Shahirah Abu Bakar, Nur Syahirah Wahid, Norihan Md Arifin, Ioan Pop
{"title":"同质异质反应和混合纳米流体对辐射下可渗透拉伸/收缩旋转盘上的伯德瓦特流的影响","authors":"Shahirah Abu Bakar, Nur Syahirah Wahid, Norihan Md Arifin, Ioan Pop","doi":"10.1007/s13369-024-08909-7","DOIUrl":null,"url":null,"abstract":"<div><p>A nanofluid refers to the dispersion of nanoparticles in a regular fluid and has a unique application in various sectors, including medicine, engineering, and technology. When multiple nanoparticles are suspended in a regular fluid, it creates a hybrid nanofluid. In this study, we aim to investigate homogenous–heterogenous reactions in Bödewadt hybrid nanofluid flow over a permeable rotating disk with radiation. The base fluid chosen for this study is water (H<sub>2</sub>O), while the nanoparticles iron oxide (Fe<sub>3</sub>O<sub>4</sub>) and cobalt ferrite (CoFe<sub>2</sub>O<sub>4</sub>) are utilized to create the hybrid nanofluid. An appropriate method of similarity transformation is executed along a set of partial differential equations (PDEs) that were reduced to a system of nonlinear ordinary differential equations (ODEs). Numerical outcomes were then obtained via bvp4c in MATLAB software, with the influence of various parameters such as nanoparticle volume fraction, homogenous/heterogenous reaction strength parameters, suction, shrinking/stretching parameters, and radiation parameter. Additionally, asymptotic analysis was conducted to show that the concentration boundary layer on the disk can be performed subject to a large number of suctions. The present findings reveal that a rise in the volume fraction of nanoparticles results in a reduction in radial velocity profiles, temperature profiles, and tangential fields. As thermal radiation levels rise, a notable reduction in the local Nusselt number is evident. Moreover, there is an observed linear escalation in wall surface concentration when the heterogeneous strength parameter attains higher values. The presented results demonstrate that all flow fields are significantly affected by the participating parameters.</p></div>","PeriodicalId":54354,"journal":{"name":"Arabian Journal for Science and Engineering","volume":"49 11","pages":"15161 - 15176"},"PeriodicalIF":2.6000,"publicationDate":"2024-04-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Effects of Homogenous–Heterogenous Reactions and Hybrid Nanofluid on Bödewadt Flow over a Permeable Stretching/Shrinking Rotating Disk with Radiation\",\"authors\":\"Shahirah Abu Bakar, Nur Syahirah Wahid, Norihan Md Arifin, Ioan Pop\",\"doi\":\"10.1007/s13369-024-08909-7\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>A nanofluid refers to the dispersion of nanoparticles in a regular fluid and has a unique application in various sectors, including medicine, engineering, and technology. When multiple nanoparticles are suspended in a regular fluid, it creates a hybrid nanofluid. In this study, we aim to investigate homogenous–heterogenous reactions in Bödewadt hybrid nanofluid flow over a permeable rotating disk with radiation. The base fluid chosen for this study is water (H<sub>2</sub>O), while the nanoparticles iron oxide (Fe<sub>3</sub>O<sub>4</sub>) and cobalt ferrite (CoFe<sub>2</sub>O<sub>4</sub>) are utilized to create the hybrid nanofluid. An appropriate method of similarity transformation is executed along a set of partial differential equations (PDEs) that were reduced to a system of nonlinear ordinary differential equations (ODEs). Numerical outcomes were then obtained via bvp4c in MATLAB software, with the influence of various parameters such as nanoparticle volume fraction, homogenous/heterogenous reaction strength parameters, suction, shrinking/stretching parameters, and radiation parameter. Additionally, asymptotic analysis was conducted to show that the concentration boundary layer on the disk can be performed subject to a large number of suctions. The present findings reveal that a rise in the volume fraction of nanoparticles results in a reduction in radial velocity profiles, temperature profiles, and tangential fields. As thermal radiation levels rise, a notable reduction in the local Nusselt number is evident. Moreover, there is an observed linear escalation in wall surface concentration when the heterogeneous strength parameter attains higher values. 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Effects of Homogenous–Heterogenous Reactions and Hybrid Nanofluid on Bödewadt Flow over a Permeable Stretching/Shrinking Rotating Disk with Radiation
A nanofluid refers to the dispersion of nanoparticles in a regular fluid and has a unique application in various sectors, including medicine, engineering, and technology. When multiple nanoparticles are suspended in a regular fluid, it creates a hybrid nanofluid. In this study, we aim to investigate homogenous–heterogenous reactions in Bödewadt hybrid nanofluid flow over a permeable rotating disk with radiation. The base fluid chosen for this study is water (H2O), while the nanoparticles iron oxide (Fe3O4) and cobalt ferrite (CoFe2O4) are utilized to create the hybrid nanofluid. An appropriate method of similarity transformation is executed along a set of partial differential equations (PDEs) that were reduced to a system of nonlinear ordinary differential equations (ODEs). Numerical outcomes were then obtained via bvp4c in MATLAB software, with the influence of various parameters such as nanoparticle volume fraction, homogenous/heterogenous reaction strength parameters, suction, shrinking/stretching parameters, and radiation parameter. Additionally, asymptotic analysis was conducted to show that the concentration boundary layer on the disk can be performed subject to a large number of suctions. The present findings reveal that a rise in the volume fraction of nanoparticles results in a reduction in radial velocity profiles, temperature profiles, and tangential fields. As thermal radiation levels rise, a notable reduction in the local Nusselt number is evident. Moreover, there is an observed linear escalation in wall surface concentration when the heterogeneous strength parameter attains higher values. The presented results demonstrate that all flow fields are significantly affected by the participating parameters.
期刊介绍:
King Fahd University of Petroleum & Minerals (KFUPM) partnered with Springer to publish the Arabian Journal for Science and Engineering (AJSE).
AJSE, which has been published by KFUPM since 1975, is a recognized national, regional and international journal that provides a great opportunity for the dissemination of research advances from the Kingdom of Saudi Arabia, MENA and the world.