|تعداد مشاهده مقاله||2,245,281|
|تعداد دریافت فایل اصل مقاله||1,598,069|
|Journal of Computational & Applied Research in Mechanical Engineering (JCARME)|
|مقاله 12، دوره 11، شماره 1، آذر 2021، صفحه 151-163 اصل مقاله (765.99 K)|
|نوع مقاله: Research Paper|
|شناسه دیجیتال (DOI): 10.22061/jcarme.2019.3456.1399|
|A Hassanvand1؛ Mojtaba Saei Moghaddam2؛ M. Barzegar Gerdroodbary 3؛ Y Amini4|
|1Department of Polymer Engineering, Faculty of Engineering, Lorestan University, Khorramabad, Iran|
|2Department of chemical engineering, Quchan University of Technology,9477167335, Iran|
|3Department of Mechanical Engineering, Babol Noshirvani University of Technology, Babol, Iran|
|4Department of Chemical Engineering, Isfahan University of Technology, Isfahan, Iran|
|تاریخ دریافت: 08 فروردین 1397، تاریخ بازنگری: 11 خرداد 1398، تاریخ پذیرش: 25 خرداد 1398|
|Finding the solutions for heat and mass transfer problems is significant to reveal the main physics of engineering issues. In this work, the Adomian decomposition method is chosen as a robust analytical method for the investigation of temperature and flow features in a viscous fluid that moves between two parallel surfaces. To ensure the validation of results, the outcome of the Adomian decomposition method is compared with that of the Runge-Kutta method, and reasonable agreement is observed. The comparison confirms that the Adomian decomposition method is a robust and reliable approach for solving this problem. Then, diverse parameters such as Prandtl number and squeeze number are studied. Besides, the effect of chemical reaction parameter, Eckert number, and Schmidt number are comprehensively discussed. Findings reveal that the Sherwood number rises when the chemical reaction parameter and Schmidt number increase. Also, it declines with growths of the squeeze number. Likewise, The findings confirm that the Nusselt number enhances with the rising of the Eckert number and Prandtl number, and it declines when the squeeze number increases.|
|Squeezing flow؛ Adomian decomposition method؛ heat transfer؛ Mass transfer؛ Schmidt number؛ Chemical reaction parameter|
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