Significance of melting phenomena on Darcy–Forchheimer flow of trihybrid nanofluid over a disk in the presence of thermophoresis particles deposition
The purpose of the proposed study is to examine the significance of Marangoni convection and inclined MHD on an axisymmetric Darcy–Forchheimer flow of a ternary hybrid nanofluid across an infinite disk that includes melting processes. The thermophoresis particle deposition, Joule heating, taken into...
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| Published in: | Multiscale and Multidisciplinary Modeling, Experiments and Design Vol. 8; no. 1 |
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| Language: | English |
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| Abstract | The purpose of the proposed study is to examine the significance of Marangoni convection and inclined MHD on an axisymmetric Darcy–Forchheimer flow of a ternary hybrid nanofluid across an infinite disk that includes melting processes. The thermophoresis particle deposition, Joule heating, taken into account. This suggested model aims to compare the Yamada-Ota model and Xue thermal conductivity ternary hybrid nanofluid models' performances. In order to claim the assets of the trihybrid nanofluid model,
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4
,
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particles are combined with an improper fluid composed of
50
%
ethylene glycol and
50
%
water. The improvement of heat transfer processes in thermal management systems, such as those used in the cooling of electronic devices, automobiles, and aerospace components, depends heavily on this model. It can also be used in energy systems, where it can increase the efficiency of solar collectors, nuclear reactors, and geothermal reservoirs by optimizing heat transport in nanofluids. Designing effective filtration, coating, and drug delivery systems requires an understanding of particle deposition behavior, which is made possible by the use of thermophoresis. By utilizing the proper variables, the system of partial differential equations can be converted into an ordinary differential equation. The bvp4c approach provides a numerical solution to this problem. Graphs and Tables are used to examine the effects of various corporal and flow constraints on thermal, solutal, and velocity distributions, as well as the impact of the heat/mass phenomenon on flow behavior. At higher melting parameter, the temperature and horizontal velocity distribution of the ternary hybrid nanofluid are shown to be predominant. Increases in the rate of heat and mass transmission are correlated with increases in the Marangoni convection parameter.
Graphical abstract |
|---|---|
| AbstractList | The purpose of the proposed study is to examine the significance of Marangoni convection and inclined MHD on an axisymmetric Darcy–Forchheimer flow of a ternary hybrid nanofluid across an infinite disk that includes melting processes. The thermophoresis particle deposition, Joule heating, taken into account. This suggested model aims to compare the Yamada-Ota model and Xue thermal conductivity ternary hybrid nanofluid models' performances. In order to claim the assets of the trihybrid nanofluid model,
F
e
3
O
4
,
C
u
and
MoS
2
particles are combined with an improper fluid composed of
50
%
ethylene glycol and
50
%
water. The improvement of heat transfer processes in thermal management systems, such as those used in the cooling of electronic devices, automobiles, and aerospace components, depends heavily on this model. It can also be used in energy systems, where it can increase the efficiency of solar collectors, nuclear reactors, and geothermal reservoirs by optimizing heat transport in nanofluids. Designing effective filtration, coating, and drug delivery systems requires an understanding of particle deposition behavior, which is made possible by the use of thermophoresis. By utilizing the proper variables, the system of partial differential equations can be converted into an ordinary differential equation. The bvp4c approach provides a numerical solution to this problem. Graphs and Tables are used to examine the effects of various corporal and flow constraints on thermal, solutal, and velocity distributions, as well as the impact of the heat/mass phenomenon on flow behavior. At higher melting parameter, the temperature and horizontal velocity distribution of the ternary hybrid nanofluid are shown to be predominant. Increases in the rate of heat and mass transmission are correlated with increases in the Marangoni convection parameter.
Graphical abstract |
| ArticleNumber | 98 |
| Author | Faqihi, Abdullah A. Abbas, Munawar Mahariq, Ibrahim Fatima, Nahid Akgül, Ali |
| Author_xml | – sequence: 1 givenname: Ibrahim surname: Mahariq fullname: Mahariq, Ibrahim organization: GUST Engineering and Applied Innovation Research Center (GEAR), Gulf University for Science and Technology, Applied Science Research Center, Applied Science Private University – sequence: 2 givenname: Munawar surname: Abbas fullname: Abbas, Munawar email: m.abbas7478@gmail.com organization: Department of Mathematics, The Islamia University of Bahawalpur – sequence: 3 givenname: Nahid surname: Fatima fullname: Fatima, Nahid organization: Department of Mathematics and Sciences, Prince Sultan University – sequence: 4 givenname: Ali surname: Akgül fullname: Akgül, Ali email: aliakgul00727@gmail.com organization: Department of Electronics and Communication Engineering, Saveetha School of Engineering, SIMATS, Department of Computer Engineering, Biruni University, Department of Mathematics, Mathematics Research Center, Near East University, Department of Mathematics, Siirt University, Art and Science Faculty – sequence: 5 givenname: Abdullah A. surname: Faqihi fullname: Faqihi, Abdullah A. organization: Department of Industrial Engineering, College of Engineering and Computer Science, Jazan University |
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| Keywords | Trihybrid nanofluid Melting phenomena Darcy–Forchheimer flow Marangoni convection Xue and Yamada-Ota models |
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| References | M Abbas (661_CR12) 2024; 14 D Mohanty (661_CR27) 2024; 433 D Mohanty (661_CR26) 2023; 84 M Abbas (661_CR9) 2024; 60 YM Chu (661_CR16) 2021; 12 WA Khan (661_CR20) 2020; 10 EA Algehyne (661_CR14) 2021; 14 SR Mishra (661_CR22) 2024; 149 S Panda (661_CR31) 2024; 38 TS Wang (661_CR37) 2019; 131 B Ishtiaq (661_CR19) 2023; 14 Y Lin (661_CR21) 2013; 135 MD Shamshuddin (661_CR35) 2024; 99 M Abbas (661_CR4) 2023; 15 S Panda (661_CR32) 2024; 38 SM Mousavizadeh (661_CR28) 2015; 47 D Mohanty (661_CR24) 2023 M Abbas (661_CR2) 2023; 13 M Abbas (661_CR5) 2023; 148 M Imtiaz (661_CR18) 2019; 40 M Abbas (661_CR8) 2024 W Urmi (661_CR36) 2020; 116 M Abbas (661_CR7) 2024; 238 MK Sarangi (661_CR34) 2023; 287 S Panda (661_CR30) 2024 S Riasat (661_CR33) 2021; 26 S Ahmad (661_CR13) 2021; 11 M Abbas (661_CR1) 2023; 15 D Mohanty (661_CR25) 2023; 41 S Panda (661_CR29) 2024 M Abbas (661_CR11) 2024; 149 M Abbas (661_CR3) 2023; 50 M Abbas (661_CR6) 2023; 15 N Elboughdiri (661_CR17) 2024 NA Amirsom (661_CR15) 2019; 9 D Mohanty (661_CR23) 2023; 21 M Abbas (661_CR10) 2024; 38 |
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| Title | Significance of melting phenomena on Darcy–Forchheimer flow of trihybrid nanofluid over a disk in the presence of thermophoresis particles deposition |
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