Non-Coaxially Rotating Motion in Casson Martial along with Temperature and Concentration Gradients via First-Order Chemical Reaction

The effect of non-coaxial rotation on the transport of mass subjected to first-order chemical reaction is studied analytically. The effects of thermal radiation, buoyancy, constructive and destructive chemical reactions along with Casson fluid in rotating frame are discussed. Time evolution of prima...

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Autores principales: Noman Jabbar, Muhammad Bilal Hafeez, Sameh Askar, Umar Nazir
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Lenguaje:EN
Publicado: MDPI AG 2021
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spelling oai:doaj.org-article:fd90024e8d334fa59ce8d1d5f093c31d2021-11-25T17:28:44ZNon-Coaxially Rotating Motion in Casson Martial along with Temperature and Concentration Gradients via First-Order Chemical Reaction10.3390/en142277841996-1073https://doaj.org/article/fd90024e8d334fa59ce8d1d5f093c31d2021-11-01T00:00:00Zhttps://www.mdpi.com/1996-1073/14/22/7784https://doaj.org/toc/1996-1073The effect of non-coaxial rotation on the transport of mass subjected to first-order chemical reaction is studied analytically. The effects of thermal radiation, buoyancy, constructive and destructive chemical reactions along with Casson fluid in rotating frame are discussed. Time evolution of primary and secondary velocities, energy and solute particles are analyzed. The behavior of flow under the variation of intensity of magnetic field is also investigated. Evolutionary behavior of primary velocity is opposite to the evolutionary behavior of secondary velocity. The impact of buoyant force on primary velocity is opposite to the role of buoyant force on the secondary velocity. The evolutionary behavior of temperature is also examined and a remarkable enhancement in temperature is noticed. Thermal radiation causes the fluid to be cooled down as heat energy is escaped by thermal radiation. Evolutionary behavior of concentration is also analyzed and an increasing of concentration versus time is noted. Destructive chemical reaction results a remarkable reduction in the concentration and vice versa for generative chemical reaction.Noman JabbarMuhammad Bilal HafeezSameh AskarUmar NazirMDPI AGarticletransportationchemical reactionnon-coaxial rotationNusselt numberSherwood numberTechnologyTENEnergies, Vol 14, Iss 7784, p 7784 (2021)
institution DOAJ
collection DOAJ
language EN
topic transportation
chemical reaction
non-coaxial rotation
Nusselt number
Sherwood number
Technology
T
spellingShingle transportation
chemical reaction
non-coaxial rotation
Nusselt number
Sherwood number
Technology
T
Noman Jabbar
Muhammad Bilal Hafeez
Sameh Askar
Umar Nazir
Non-Coaxially Rotating Motion in Casson Martial along with Temperature and Concentration Gradients via First-Order Chemical Reaction
description The effect of non-coaxial rotation on the transport of mass subjected to first-order chemical reaction is studied analytically. The effects of thermal radiation, buoyancy, constructive and destructive chemical reactions along with Casson fluid in rotating frame are discussed. Time evolution of primary and secondary velocities, energy and solute particles are analyzed. The behavior of flow under the variation of intensity of magnetic field is also investigated. Evolutionary behavior of primary velocity is opposite to the evolutionary behavior of secondary velocity. The impact of buoyant force on primary velocity is opposite to the role of buoyant force on the secondary velocity. The evolutionary behavior of temperature is also examined and a remarkable enhancement in temperature is noticed. Thermal radiation causes the fluid to be cooled down as heat energy is escaped by thermal radiation. Evolutionary behavior of concentration is also analyzed and an increasing of concentration versus time is noted. Destructive chemical reaction results a remarkable reduction in the concentration and vice versa for generative chemical reaction.
format article
author Noman Jabbar
Muhammad Bilal Hafeez
Sameh Askar
Umar Nazir
author_facet Noman Jabbar
Muhammad Bilal Hafeez
Sameh Askar
Umar Nazir
author_sort Noman Jabbar
title Non-Coaxially Rotating Motion in Casson Martial along with Temperature and Concentration Gradients via First-Order Chemical Reaction
title_short Non-Coaxially Rotating Motion in Casson Martial along with Temperature and Concentration Gradients via First-Order Chemical Reaction
title_full Non-Coaxially Rotating Motion in Casson Martial along with Temperature and Concentration Gradients via First-Order Chemical Reaction
title_fullStr Non-Coaxially Rotating Motion in Casson Martial along with Temperature and Concentration Gradients via First-Order Chemical Reaction
title_full_unstemmed Non-Coaxially Rotating Motion in Casson Martial along with Temperature and Concentration Gradients via First-Order Chemical Reaction
title_sort non-coaxially rotating motion in casson martial along with temperature and concentration gradients via first-order chemical reaction
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/fd90024e8d334fa59ce8d1d5f093c31d
work_keys_str_mv AT nomanjabbar noncoaxiallyrotatingmotionincassonmartialalongwithtemperatureandconcentrationgradientsviafirstorderchemicalreaction
AT muhammadbilalhafeez noncoaxiallyrotatingmotionincassonmartialalongwithtemperatureandconcentrationgradientsviafirstorderchemicalreaction
AT samehaskar noncoaxiallyrotatingmotionincassonmartialalongwithtemperatureandconcentrationgradientsviafirstorderchemicalreaction
AT umarnazir noncoaxiallyrotatingmotionincassonmartialalongwithtemperatureandconcentrationgradientsviafirstorderchemicalreaction
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