Heat and mass transfer performance of power-law nanofluid flow with thermal radiation and joule heating aspects: Surface heat flux analysis
In the present advanced technological century, investigation of Joule-heat effects and radiating energy on power-law nanomaterial movement along a vertical extended sheet have presented the substantial potential in numerous engineering and technological applications. In this manuscript, the detailed...
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Elsevier
2025-03-01
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| Series: | Case Studies in Thermal Engineering |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2214157X25001030 |
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| author | Mhamed Benaissa Zia Ullah A. Dahshan Md Mahbub Alam Khadijah M. Abualnaja Hanaa Abu-Zinadah Abdullah A. Faqihi Nidhal Ben Khedher |
| author_facet | Mhamed Benaissa Zia Ullah A. Dahshan Md Mahbub Alam Khadijah M. Abualnaja Hanaa Abu-Zinadah Abdullah A. Faqihi Nidhal Ben Khedher |
| author_sort | Mhamed Benaissa |
| collection | DOAJ |
| description | In the present advanced technological century, investigation of Joule-heat effects and radiating energy on power-law nanomaterial movement along a vertical extended sheet have presented the substantial potential in numerous engineering and technological applications. In this manuscript, the detailed numerical study of thermal-mass transmission with joule heating and thermal radiation influence on power-law nanofluid flow is presented. The physical problems are converted into a nonlinear ordinary differential equation under the implementation of similarity transformations, stream functions and Keller box method. Utilizing the similarity transformation, thermal energy, mass, and momentum are reduced to an algebraic system. Dimensionless stretching surface functions are impacted by nanofluid parameters such as magnetic parameter, thermophoresis parameter Nt, Nb, joule heating J, thermal radiation Nr, Le, and Pr. These effects are displayed numerically and graphically. With the use of MATLAB and Keller box method, the quantitative connection of skin friction and heat transport is demonstrated. The values of skin friction coefficient Cf, Sherwood number Shx and Nusselt number Nux are calculated in tables and compared with publish results for good harmony. It is found that higher value of joule factor enhances maximum heat-rate in fluid at n = 0.3. |
| format | Article |
| id | doaj-art-8cc471d890794933ab5e441ec0f88816 |
| institution | Kabale University |
| issn | 2214-157X |
| language | English |
| publishDate | 2025-03-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Case Studies in Thermal Engineering |
| spelling | doaj-art-8cc471d890794933ab5e441ec0f888162025-02-12T05:31:04ZengElsevierCase Studies in Thermal Engineering2214-157X2025-03-0167105843Heat and mass transfer performance of power-law nanofluid flow with thermal radiation and joule heating aspects: Surface heat flux analysisMhamed Benaissa0Zia Ullah1A. Dahshan2Md Mahbub Alam3Khadijah M. Abualnaja4Hanaa Abu-Zinadah5Abdullah A. Faqihi6Nidhal Ben Khedher7Chemical Engineering Department, College of Engineering, University of Ha’il, P.O. Box 2440, Ha’il, 81441, Saudi ArabiaCenter for Turbulence Control, Harbin Institute of Technology (Shenzhen), Shenzhen, 518055, China; Department of Mathematics and Statistics, The University of Lahore, Sargodha-Campus, 40100, Sargodha, Pakistan; Corresponding author. Center for Turbulence Control, Harbin Institute of Technology (Shenzhen), Shenzhen, 518055, China.Department of Physics, College of Science, King Khalid University, Abha, 61413, Saudi ArabiaCenter for Turbulence Control, Harbin Institute of Technology (Shenzhen), Shenzhen, 518055, China; Corresponding author. Center for Turbulence Control, Harbin Institute of Technology (Shenzhen), Shenzhen, 518055, China.Department of Mathematics and Statistics, College of Science, Taif University, P.O. Box 11099, Taif, 21944, Saudi ArabiaUniversity of Jeddah, College of Science, Department of Mathematics and Statistics, Jeddah, Saudi ArabiaDepartment of Industrial Engineering, College of Engineering and Computer Science, Jazan University, Jazan, P.O. Box 706, Jazan, 45142, Saudi ArabiaMechanical Engineering, Department, College of Engineering, University of Ha’il, P.O. Box 2440, Ha’il, 81441, Saudi ArabiaIn the present advanced technological century, investigation of Joule-heat effects and radiating energy on power-law nanomaterial movement along a vertical extended sheet have presented the substantial potential in numerous engineering and technological applications. In this manuscript, the detailed numerical study of thermal-mass transmission with joule heating and thermal radiation influence on power-law nanofluid flow is presented. The physical problems are converted into a nonlinear ordinary differential equation under the implementation of similarity transformations, stream functions and Keller box method. Utilizing the similarity transformation, thermal energy, mass, and momentum are reduced to an algebraic system. Dimensionless stretching surface functions are impacted by nanofluid parameters such as magnetic parameter, thermophoresis parameter Nt, Nb, joule heating J, thermal radiation Nr, Le, and Pr. These effects are displayed numerically and graphically. With the use of MATLAB and Keller box method, the quantitative connection of skin friction and heat transport is demonstrated. The values of skin friction coefficient Cf, Sherwood number Shx and Nusselt number Nux are calculated in tables and compared with publish results for good harmony. It is found that higher value of joule factor enhances maximum heat-rate in fluid at n = 0.3.http://www.sciencedirect.com/science/article/pii/S2214157X25001030Power-law nanofluidStretching surfaceJoule heatingThermal radiationMagnetohydrodynamic |
| spellingShingle | Mhamed Benaissa Zia Ullah A. Dahshan Md Mahbub Alam Khadijah M. Abualnaja Hanaa Abu-Zinadah Abdullah A. Faqihi Nidhal Ben Khedher Heat and mass transfer performance of power-law nanofluid flow with thermal radiation and joule heating aspects: Surface heat flux analysis Case Studies in Thermal Engineering Power-law nanofluid Stretching surface Joule heating Thermal radiation Magnetohydrodynamic |
| title | Heat and mass transfer performance of power-law nanofluid flow with thermal radiation and joule heating aspects: Surface heat flux analysis |
| title_full | Heat and mass transfer performance of power-law nanofluid flow with thermal radiation and joule heating aspects: Surface heat flux analysis |
| title_fullStr | Heat and mass transfer performance of power-law nanofluid flow with thermal radiation and joule heating aspects: Surface heat flux analysis |
| title_full_unstemmed | Heat and mass transfer performance of power-law nanofluid flow with thermal radiation and joule heating aspects: Surface heat flux analysis |
| title_short | Heat and mass transfer performance of power-law nanofluid flow with thermal radiation and joule heating aspects: Surface heat flux analysis |
| title_sort | heat and mass transfer performance of power law nanofluid flow with thermal radiation and joule heating aspects surface heat flux analysis |
| topic | Power-law nanofluid Stretching surface Joule heating Thermal radiation Magnetohydrodynamic |
| url | http://www.sciencedirect.com/science/article/pii/S2214157X25001030 |
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