Thermal analysis of mathematical model of heat and mass transfer through bioconvective Carreau nanofluid flow over an inclined stretchable cylinder
In this proceeding the main focus to scrutinize the heat and mass transfer rate increment due to the involvement of motile microorganisms in the Carreau nanofluid flow through an inclined stretchable cylinder under the consequences of activation energy and thermal radiation. This phenomenon has many...
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Elsevier
2024-11-01
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| Series: | Case Studies in Thermal Engineering |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2214157X24013340 |
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| author | Muhammad Abdul Basit Muhammad Imran Wael W. Mohammed Mohamed R. Ali Ahmed S. Hendy |
| author_facet | Muhammad Abdul Basit Muhammad Imran Wael W. Mohammed Mohamed R. Ali Ahmed S. Hendy |
| author_sort | Muhammad Abdul Basit |
| collection | DOAJ |
| description | In this proceeding the main focus to scrutinize the heat and mass transfer rate increment due to the involvement of motile microorganisms in the Carreau nanofluid flow through an inclined stretchable cylinder under the consequences of activation energy and thermal radiation. This phenomenon has many physical applications in the field of civil, mechanical and seismographic engineering. The research focuses on creating and analyzing new nanocomposites with applications in energy storage, showcasing the transformative impact of nanotechnology on the advancement of high-performance materials. First of all, for the numerical treatment of the above physical model mathematical model is developed in the form of partial differential equations (PDE's) by considering all involving quantities. The resultant model is highly nonlinear and of higher order. Appropriate similarity variables are defined to transform this system of PDE's into first order ordinary differential equations (ODE's). For numerical results we develop a numerical algorithm from nonlinear ODE's and use ‘bvp4c’ built in package of MATLAB. Numerical results are acquired from software in the form of graphical visuals and tabular data as narrated in the results and discussion section. Using this tabular data streamlines are constructed for the better understanding of heat and mass transfer through this phenomenon under the defined constraints. From results, velocity profile increased by the augmentation of values of curvature parameter. Thermal profile is stronger when values of thermophoresis parameter is boosted, Concentration of nanoparticle profile get smoother when temperature coefficient increased, and motile microorganism's density profile is enlarged upon inclining the values of bioconvection lewis number. |
| format | Article |
| id | doaj-art-1d0e48e8204a4b8db59cfe1c4a11d7f7 |
| institution | Kabale University |
| issn | 2214-157X |
| language | English |
| publishDate | 2024-11-01 |
| publisher | Elsevier |
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| series | Case Studies in Thermal Engineering |
| spelling | doaj-art-1d0e48e8204a4b8db59cfe1c4a11d7f72024-11-14T04:31:55ZengElsevierCase Studies in Thermal Engineering2214-157X2024-11-0163105303Thermal analysis of mathematical model of heat and mass transfer through bioconvective Carreau nanofluid flow over an inclined stretchable cylinderMuhammad Abdul Basit0Muhammad Imran1Wael W. Mohammed2Mohamed R. Ali3Ahmed S. Hendy4Department of Mathematics, Government College University, Faisalabad, Punjab, PakistanDepartment of Mathematics, Government College University, Faisalabad, Punjab, Pakistan; Corresponding author.Department of Mathematics, College of Science, University of Ha'il, Ha'il, 2440, Saudi Arabia; Department of Mathematics, Faculty of Science, Mansoura University, Mansoura, 35516, EgyptFaculty of Engineering, Benha National University, Obour Campus, Egypt; Basic Engineering Science Department, Benha Faculty of Engineering, Benha University, EgyptDepartment of Computational Mathematics and Computer Science, Institute of Natural Sciences and Mathematics, Ural Federal University, 19 Mira St, Yekaterinburg, 620002, Russia; Department of Mechanics and Mathematics, Western Caspian University, Baku, 1001, AzerbaijanIn this proceeding the main focus to scrutinize the heat and mass transfer rate increment due to the involvement of motile microorganisms in the Carreau nanofluid flow through an inclined stretchable cylinder under the consequences of activation energy and thermal radiation. This phenomenon has many physical applications in the field of civil, mechanical and seismographic engineering. The research focuses on creating and analyzing new nanocomposites with applications in energy storage, showcasing the transformative impact of nanotechnology on the advancement of high-performance materials. First of all, for the numerical treatment of the above physical model mathematical model is developed in the form of partial differential equations (PDE's) by considering all involving quantities. The resultant model is highly nonlinear and of higher order. Appropriate similarity variables are defined to transform this system of PDE's into first order ordinary differential equations (ODE's). For numerical results we develop a numerical algorithm from nonlinear ODE's and use ‘bvp4c’ built in package of MATLAB. Numerical results are acquired from software in the form of graphical visuals and tabular data as narrated in the results and discussion section. Using this tabular data streamlines are constructed for the better understanding of heat and mass transfer through this phenomenon under the defined constraints. From results, velocity profile increased by the augmentation of values of curvature parameter. Thermal profile is stronger when values of thermophoresis parameter is boosted, Concentration of nanoparticle profile get smoother when temperature coefficient increased, and motile microorganism's density profile is enlarged upon inclining the values of bioconvection lewis number.http://www.sciencedirect.com/science/article/pii/S2214157X24013340BioconvectionCarreau nanofluidStretching cylinderWu`s slipThermal radiationActivation energy |
| spellingShingle | Muhammad Abdul Basit Muhammad Imran Wael W. Mohammed Mohamed R. Ali Ahmed S. Hendy Thermal analysis of mathematical model of heat and mass transfer through bioconvective Carreau nanofluid flow over an inclined stretchable cylinder Case Studies in Thermal Engineering Bioconvection Carreau nanofluid Stretching cylinder Wu`s slip Thermal radiation Activation energy |
| title | Thermal analysis of mathematical model of heat and mass transfer through bioconvective Carreau nanofluid flow over an inclined stretchable cylinder |
| title_full | Thermal analysis of mathematical model of heat and mass transfer through bioconvective Carreau nanofluid flow over an inclined stretchable cylinder |
| title_fullStr | Thermal analysis of mathematical model of heat and mass transfer through bioconvective Carreau nanofluid flow over an inclined stretchable cylinder |
| title_full_unstemmed | Thermal analysis of mathematical model of heat and mass transfer through bioconvective Carreau nanofluid flow over an inclined stretchable cylinder |
| title_short | Thermal analysis of mathematical model of heat and mass transfer through bioconvective Carreau nanofluid flow over an inclined stretchable cylinder |
| title_sort | thermal analysis of mathematical model of heat and mass transfer through bioconvective carreau nanofluid flow over an inclined stretchable cylinder |
| topic | Bioconvection Carreau nanofluid Stretching cylinder Wu`s slip Thermal radiation Activation energy |
| url | http://www.sciencedirect.com/science/article/pii/S2214157X24013340 |
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