Dispersion of metallic/ceramic matrix nanocomposite material through porous surfaces in magnetized hybrid nanofluids flow with shape and size effects
Abstract Matrix nanocomposites are high performance materials possessing unusual features along with unique design possibilities. Due to extraordinary thermophysical characteristic contained by these matrix nanocomposites materials they are useful in several areas ranging from packaging to biomedica...
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2021
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oai:doaj.org-article:3fa6c272ee5f41de90f64002de873d8c2021-12-02T17:34:48ZDispersion of metallic/ceramic matrix nanocomposite material through porous surfaces in magnetized hybrid nanofluids flow with shape and size effects10.1038/s41598-021-91152-z2045-2322https://doaj.org/article/3fa6c272ee5f41de90f64002de873d8c2021-06-01T00:00:00Zhttps://doi.org/10.1038/s41598-021-91152-zhttps://doaj.org/toc/2045-2322Abstract Matrix nanocomposites are high performance materials possessing unusual features along with unique design possibilities. Due to extraordinary thermophysical characteristic contained by these matrix nanocomposites materials they are useful in several areas ranging from packaging to biomedical applications. Being an environment friendly, utilization of nanocomposites offer new technological opportunities for several sectors of aerospace, automotive, electronics and biotechnology. In this regards, current pagination is devoted to analyze thermal features of viscous fluid flow between orthogonally rotating disks with inclusion of metallic matrix nanocomposite (MMNC) and ceramic matrix nanocomposites (CMNC) materials. Morphological aspects of these nanomaterials on flow and heat transfer characteristics has been investigated on hybrid viscous fluid flow. Mathematical structuring of problem along with empirical relations for nanocomposites materials are formulated in the form of partial differential equations and later on converted into ordinary differential expressions by using suitable variables. Solution of constructed coupled differential system is found by collaboration of Runge–Kutta and shooting methods. Variation in skin friction coefficient at lower and upper walls of disks along with measurement about heat transfer rate are calculated against governing physical parameters. Impact of flow concerning variables on axial, radial components of velocity and temperature distribution are also evaluated. Contour plots are also drawn to explore heat and thermal profiles. Comparison and critical analysis of MMNc and CMNc have been presented at lower and upper porous disks. Our computed analysis indicates that hybrid nanofluids show significant influence as compared to simple nanofluids with the permutation of the different shape factors.M. Zubair Akbar QureshiS. BilalM. Y. MalikQadeer RazaEl-Sayed M. SherifYong-Min LiNature PortfolioarticleMedicineRScienceQENScientific Reports, Vol 11, Iss 1, Pp 1-19 (2021) |
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Medicine R Science Q |
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Medicine R Science Q M. Zubair Akbar Qureshi S. Bilal M. Y. Malik Qadeer Raza El-Sayed M. Sherif Yong-Min Li Dispersion of metallic/ceramic matrix nanocomposite material through porous surfaces in magnetized hybrid nanofluids flow with shape and size effects |
| description |
Abstract Matrix nanocomposites are high performance materials possessing unusual features along with unique design possibilities. Due to extraordinary thermophysical characteristic contained by these matrix nanocomposites materials they are useful in several areas ranging from packaging to biomedical applications. Being an environment friendly, utilization of nanocomposites offer new technological opportunities for several sectors of aerospace, automotive, electronics and biotechnology. In this regards, current pagination is devoted to analyze thermal features of viscous fluid flow between orthogonally rotating disks with inclusion of metallic matrix nanocomposite (MMNC) and ceramic matrix nanocomposites (CMNC) materials. Morphological aspects of these nanomaterials on flow and heat transfer characteristics has been investigated on hybrid viscous fluid flow. Mathematical structuring of problem along with empirical relations for nanocomposites materials are formulated in the form of partial differential equations and later on converted into ordinary differential expressions by using suitable variables. Solution of constructed coupled differential system is found by collaboration of Runge–Kutta and shooting methods. Variation in skin friction coefficient at lower and upper walls of disks along with measurement about heat transfer rate are calculated against governing physical parameters. Impact of flow concerning variables on axial, radial components of velocity and temperature distribution are also evaluated. Contour plots are also drawn to explore heat and thermal profiles. Comparison and critical analysis of MMNc and CMNc have been presented at lower and upper porous disks. Our computed analysis indicates that hybrid nanofluids show significant influence as compared to simple nanofluids with the permutation of the different shape factors. |
| format |
article |
| author |
M. Zubair Akbar Qureshi S. Bilal M. Y. Malik Qadeer Raza El-Sayed M. Sherif Yong-Min Li |
| author_facet |
M. Zubair Akbar Qureshi S. Bilal M. Y. Malik Qadeer Raza El-Sayed M. Sherif Yong-Min Li |
| author_sort |
M. Zubair Akbar Qureshi |
| title |
Dispersion of metallic/ceramic matrix nanocomposite material through porous surfaces in magnetized hybrid nanofluids flow with shape and size effects |
| title_short |
Dispersion of metallic/ceramic matrix nanocomposite material through porous surfaces in magnetized hybrid nanofluids flow with shape and size effects |
| title_full |
Dispersion of metallic/ceramic matrix nanocomposite material through porous surfaces in magnetized hybrid nanofluids flow with shape and size effects |
| title_fullStr |
Dispersion of metallic/ceramic matrix nanocomposite material through porous surfaces in magnetized hybrid nanofluids flow with shape and size effects |
| title_full_unstemmed |
Dispersion of metallic/ceramic matrix nanocomposite material through porous surfaces in magnetized hybrid nanofluids flow with shape and size effects |
| title_sort |
dispersion of metallic/ceramic matrix nanocomposite material through porous surfaces in magnetized hybrid nanofluids flow with shape and size effects |
| publisher |
Nature Portfolio |
| publishDate |
2021 |
| url |
https://doaj.org/article/3fa6c272ee5f41de90f64002de873d8c |
| work_keys_str_mv |
AT mzubairakbarqureshi dispersionofmetallicceramicmatrixnanocompositematerialthroughporoussurfacesinmagnetizedhybridnanofluidsflowwithshapeandsizeeffects AT sbilal dispersionofmetallicceramicmatrixnanocompositematerialthroughporoussurfacesinmagnetizedhybridnanofluidsflowwithshapeandsizeeffects AT mymalik dispersionofmetallicceramicmatrixnanocompositematerialthroughporoussurfacesinmagnetizedhybridnanofluidsflowwithshapeandsizeeffects AT qadeerraza dispersionofmetallicceramicmatrixnanocompositematerialthroughporoussurfacesinmagnetizedhybridnanofluidsflowwithshapeandsizeeffects AT elsayedmsherif dispersionofmetallicceramicmatrixnanocompositematerialthroughporoussurfacesinmagnetizedhybridnanofluidsflowwithshapeandsizeeffects AT yongminli dispersionofmetallicceramicmatrixnanocompositematerialthroughporoussurfacesinmagnetizedhybridnanofluidsflowwithshapeandsizeeffects |
| _version_ |
1718379935755665408 |