Eyring-Powell nano liquid flow through permeable elongated sheet conveying inclined magnetic field subject to constructive chemical reaction and multiple slip effects
The present study examines the multiple slip effects and constructive chemical reaction on Eyring-Powell nanoliquid through a permeable elongated sheet on an inclined magnetic field. The energy balance equation includes Heat and Joule dissipation terms. The renowned Buongiorno nanofluid model is emp...
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| Published in | International journal of modelling & simulation Vol. 43; no. 4; pp. 533 - 548 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Calgary
Taylor & Francis
04.07.2023
Taylor & Francis Ltd |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0228-6203 1925-7082 |
| DOI | 10.1080/02286203.2022.2094648 |
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| Abstract | The present study examines the multiple slip effects and constructive chemical reaction on Eyring-Powell nanoliquid through a permeable elongated sheet on an inclined magnetic field. The energy balance equation includes Heat and Joule dissipation terms. The renowned Buongiorno nanofluid model is employed extensively to explore the thermophoresis and Brownian motion phenomena. The primary partial differential equations (PDEs) of governing flow phenomena are remodeled to non-linear ordinary differential equations (ODEs) by adopting proper similarity invariants. Runge-Kutta 4
th
order quadrature employing shooting technique is utilized to transform boundary value problem to initial value problem to seek numerical results via graphs and tables on physically interesting parameters. Current outcomes are validated through the comparison with previously published studies. An applied magnetic field slows down the fluid and raises both thermal and solutal boundary layers. It is significant to notice that the thermal boundary layer rises, as the Brownian and Thermophoresis are amplified. |
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| AbstractList | The present study examines the multiple slip effects and constructive chemical reaction on Eyring-Powell nanoliquid through a permeable elongated sheet on an inclined magnetic field. The energy balance equation includes Heat and Joule dissipation terms. The renowned Buongiorno nanofluid model is employed extensively to explore the thermophoresis and Brownian motion phenomena. The primary partial differential equations (PDEs) of governing flow phenomena are remodeled to non-linear ordinary differential equations (ODEs) by adopting proper similarity invariants. Runge-Kutta 4th order quadrature employing shooting technique is utilized to transform boundary value problem to initial value problem to seek numerical results via graphs and tables on physically interesting parameters. Current outcomes are validated through the comparison with previously published studies. An applied magnetic field slows down the fluid and raises both thermal and solutal boundary layers. It is significant to notice that the thermal boundary layer rises, as the Brownian and Thermophoresis are amplified. The present study examines the multiple slip effects and constructive chemical reaction on Eyring-Powell nanoliquid through a permeable elongated sheet on an inclined magnetic field. The energy balance equation includes Heat and Joule dissipation terms. The renowned Buongiorno nanofluid model is employed extensively to explore the thermophoresis and Brownian motion phenomena. The primary partial differential equations (PDEs) of governing flow phenomena are remodeled to non-linear ordinary differential equations (ODEs) by adopting proper similarity invariants. Runge-Kutta 4 th order quadrature employing shooting technique is utilized to transform boundary value problem to initial value problem to seek numerical results via graphs and tables on physically interesting parameters. Current outcomes are validated through the comparison with previously published studies. An applied magnetic field slows down the fluid and raises both thermal and solutal boundary layers. It is significant to notice that the thermal boundary layer rises, as the Brownian and Thermophoresis are amplified. |
| Author | Patil, Amar B. Rajput, Govind R. Patil, Vishwambhar S. Shamshuddin, MD Humane, Pooja P. |
| Author_xml | – sequence: 1 givenname: Vishwambhar S. orcidid: 0000-0001-9185-3735 surname: Patil fullname: Patil, Vishwambhar S. email: vishme.p@gmail.com organization: Govt. College of Engineering – sequence: 2 givenname: Amar B. orcidid: 0000-0003-1130-7350 surname: Patil fullname: Patil, Amar B. organization: Shivaji University – sequence: 3 givenname: MD orcidid: 0000-0002-2453-8492 surname: Shamshuddin fullname: Shamshuddin, MD organization: Vaagdevi College of Engineering (Autonomous) – sequence: 4 givenname: Pooja P. orcidid: 0000-0003-2600-2867 surname: Humane fullname: Humane, Pooja P. organization: Shivaji University – sequence: 5 givenname: Govind R. orcidid: 0000-0001-9572-7840 surname: Rajput fullname: Rajput, Govind R. organization: SVKM's, NMIMS, Mukesh Patel School of Technology Management and Engineering, Shirpur campus |
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| SubjectTerms | Boundary value problems Brownian motion Chemical reaction Chemical reactions Elongation Liquid flow Magnetic fields Magnetic permeability Magnetohydrodynamics (MHD) Nanofluids Nonlinear differential equations ohmic heating Partial differential equations Quadratures Runge-Kutta method Thermal boundary layer thermal radiation Thermophoresis viscous dissipation |
| Title | Eyring-Powell nano liquid flow through permeable elongated sheet conveying inclined magnetic field subject to constructive chemical reaction and multiple slip effects |
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