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Colloid and Polymer Science

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15-12-2023 | Research

On thermal distribution of MHD mixed convective flow of a Casson hybrid nanofluid over an exponentially stretching surface with impact of chemical reaction and ohmic heating

Authors: Ebrahem A. Algehyne, Fahad Maqbul Alamrani, Arshad Khan, Khurshid Alam Khan, Showkat Ahmad Lone, Anwar Saeed

Published in: Colloid and Polymer Science | Issue 4/2024

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Abstract

This work signifies insights into diverse phenomena relevant to fluid dynamics, heat transfer, and chemical reactions in advanced materials. This work aims to discuss the mixed convective Casson magneto-hydrodynamics (MHD) hybrid nanofluid flow on a surface which is stretching in an exponential manner. To mechanize the thermal behavior of flow, the Buongiorno model along with dissipative effects has been incorporated in the current problem. Suitable variables have been employed to change the system of leading equations into dimensionless form, and the homotopy analysis approach (HAM) has been employed for the solution of resultant equations. As the outcome of this work, it has been observed that velocity distribution is reduced with escalation in magnetic, mixed convection, porosity, and buoyancy ratio factors. Thermal profiles are escalated with growth in Brownian motion, thermophoresis, magnetic field, and radiation factors as well as Eckert number. A comparative analysis has also been conducted in this work and found an acceptable agreement among previous and current results.

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Choi SU, Eastman JA (1995) Enhancing thermal conductivity of fluids with nanoparticles, Argonne National Lab. (ANL), Argonne, IL (United States)

Selimefendigil F, Şenol G, Öztop HF, Abu-Hamdeh NH (2023) A review on non-newtonian nanofluid applications for convection in cavities under magnetic field. Symmetry 15(1):41CrossRef

Yi S, Li J, Zhu J, Wang X, Mo J, Ding S (2020) Investigation of machining Ti-6Al-4V with graphene oxide nanofluids: tool wear, cutting forces and cutting vibration. J Manuf Process 49:35–49CrossRef

Varun Kumar RS, Gunderi Dhananjaya P, Naveen Kumar R, Punith Gowda RJ, Prasannakumara BC (2022) Modeling and theoretical investigation on Casson nanofluid flow over a curved stretching surface with the influence of magnetic field and chemical reaction. Int J Comput Methods Eng Sci Mech 23(1):12–19CrossRef

Acharya N, Mabood F, Shahzad SA, Badruddin IA (2022) Hydrothermal variations of radiative nanofluid flow by the influence of nanoparticles diameter and nanolayer. Int Commun Heat Mass Transfer 130:105781CrossRef

Raza Q, Qureshi MZA, Khan BA, Hussein AK, Ali B, Shah NA (2022) Insight into dynamic of mono and hybrid nanofluids subject to binary chemical reaction, activation energy, and magnetic field through the porous surfaces. Mathematics 10:3013CrossRef

Ali B, Siddique I, Khan I, Masood B, Hussain S (2021) Magnetic dipole and thermal radiation effects on hybrid base micropolar CNTs flow over a stretching sheet: finite element method approach. Results in Physics 25:104145CrossRef

Alrabaiah H, Bilal M, Khan MA, Muhammad T, Legas EY (2022) Parametric estimation of gyrotactic microorganism hybrid nanofluid flow between the conical gap of spinning disk-cone apparatus. Sci Rep 12(1):59CrossRefPubMedPubMedCentral

Awan AU, Shah SAA, Ali B (2022) Bio-convection effects on Williamson nanofluid flow with exponential heat source and motile microorganism over a stretching sheet. Chin J Phys 77:2795–2810CrossRef

10.

Khan SA, Ali B, Eze C, Lau KT, Ali L, Chen J, Zhao J (2021) Magnetic dipole and thermal radiation impacts on stagnation point flow of micropolar based nanofluids over a vertically stretching sheet: finite element approach. Processes 9(7):1089CrossRef

11.

Doğanay S, Çetin L, Ezan MA, Turgut A (2023) Constant flow rate micropumping using closed-loop control of magnetically actuated nanofluid. Trans Inst Meas Control 01423312221140219

12.

Al-Chlaihawi KK, Alaydamee HH, Faisal AE, Al-Farhany K, Alomari MA (2022) Newtonian and non-Newtonian nanofluids with entropy generation in conjugate natural convection of hybrid nanofluid-porous enclosures: a review. Heat Transfer 51(2):1725–1745CrossRef

13.

Eldabe NTM, Saddeck G, El-Sayed AF (2001) Heat transfer of MHD non-Newtonian Casson fluid flow between two rotating cylinders. Mech Mech Eng 5(2):237–251

14.

Makanda G, Shaw S, Sibanda P (2015) Effects of radiation on MHD free convection of a Casson fluid from a horizontal circular cylinder with partial slip in non-Darcy porous medium with viscous dissipation. Boundary Value Problems 2015(1):1–14CrossRef

15.

Khan NW, Khan A, Usman M, Gul T, Mouldi A, Brahmia A (2022) Influences of Marangoni convection and variable magnetic field on hybrid nanofluid thin-film flow past a stretching surface. Chin Phys B 31(6):064403CrossRef

16.

Asjad MI, Zahid M, Inc M, Baleanu D, Almohsen B (2022) Impact of activation energy and MHD on Williamson fluid flow in the presence of bioconvection. Alex Eng J 61(11):8715–8727CrossRef

17.

Vishalakshi AB, Mahabaleshwar US, Sarris IE (2022) An MHD fluid flow over a porous stretching/shrinking sheet with slips and mass transpiration. Micromachines 13(1):116CrossRefPubMedPubMedCentral

18.

Rehman KU, Shatanawi W, Al-Mdallal QM (2022) A comparative remark on heat transfer in thermally stratified MHD Jeffrey fluid flow with thermal radiations subject to cylindrical/plane surfaces. Case Studies in Thermal Engineering 32:101913CrossRef

19.

Ali B, Raju CSK, Ali L, Hussain S, Kamran T (2021) G-Jitter impact on magnetohydrodynamic non-Newtonian fluid over an inclined surface: finite element simulation. Chin J Phys 71:479–491CrossRef

20.

Guedri K, Khan A, Gul T, Mukhtar S, Alghamdi W, Yassen MF, Tag Eldin E (2022) Thermally dissipative flow and entropy analysis for electromagnetic trihybrid nanofluid flow past a stretching surface. ACS Omega 7(37):33432–33442CrossRefPubMedPubMedCentral

21.

Ali B, Naqvi RA, Hussain D, Aldossary OM, Hussain S (2020) Magnetic rotating flow of a hybrid nano-materials Ag-MoS2 and Go-MoS2 in C2H6O2-H2O hybrid base fluid over an extending surface involving activation energy: FE simulation. Mathematics 8(10):1730CrossRef

22.

Patel HR (2022) Cross diffusion and heat generation effects on mixed convection stagnation point MHD Carreau fluid flow in a porous medium. Int J Ambient Energy 43(1):4990–5005CrossRef

23.

Jafar AB, Shafie S, Ullah I, Safdar R, Jamshed W, Pasha AA, Rahman MM, Hussain SM, Rehman A, El Din ESMT, Eid MR (2022) Mixed convection flow of an electrically conducting viscoelastic fluid past a vertical nonlinearly stretching sheet. Sci Rep 12(1):14679CrossRefPubMedPubMedCentral

24.

Shamshuddin MD, Mabood F, Khan WA, Rajput GR (2023) Exploration of thermal Péclet number, vortex viscosity, and Reynolds number on two-dimensional flow of micropolar fluid through a channel due to mixed convection. Heat Transfer 52(1):854–873CrossRef

25.

Bejawada SG, Reddy YD, Jamshed W, Eid MR, Safdar R, Nisar KS, Isa SSPM, Alam MM, Parvin S (2022) 2D mixed convection non-Darcy model with radiation effect in a nanofluid over an inclined wavy surface. Alex Eng J 61(12):9965–9976CrossRef

26.

Mandal DK, Biswas N, Manna NK, Gorla RSR, Chamkha AJ (2023) Hybrid nanofluid magnetohydrodynamic mixed convection in a novel W-shaped porous system. Int J Numer Meth Heat Fluid Flow 33(2):510–544CrossRef

27.

Asghar A, Chandio AF, Shah Z, Vrinceanu N, Deebani W, Shutaywi M, Lund LA (2023) Magnetized mixed convection hybrid nanofluid with effect of heat generation/absorption and velocity slip condition. Heliyon 9(2)

28.

Ali B, Ali L, Abdal S, Asjad MI (2021) Significance of Brownian motion and thermophoresis influence on dynamics of Reiner-Rivlin fluid over a disk with non-Fourier heat flux theory and gyrotactic microorganisms: a numerical approach. Phys Scr 96(9):094001CrossRef

29.

Nawaz Y, Arif MS, Abodayeh K, Mansoor M (2023) Finite difference schemes for MHD mixed convective Darcy-Forchheimer flow of Non-Newtonian fluid over oscillatory sheet: a computational study. Frontiers in Physics 11:16CrossRef

30.

Islam S, Khan A, Kumam P, Alrabaiah H, Shah Z, Khan W, Zubair M, Jawad M (2020) Radiative mixed convection flow of Maxwell nanofluid over a stretching cylinder with joule heating and heat source/sink effects. Sci Rep 10(1):17823CrossRefPubMedPubMedCentral

31.

Jawad M, Saeed A, Khan A, Ali I, Alrabaiah H, Gul T, Zubair M (2021) Analytical study of MHD mixed convection flow for Maxwell nanofluid with variable thermal conductivity and Soret and Dufour effects. AIP Adv 11(3):035215CrossRef

32.

Everts M, Mahdavi M, Sharifpur M, Meyer JP (2023) Simultaneous development of the hydrodynamic and thermal boundary layers of mixed convective laminar flow through a horizontal tube with a constant heat flux. Int J Therm Sci 187:108178CrossRef

33.

Khan A, Ali I, Almusawa MY, Gul T, Alghamdi W (2023) Influences of double diffusion upon radiative flow of thin film Maxwell fluid through a stretching channel. Chin Phys B

34.

Ayed H (2023) Couple stress and Darcy Forchheimer hybrid nanofluid flow on a vertical plate by means of double diffusion Cattaneo-Christov analysis. Chin Phys B 32(4):040205CrossRef

35.

Pal D, Mondal SK (2018) MHD nanofluid bioconvection over an exponentially stretching sheet in the presence of gyrotactic microorganisms and thermal radiation. BioNanoScience 8(1):272–287CrossRef

36.

Neethu TS, Sabu AS, Mathew A, Wakif A, Areekara S (2022) Multiple linear regression on bioconvective MHD hybrid nanofluid flow past an exponential stretching sheet with radiation and dissipation effects. Int Commun Heat Mass Transfer 135:106115CrossRef

37.

Bharathi V, Vijayaragavan R, Prakash J (2020) Comparative analysis of Cu/blood and Cu–CuO/blood nanofluids on a peristaltic flow governed by an asymmetric channel. Heat Transfer 49(8):4923–4944CrossRef

38.

Liao SJ (1999) Explicit totally analytic approximate solution for Blasius viscous flow problems. Int J Non-Linear Mech 34:759–778CrossRef

39.

Liao SJ (2010) An optimal homotopy analysis approach for strongly nonlinear differential equations. Commun Nonlinear Sci Numer Simul 15:2003–2016CrossRef

40.

Zaimi K, Ishak A, Pop I (2014) Flow past a permeable stretching/shrinking sheet in a nanofluid using two-phase model. PLoS ONE 9(11):e111743CrossRefPubMedPubMedCentral

41.

Grubka LJ, Bobba KM (1985) Heat transfer characteristics of a continuous stretching surface with variable temperature. J Heat Transfer 107(1):248–250CrossRef

Title: On thermal distribution of MHD mixed convective flow of a Casson hybrid nanofluid over an exponentially stretching surface with impact of chemical reaction and ohmic heating
Authors: Ebrahem A. Algehyne
Fahad Maqbul Alamrani
Arshad Khan
Khurshid Alam Khan
Showkat Ahmad Lone
Anwar Saeed
Publication date: 15-12-2023
Publisher: Springer Berlin Heidelberg
Published in: Colloid and Polymer Science / Issue 4/2024
Print ISSN: 0303-402X
Electronic ISSN: 1435-1536
DOI: https://doi.org/10.1007/s00396-023-05214-x

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