Computational role of homogeneous–heterogeneous chemical reactions and a mixed convective ternary hybrid nanofluid in a vertical porous microchannel

This article mainly scrutinizes the heat transfer and flow characteristics of a mixed convection ternary hybrid nanofluid in a porous microchannel considering the catalytic chemical reaction and nonuniform heat absorption/generation. Using appropriate similarity transformations, the modeled equation...

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Published in	High temperature materials and processes Vol. 43; no. 1; pp. pp. 811 - 825
Main Authors	Roja, Ajjanna, Saadeh, Rania, Madhukesh, Javali Kotresh, Shamshuddin, MD, Prasad, Koushik Vijaya, Khan, Umair, Prakash, Chander, Hussain, Syed Modassir
Format	Journal Article
Language	English
Published	Berlin De Gruyter 15.11.2024 Walter de Gruyter GmbH
Subjects	Absorption Chemical reactions Convection Drag Flow characteristics Fluid flow Grashof number Heat transfer Heating systems homogeneous–heterogeneous reaction Mass transfer Microchannels mixed convection flow Nanofluids non-uniform heat source/sink Nusselt number Parameters Physical properties Runge-Kutta method ternary hybrid nanofluid Thermal engineering vertical microchannel
Online Access	Get full text
ISSN	2191-0324 0334-6455 2191-0324
DOI	10.1515/htmp-2024-0057

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Abstract	This article mainly scrutinizes the heat transfer and flow characteristics of a mixed convection ternary hybrid nanofluid in a porous microchannel considering the catalytic chemical reaction and nonuniform heat absorption/generation. Using appropriate similarity transformations, the modeled equations are converted into reduced ones and then solved via the Runge–Kutta–Fehlberg 4th/5th order method. To strengthen this analysis, the convection mechanism has been deployed. The effect of pertinent physical parameters on the fluid motion and thermal field is displayed, including some important engineering variables like the Nusselt number, Sherwood number, and drag force. The novel outcomes display that the flow reduces with porous permeability and nanoparticle volume fraction. The temperature of the nanofluid improves with nonuniform heat absorption/generation. The concentration decreases in the presence of both homogeneous and heterogeneous reaction intensities. The heat transfer rate enhances for the Eckert number, and a similar influence on the mass transfer rate is noticed for homogeneous reaction parameters. Further, the drag force declines for the Grashof number. The outcomes show that, in all cases, the ternary hybrid nanofluid shows a greater impact than the nanofluid. The attained findings represent applications in the era of cooling and heating systems, thermal engineering, and energy production.
AbstractList	This article mainly scrutinizes the heat transfer and flow characteristics of a mixed convection ternary hybrid nanofluid in a porous microchannel considering the catalytic chemical reaction and nonuniform heat absorption/generation. Using appropriate similarity transformations, the modeled equations are converted into reduced ones and then solved via the Runge–Kutta–Fehlberg 4th/5th order method. To strengthen this analysis, the convection mechanism has been deployed. The effect of pertinent physical parameters on the fluid motion and thermal field is displayed, including some important engineering variables like the Nusselt number, Sherwood number, and drag force. The novel outcomes display that the flow reduces with porous permeability and nanoparticle volume fraction. The temperature of the nanofluid improves with nonuniform heat absorption/generation. The concentration decreases in the presence of both homogeneous and heterogeneous reaction intensities. The heat transfer rate enhances for the Eckert number, and a similar influence on the mass transfer rate is noticed for homogeneous reaction parameters. Further, the drag force declines for the Grashof number. The outcomes show that, in all cases, the ternary hybrid nanofluid shows a greater impact than the nanofluid. The attained findings represent applications in the era of cooling and heating systems, thermal engineering, and energy production.
Author	Madhukesh, Javali Kotresh Saadeh, Rania Prasad, Koushik Vijaya Khan, Umair Prakash, Chander Hussain, Syed Modassir Shamshuddin, MD Roja, Ajjanna
Author_xml	– sequence: 1 givenname: Ajjanna surname: Roja fullname: Roja, Ajjanna email: rojaasrg@gmail.com organization: Department of Mathematical and Computational Sciences, Sri Sathya Sai University for Human Excellence, Kalaburagi, Karnataka, India – sequence: 2 givenname: Rania surname: Saadeh fullname: Saadeh, Rania email: rsaadeh@zu.edu.jo organization: Department of Mathematics, Faculty of Science, Zarqa University, Zarqa 13110, Jordan – sequence: 3 givenname: Javali Kotresh surname: Madhukesh fullname: Madhukesh, Javali Kotresh email: madhukeshjk@gmail.com organization: Department of Mathematics, GM University, Davangere, 577006, Karnataka, India – sequence: 4 givenname: MD surname: Shamshuddin fullname: Shamshuddin, MD email: shsmmaths@gmail.com organization: Department of Mathematics, School of Computer Science and Artificial Intelligence, SR University, Warangal-506371, Telangana, India – sequence: 5 givenname: Koushik Vijaya surname: Prasad fullname: Prasad, Koushik Vijaya email: v.koushik@jainuniversity.ac.in organization: Department of Mechanical Engineering, School of Engineering and Technology, JAIN (Deemed to be University), Bangalore, Karnataka, India – sequence: 6 givenname: Umair surname: Khan fullname: Khan, Umair email: umairkhan@sakarya.edu.tr organization: Department of Mechanics and Mathematics, Western Caspian University, Baku, 1001, Azerbaijan – sequence: 7 givenname: Chander surname: Prakash fullname: Prakash, Chander email: chander.mechengg@gmail.com organization: University Centre for Research & Development, Chandigarh University, Mohali, Punjab, 140413, India – sequence: 8 givenname: Syed Modassir surname: Hussain fullname: Hussain, Syed Modassir email: syed.hussain@iu.edu.sa organization: Department of Mathematics, Faculty of Science, Islamic University of Madinah, Madinah 42351, Saudi Arabia
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SubjectTerms	Absorption Chemical reactions Convection Drag Flow characteristics Fluid flow Grashof number Heat transfer Heating systems homogeneous–heterogeneous reaction Mass transfer Microchannels mixed convection flow Nanofluids non-uniform heat source/sink Nusselt number Parameters Physical properties Runge-Kutta method ternary hybrid nanofluid Thermal engineering vertical microchannel
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Title	Computational role of homogeneous–heterogeneous chemical reactions and a mixed convective ternary hybrid nanofluid in a vertical porous microchannel
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