MHD Williamson nanofluid flow over a slender elastic sheet of irregular thickness in the presence of bioconvection
Bioconvection phenomena for MHD Williamson nanofluid flow over an extending sheet of irregular thickness are investigated theoretically, and non-uniform viscosity and thermal conductivity depending on temperature are taken into account. The magnetic field of uniform strength creates a magnetohydrody...
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sg-ntu-dr.10356-1539572022-01-17T03:48:01Z MHD Williamson nanofluid flow over a slender elastic sheet of irregular thickness in the presence of bioconvection Wang, Fuzhang Asjad, Muhammad Imran Rehman, Saif Ur Ali, Bagh Hussain, Sajjad Gia, Tuan Nguyen Muhammad, Taseer School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Nanofluid Bioconvection Bioconvection phenomena for MHD Williamson nanofluid flow over an extending sheet of irregular thickness are investigated theoretically, and non-uniform viscosity and thermal conductivity depending on temperature are taken into account. The magnetic field of uniform strength creates a magnetohydrodynamics effect. The basic formulation of the model developed in partial differential equations which are later transmuted into ordinary differential equations by employing similarity variables. To elucidate the influences of controlling parameters on dependent quantities of physical significance, a computational procedure based on the Runge-Kutta method along shooting technique is coded in MATLAB platform. This is a widely used procedure for the solution of such problems because it is efficient with fifth-order accuracy and cost-effectiveness. The enumeration of the results reveals that Williamson fluid parameter λ, variable viscosity parameter Λμ and wall thickness parameter ς impart reciprocally decreasing effect on fluid velocity whereas these parameters directly enhance the fluid temperature. The fluid temperature is also improved with Brownian motion parameter Nb and thermophoresis parameter Nt. The boosted value of Brownian motion Nb and Lewis number Le reduce the concentration of nanoparticles. The higher inputs of Peclet number Pe and bioconvection Lewis number Lb decline the bioconvection distribution. The velocity of non-Newtonian (Williamson nanofluid) is less than the viscous nanofluid but temperature behaves oppositely. Published version The work was supported by the Natural Science Foundation of Anhui Province (Project No. 1908085QA09) and the Univeristy Natural Science Research project of Anhui Province (Project No. KJ2019A0591, KJ2020ZD008). 2022-01-17T03:48:01Z 2022-01-17T03:48:01Z 2021 Journal Article Wang, F., Asjad, M. I., Rehman, S. U., Ali, B., Hussain, S., Gia, T. N. & Muhammad, T. (2021). MHD Williamson nanofluid flow over a slender elastic sheet of irregular thickness in the presence of bioconvection. Nanomaterials, 11(9), 2297-. https://dx.doi.org/10.3390/nano11092297 2079-4991 https://hdl.handle.net/10356/153957 10.3390/nano11092297 34578612 2-s2.0-85114256286 9 11 2297 en Nanomaterials © 2021 The Author(s). Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Mechanical engineering Nanofluid Bioconvection Wang, Fuzhang Asjad, Muhammad Imran Rehman, Saif Ur Ali, Bagh Hussain, Sajjad Gia, Tuan Nguyen Muhammad, Taseer MHD Williamson nanofluid flow over a slender elastic sheet of irregular thickness in the presence of bioconvection |
| description |
Bioconvection phenomena for MHD Williamson nanofluid flow over an extending sheet of irregular thickness are investigated theoretically, and non-uniform viscosity and thermal conductivity depending on temperature are taken into account. The magnetic field of uniform strength creates a magnetohydrodynamics effect. The basic formulation of the model developed in partial differential equations which are later transmuted into ordinary differential equations by employing similarity variables. To elucidate the influences of controlling parameters on dependent quantities of physical significance, a computational procedure based on the Runge-Kutta method along shooting technique is coded in MATLAB platform. This is a widely used procedure for the solution of such problems because it is efficient with fifth-order accuracy and cost-effectiveness. The enumeration of the results reveals that Williamson fluid parameter λ, variable viscosity parameter Λμ and wall thickness parameter ς impart reciprocally decreasing effect on fluid velocity whereas these parameters directly enhance the fluid temperature. The fluid temperature is also improved with Brownian motion parameter Nb and thermophoresis parameter Nt. The boosted value of Brownian motion Nb and Lewis number Le reduce the concentration of nanoparticles. The higher inputs of Peclet number Pe and bioconvection Lewis number Lb decline the bioconvection distribution. The velocity of non-Newtonian (Williamson nanofluid) is less than the viscous nanofluid but temperature behaves oppositely. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Wang, Fuzhang Asjad, Muhammad Imran Rehman, Saif Ur Ali, Bagh Hussain, Sajjad Gia, Tuan Nguyen Muhammad, Taseer |
| format |
Article |
| author |
Wang, Fuzhang Asjad, Muhammad Imran Rehman, Saif Ur Ali, Bagh Hussain, Sajjad Gia, Tuan Nguyen Muhammad, Taseer |
| author_sort |
Wang, Fuzhang |
| title |
MHD Williamson nanofluid flow over a slender elastic sheet of irregular thickness in the presence of bioconvection |
| title_short |
MHD Williamson nanofluid flow over a slender elastic sheet of irregular thickness in the presence of bioconvection |
| title_full |
MHD Williamson nanofluid flow over a slender elastic sheet of irregular thickness in the presence of bioconvection |
| title_fullStr |
MHD Williamson nanofluid flow over a slender elastic sheet of irregular thickness in the presence of bioconvection |
| title_full_unstemmed |
MHD Williamson nanofluid flow over a slender elastic sheet of irregular thickness in the presence of bioconvection |
| title_sort |
mhd williamson nanofluid flow over a slender elastic sheet of irregular thickness in the presence of bioconvection |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/153957 |
| _version_ |
1722355323492106240 |