Heat/mass transport in walter-B nanoliquid filled in hele-shaw cell under 3-types of g-Jitters with magnetic field

The impact of sine, square and triangular wave-forms of g-Jitter (gravity-modulation) in Walter-B nanoliquid (electrically-conducting) filled in Hele-Shaw cell with magnetic-field effect is considered in this article. The applied gravity field contains constant and time-dependent periodic parts, whi...

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Hauptverfasser:	Rai, S. N., Bhadauria, B. S.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Gravitational fields Gravity jitter Mass transport Parameters Runge-Kutta method Time dependence
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description	The impact of sine, square and triangular wave-forms of g-Jitter (gravity-modulation) in Walter-B nanoliquid (electrically-conducting) filled in Hele-Shaw cell with magnetic-field effect is considered in this article. The applied gravity field contains constant and time-dependent periodic parts, which change sinusoidally over time. A local nonlinear idea has been utilized to study heat/mass transportation in the liquid layer. The method for determining the heat/mass transportation factor in-volves developing a set of independent simultaneous ODEs for the convective magnitude. The Runge-Kutta-Fehlberg approach is used to confirm the findings of this convective magnitude calculation, which was done with the use of Mathematica’s built-in tool NDSolve. The Nusselt-number is found in terms of numerous system parameters, and every parameter’s consequence on heat/mass transportation is described in detail. The influence of elastic parameter, nanoliquid Prandtl-number, and amplitude of g-Jitter is to increase heat/mass transportation while the Hele-Shaw number, nanoliquid magnetic number, and frequency of g-Jitter have stabilizing influence on the system. Moreover, it is found that g-Jitter can be utilised effectively to increase or decrease heat/mass transportation.
doi_str_mv	10.1063/5.0201333
format	Conference Proceeding
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N. ; Bhadauria, B. S.</creator><contributor>Pandey, Rampal ; Tripathi, Dharmendra ; Sahariya, Jagrati ; Sharma, Kusum ; Mishra, Rakesh</contributor><creatorcontrib>Rai, S. N. ; Bhadauria, B. S. ; Pandey, Rampal ; Tripathi, Dharmendra ; Sahariya, Jagrati ; Sharma, Kusum ; Mishra, Rakesh</creatorcontrib><description>The impact of sine, square and triangular wave-forms of g-Jitter (gravity-modulation) in Walter-B nanoliquid (electrically-conducting) filled in Hele-Shaw cell with magnetic-field effect is considered in this article. The applied gravity field contains constant and time-dependent periodic parts, which change sinusoidally over time. A local nonlinear idea has been utilized to study heat/mass transportation in the liquid layer. The method for determining the heat/mass transportation factor in-volves developing a set of independent simultaneous ODEs for the convective magnitude. The Runge-Kutta-Fehlberg approach is used to confirm the findings of this convective magnitude calculation, which was done with the use of Mathematica’s built-in tool NDSolve. The Nusselt-number is found in terms of numerous system parameters, and every parameter’s consequence on heat/mass transportation is described in detail. The influence of elastic parameter, nanoliquid Prandtl-number, and amplitude of g-Jitter is to increase heat/mass transportation while the Hele-Shaw number, nanoliquid magnetic number, and frequency of g-Jitter have stabilizing influence on the system. 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S.</creatorcontrib><title>Heat/mass transport in walter-B nanoliquid filled in hele-shaw cell under 3-types of g-Jitters with magnetic field</title><title>AIP conference proceedings</title><description>The impact of sine, square and triangular wave-forms of g-Jitter (gravity-modulation) in Walter-B nanoliquid (electrically-conducting) filled in Hele-Shaw cell with magnetic-field effect is considered in this article. The applied gravity field contains constant and time-dependent periodic parts, which change sinusoidally over time. A local nonlinear idea has been utilized to study heat/mass transportation in the liquid layer. The method for determining the heat/mass transportation factor in-volves developing a set of independent simultaneous ODEs for the convective magnitude. The Runge-Kutta-Fehlberg approach is used to confirm the findings of this convective magnitude calculation, which was done with the use of Mathematica’s built-in tool NDSolve. 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S.</au><au>Pandey, Rampal</au><au>Tripathi, Dharmendra</au><au>Sahariya, Jagrati</au><au>Sharma, Kusum</au><au>Mishra, Rakesh</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Heat/mass transport in walter-B nanoliquid filled in hele-shaw cell under 3-types of g-Jitters with magnetic field</atitle><btitle>AIP conference proceedings</btitle><date>2024-03-11</date><risdate>2024</risdate><volume>3025</volume><issue>1</issue><issn>0094-243X</issn><eissn>1551-7616</eissn><coden>APCPCS</coden><abstract>The impact of sine, square and triangular wave-forms of g-Jitter (gravity-modulation) in Walter-B nanoliquid (electrically-conducting) filled in Hele-Shaw cell with magnetic-field effect is considered in this article. The applied gravity field contains constant and time-dependent periodic parts, which change sinusoidally over time. A local nonlinear idea has been utilized to study heat/mass transportation in the liquid layer. The method for determining the heat/mass transportation factor in-volves developing a set of independent simultaneous ODEs for the convective magnitude. The Runge-Kutta-Fehlberg approach is used to confirm the findings of this convective magnitude calculation, which was done with the use of Mathematica’s built-in tool NDSolve. The Nusselt-number is found in terms of numerous system parameters, and every parameter’s consequence on heat/mass transportation is described in detail. The influence of elastic parameter, nanoliquid Prandtl-number, and amplitude of g-Jitter is to increase heat/mass transportation while the Hele-Shaw number, nanoliquid magnetic number, and frequency of g-Jitter have stabilizing influence on the system. Moreover, it is found that g-Jitter can be utilised effectively to increase or decrease heat/mass transportation.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/5.0201333</doi><tpages>13</tpages></addata></record>
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subjects	Gravitational fields Gravity jitter Mass transport Parameters Runge-Kutta method Time dependence
title	Heat/mass transport in walter-B nanoliquid filled in hele-shaw cell under 3-types of g-Jitters with magnetic field
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