Publication Type : Journal Article
Publisher : Scientific Reports
Source : Scientific Reports 14, no. 1 (2024): 28149.Impact Factor: 3.8
Url : https://www.nature.com/articles/s41598-024-79366-3
Campus : Bengaluru
School : School of Engineering
Department : Mathematics
Year : 2024
Abstract : A non-Newtonian liquid motion across a stretchable surface is relevant to various industrial applications, including extruding plastic sheets and stretching plastic films. In connection with this, the impact of endothermic and exothermic chemical reactions on the flow of rate-type liquid via an oscillatory stretching sheet in the presence of permeable media with the Maxwell liquid model is elucidated in the present study. Scientists and engineers may enhance the efficiency of chemical reactions or heat transmission by optimising system flow and investigating the effect of reactions on flow dynamics. The present studys governing partial differential equations (PDEs) are transformed into their non-dimensional form using similarity variables. The resulting equations are numerically solved using the finite difference method (FDM). Outcomes disclose that the temperature profile declines as the activation energy and unsteadiness parameters increase. The influence of the Maxwell and unsteadiness parameters on the fluids velocity with respect to time is represented. The rise in the values of chemical reaction parameter upsurges the thermal profile. As the activation energy and unsteadiness parameters upsurge, the thermal profile declines. As the chemical reaction parameter and the ratio of oscillation frequency to stretching rate values rise, the concentration profile falls.
Cite this Research Publication : Gowda, RJ Punith, BhaveshKanabar, M. K. Ranganathaswamy, Ankit Kedia, K. V. Nagaraja, Chander Prakash, AmalAbdulrahman, and Naveen Kumar. "A scientific report on heat transfer analysis due to generated and absorbed heat over an oscillatory stretching sheet: a finite difference-based study." Scientific Reports 14, no. 1 (2024): 28149.Impact Factor: 3.8