https://orcid.org/0000-0001-8630-570X
References
- Anwar, T., P. Kumam, and W. Watthayu. 2020. “An Exact Analysis of Unsteady MHD Free Convection Flow of Some Nanofluids with Ramped Wall Velocity and Ramped Wall Temperature Accounting Heat Radiation and Injection/Consumption.” Scientific Reports 10: 17830.
- Baioumy, B., R. Chebbi, and N. Abdel Jabbar. 2020. “Bingham Fluid Flow in the Entrance Region of a Pipe.” ASME. J. Fluids Eng 143: 2.
- Beavers, G. S., and D. D. Joseph. 1967. “Boundary Conditions at a Naturally Permeable Wall.” J. Fluid Mech 30: 197–207.
- Bhargava, R., and R. S. Agarwal. 1979. “Fully Developed Free Convection Flow in a Circular Pipe.” Indian J. Pure Appl. Math 10 (3): 357–365.
- Bird, R. B., W. E. Stewart, and E. N. Light Foot. 1960. Transport Phenomena. New York: John Wiley & Sons. Inc.
- Goren, S. L. 1966. On Free Convection in Water at 4°C.” Chem. Engng Sci 21 (6–7): 515–518.
- Goverdhan, S., S. Sreenadh, and P. V. Arunachalam. 1991. “Bingham Fluid Flow Between Two Permeable Beds.” Proc. Nat. Acad. Sci. India 61A: 19–27.
- Gulzar, M. M., A. Aslam, M. Waqas, M. A. Javed, and K. Hosseinzadeh. 2020. “A Nonlinear Mathematical Analysis for Magneto-Hyperbolic-Tangent Liquid Featuring Simultaneous Aspects of Magnetic Field, Heat Source and Thermal Stratification.” Applied Nanoscience 10: 4513–4518.
- Hosseinzadeh, K., A. R. Mogharrebi, A. Asadi, M. Sheikhshahrokhdehkordi, S. Mousavisani, and D. D. Ganji. 2019. “Entropy Generation Analysis of Mixture Nanofluid (H2O/c2H6O2)–Fe3O4 Flow Between two Stretching Rotating Disks Under the Effect of MHD and Nonlinear Thermal Radiation.” International Journal of Ambient Energy, 1–13.
- Islam, M. M., M. T. Mollah, S. Khatun, M. Ferdows, and M. M. Alam. 2019. “”Unsteady Viscous Incompressible Bingham Fluid Flow Through a Parallel Plate”.” Inventions 4 (3): 51.
- Kapur, J. N. 1985. “Mathematical Models in Biology and Medicine.” Affiliated East-West Press Private Limited, New Delhi, MR0806352 (87k: 92001).
- Kataria, H., and H. Patel. 2018. “Heat and Mass Transfer in Magnetohydrodynamic (MHD) Casson Fluid Flow Past Over an Oscillating Vertical Plate Embedded in Porous Medium with Ramped Wall Temperature.” Propulsion and Power Research 7 (3): 257–267.
- Krishnan, J. M., and K. R. Rajagopal. 2003. “Review of the Uses and Modeling of Bitumen from Ancient Tomodern Times.” Appl. Mech. Reviews 56: 149–214.
- Naidu, K. K., D. Harish Babu, S. Harinath Reddy, and P. V. Satya Narayana. 2020. “Radiation and Partial Slip Effects on Magnetohydrodynamic Jeffrey Nanofluid Containing Gyrotactic Microorganisms Over a Stretching Surface.” Thermal Science and Engineering Applications 13 (3): 1–11.
- Naidu, K. K., D. Harish Babu, and P. V. Satya Narayana. 2021. “Bioconvection in MHD Casson Nanoliquid (Fe3O4-Sodium Alginate) with Gyrotatic Microorganisms Over an Exponential Stretching Sheet.” J. Nanofluids 10: 1–12.
- Ostrach, S. 1952. “Laminar Natural Convection Flow and Heat Transfer of Fluids with and Without Heat Sources in the Channels with Constant Wall Temperatures.” NACA TN 2863: 1–56.
- Ostrach, S. 1954. “Combined Natural and Forced Convection Laminar Flow and Heat Transfer in Channels with Linearly Varying Wall Temperatures.” NACA TN 3141: 1–75.
- Patel, H. R. 2018. “Thermal Radiation Effects on MHD Flow with Heat and Mass Transfer of Micropolar Fluid Between two Vertical Walls.” International Journal of Ambient Energy, 42 (11): 1281–1296.
- Patel, H. R. 2019a. “Effects of Heat Generation, Thermal Radiation, and Hall Current on MHD Current on MHD Casson Fluid Flow Past an Oscillating Plate in Porous Medium”.” Multiphase Science and Technology 31: 87–107.
- Patel, H. R. 2019b. “Effects of Cross Diffusion and Heat Generation on Mixed Convective MHD Flow of Casson Fluid Through Porous Medium with non-Linear Thermal Radiation.” Heliyon 5: e01555.
- Patel, H. R. 2021. “Cross Diffusion and Heat Generation Effects on Mixed Convection Stagnation Point MHD Carreau Fluid Flow in a Porous Medium.” International Journal of Ambient Energy, 1–16.
- Rashidi, M. M., T. Hayat, M. Keimanesh, and A. A. Hendi. 2013. “New Analytical Method for the Study of Natural Convection Flow of a Non-Newtonian Fluid.” International Journal of Numerical Methods for Heat and Fluid Flow 23 (3): 436–450.
- Rathy, R. K. 1976. An Introduction to Fluid Dynamics. New Delhi: Oxford and IBH.
- Reddy, S. H., K. Kumara Swamy Naidu, D. Harish Babu, P. V. Satya Narayana, and M. C. Raju. 2020. “Significance of Chemical Reaction on MHD Near Stagnation Point Flow Towards a Stretching Sheet with Radiation.” SN Applied Sciences 2 (11): 1–9.
- Sinha, P. C. 1969. “Fully Developed Laminar Free Convection Flow Between Vertical Parallel Plates.” ChemEngng Sci 24: 33.
- Sreenadh, S., M. M. Rashidi, K. Kumara Swamy Naidu, and A. Parandhama. 2016. “Free Convection Flow of a Jeffrey Fluid Through a Vertical Deformable Porous Stratum.” J. Appl. Fluid Mech 9 (5): 2391–2401.
- Vajravelu, K., and K. S. Sastri. 1977. “Fully Developed Laminar Free Convection Flow Between Two Parallel Vertical Walls.” International Journal of Heat and Mass Transfer 20 (6): 655–660.
- Vajravelu, K., S. Sreenadh, S. Ramakrishna, and P. V. Arunachalam. 1987. “Bingham Fluid Flow Through a Circular Pipe with Permeable Wall.” ZAMM 67: 568–569.