous Medium.” International Communications in Heat and Mass Transfer 113: 104494.
  • Veera, K. M., and A. J. Chamkha. 2020e. “Hall and Ion Slip Effects on Magnetohydrodynamics Convective Rotating Flow of Jeffrey Fluid Over an Impulsively Moving Vertical Plate Embedded in Saturated Porous Medium with Ramped Wall Temperature.” Numerical Methods for Partial Differential Equations 37: 2150–2177.
  • Veera, K. M., C. S. Sravanthi, and S. R. G. Rama. 2020b. “Hall and Ion Slip Effects on MHD Rotating Flow of Ciliary Propulsion of Microscopic Organisms Through Porous Media.” International Communications in Heat and Mass Transfer 112: 104500.
  • Wang, C. Y. 1984. “The Three Dimensional Flow Due to a Stretching Flat Surface.” Physics of Fluids 27: 1915–1917.
  • Wang, C. Y. 1991. “Exact Solutions of the Steady State Navier-Stokes Equations.” Annual Review of Fluid Mechanics 23: 159.
  • White, F. M. 1991. Viscous Fluid Flow. 2nd ed. New York: McGraw-Hill Company.

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