RETRACTED: Unsteady flow of three-dimensional Maxwell nanofluid with variables properties over a stretching surface

Maxwell JC . Dynamical theory Of gases. Philos.Trans.R.Soc 1867; 157: 49–88.

Mukhopadhyay S . Heat transfer analysis of the unsteady flow of a Maxwell fluid over a stretching surface in the presence of a heat source/sink. Chin Phys Lett 2012; 29: 054703.

Zhao J Zheng L Zhang X , et al. Convection heat and mass transfer of fractional MHD Maxwell fluid in a porous medium with Soret and Dufour effects. Int J Heat Mass Transfer 2016; 103: 203–210.

Acharya N Das K Kundu PK . Cattaneo–Christov intensity of magnetised upper-convected Maxwell nanofluid flow over an inclined stretching sheet: a generalised Fourier and Fick’s perspective. Int J Mech Sci 2017; 130: 167–173.

Thammanna GT Kumar KG Gireesha BJ , et al. Three dimensional MHD flow of couple stress Casson fluid past an unsteady stretching surface with chemical reaction. Results Phys 2017; 7: 4104–4110.

Ramesh GK Prasannakumara BC Gireesha BJ , et al. Three-dimensional flow of Maxwell fluid with suspended nanoparticles past a bidirectional porous stretching surface with thermal radiation. Therm Sci Eng Prog 2017; 1: 6–14.

Nadeem S Ahmad S Muhammad N , et al. Chemically reactive species in the flow of a Maxwell fluid. Results Phys 2017; 7: 2607–2613.

Kumar KG Gireesha BJ Ramesh GK , et al. Double-diffusive free convective flow of Maxwell nanofluid past a stretching sheet with nonlinear thermal radiation. J Nanofluids 2018; 7: 499–508.

Gireesha BJ Krishnamurthy MR Ganeshkumar K . Nonlinear radiative heat transfer and boundary layer flow of Maxwell nanofluid past stretching sheet. J Nanofluids 2019; 8: 1093–1102.

Archana M Praveena MM Kumar KG , et al. Unsteady squeezed Casson nanofluid flow by considering the slip condition and time-dependent magnetic field. Heat Transfer 2020; 49: 4907–4922.

Reddy MG Vijayakumari P Sudharani MVVNL , et al. Quadratic convective heat transport of Casson nanoliquid over a contract cylinder: an unsteady case. Bio Nano Science 2020; 10: 344–350.

Khan M Rasheed A Ali S , et al. A novel formulation of 3D Jeffery fluid flow near an irregular permeable surface having chemical reactive species. Adv Mech Eng 2021; 13: 16878140211013609.

Khan M Rasheed A . Exothermic impact on Eyring-Powell nanofluid flow through a heated surface embedded in porous medium with thermal radiation: a numerical study. Phys Scr 2021; 96: 035213.

Ahmad S Coban HH Khan MN , et al. Computational analysis of the unsteady 3D chemically reacting MHD flow with the properties of temperature dependent transpose suspended Maxwell nanofluid. Case Stud Therm Eng 2021; 26: 101169.

Khan MN Nadeem S . A comparative study between linear and exponential stretching sheet with double stratification of a rotating Maxwell nanofluid flow. Surf Interfaces 2021; 22: 100886.

Aziz A . A similarity solution for laminar thermal boundary layer over a flat plate with a convective surface boundary condition. Commun Nonlinear Sci Numer Simul 2009; 14: 1064–1068.

Prasad KV Vajravelu K Datti PS . The effects of variable fluid properties on the hydro-magnetic flow and heat transfer over a non-linearly stretching sheet. Int J Therm Sci 2010; 49: 603–610.

Shehzad SA Alsaedi A Hayat T . Influence of thermophoresis and Joule heating on the radiative flow of Jeffrey fluid with mixed convection. Braz J Chem Eng 2013; 30: 897–908.

Ellahi R Aziz S Zeeshan A . Non-Newtonian nanofluid flow through a porous medium between two coaxial cylinders with heat transfer and variable viscosity. J Porous Media 2013; 16: 205–216.

Gireesha BJ Kumar KG Krishanamurthy MR , et al. Enhancement of heat transfer in an unsteady rotating flow for the aqueous suspensions of single wall nanotubes under nonlinear thermal radiation: a numerical study. Colloid Polym Sci 2018; 296: 1501–1508.

Ramesh GK Kumar KG Gireesha BJ , et al. Magnetohydrodynamic nanoliquid due to unsteady contracting cylinder with uniform heat generation/absorption and convective condition. Alexandria Eng J 2018; 57: 3333–3340.

Kumar KG Gireesha BJ Rudraswamy NG , et al. An unsteady flow and melting heat transfer of a nanofluid over a stretching sheet embedded in a porous medium. Int J Appl Mech Eng 2019; 24: 245–258.

Khan M Rasheed A Salahuddin T . Radiation and chemical reactive impact on tangent hyperbolic fluid flow having double stratification. AIP Adv 2020; 10: 075211.

Acharya N Mondal H Kundu PK . Spectral approach to study the entropy generation of radiative mixed convective couple stress fluid flow over a permeable stretching cylinder. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 2020; 235: 0954406220954893.

Acharya N Maity S Kundu PK . Differential transformed approach of unsteady chemically reactive nanofluid flow over a bidirectional stretched surface in presence of magnetic field. Heat Transf 2020; 49: 3917–3942.

Acharya N . Spectral quasi linearization simulation of radiative nanofluidic transport over a bended surface considering the effects of multiple convective conditions. Eur J Mech B/Fluids 2020; 84: 139–154.

Acharya N Mabood F . On the hydrothermal features of radiative Fe₃O₄–graphene hybrid nanofluid flow over a slippery bended surface with heat source/sink. J Therm Anal Calorim 2021; 143: 1273–1289.

Khan M Rasheed A Salahuddin T , et al. Chemically reactive flow of hyperbolic tangent fluid flow having thermal radiation and double stratification embedded in porous medium. Ain Shams Eng J 2021. DOI:10.1016/j.asej.2021.02.017

Khan M Rasheed A . Slip velocity and temperature jump effects on molybdenum disulfide MoS2 and silicon oxide SiO₂ hybrid nanofluid near irregular 3D surface. Alexandria Eng J 2021; 60: 1689–1701.

Acharya N Bag R Kundu PK . Unsteady bioconvective squeezing flow with higher-order chemical reaction and second-order slip effects. Heat Transf 2021; 50: 5538–5562.

Farooq M Ahmad S Javed M , et al. Chemically reactive species in squeezed flow through modified Fourier’s and Fick’s laws. Eur Phys J Plus 2018; 133: 1–18.

Awais M Hayat T Alsaedi A , et al. Time-dependent three-dimensional boundary layer flow of a Maxwell fluid. Comput Fluids 2014; 91: 21–27.

Nadeem S Ahmad S Muhammad N . Computational study of Falkner-Skan problem for a static and moving wedge. Sens Actuators, B 2018; 263: 69–76.

Khan MI Waqas M Hayat T , et al. Behavior of stratification phenomenon in flow of Maxwell nanomaterial with motile gyrotactic microorganisms in the presence of magnetic field. Int J Mechan Sci 2017; 131 : 426–434.