| S. K. ASHA,G. MAIL.Entropy Generation and Thermal Radiation Effects on Nanofluid over Permeable Stretching Sheet[J].数学研究及应用,2022,42(5):523~538 |
| Entropy Generation and Thermal Radiation Effects on Nanofluid over Permeable Stretching Sheet |
| Entropy Generation and Thermal Radiation Effects on Nanofluid over Permeable Stretching Sheet |
| 投稿时间:2022-01-28 修订日期:2022-05-21 |
| DOI:10.3770/j.issn:2095-2651.2022.05.008 |
| 中文关键词: stretching sheet partial slip permeable nonlinear thermal radiation entropy generation Jeffrery nanofluid |
| 英文关键词:stretching sheet partial slip permeable nonlinear thermal radiation entropy generation Jeffrery nanofluid |
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| 中文摘要: |
| In the present paper, effects of entropy generation and nonlinear thermal radiation on Jeffery nanofluid over permeable stretching sheet with partial slip effect were analyzed. The suitable similarity transformation is utilized for the reduction of a set of governing equations, which are solved by using Differential Transformation Method (DTM) with the help of symbolic software MATHEMATICA. The accuracy of impact of slip parameter on coefficient of skin friction by using DTM and numerical method (Shooting technique with fourth-order Runge-Kutta) is illustrated and good agreement is found. Further, velocity, temperature, nanoparticle volume fraction and entropy generation profiles are shown graphically and studied in detail for various physical parameters. We notice that, as slip parameter rises the velocity and entropy generation profile rises. Enhancement in the effect of nonlinear thermal radiation reduces the entropy generation. |
| 英文摘要: |
| In the present paper, effects of entropy generation and nonlinear thermal radiation on Jeffery nanofluid over permeable stretching sheet with partial slip effect were analyzed. The suitable similarity transformation is utilized for the reduction of a set of governing equations, which are solved by using Differential Transformation Method (DTM) with the help of symbolic software MATHEMATICA. The accuracy of impact of slip parameter on coefficient of skin friction by using DTM and numerical method (Shooting technique with fourth-order Runge-Kutta) is illustrated and good agreement is found. Further, velocity, temperature, nanoparticle volume fraction and entropy generation profiles are shown graphically and studied in detail for various physical parameters. We notice that, as slip parameter rises the velocity and entropy generation profile rises. Enhancement in the effect of nonlinear thermal radiation reduces the entropy generation. |
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