Exact solution of chemical reaction and Dufour effects on a parabolic flow past an infinite vertical plate with uniform temperature and mass diffusion in the presence of rotation

Authors

  • S. Kavitha Department of Mathematics, Vels Institute of Science, Technology & Advanced Studies, Chennai-600117, TamilNadu, India.
  • A. Selvaraj Department of Mathematics, Vels Institute of Science, Technology & Advanced Studies, Chennai-600117, TamilNadu, India.
  • A.Neel Armstrong Department of Mathematics, St. Eugene university, Lusaka, Zambia

Keywords:

vertical plate, Rotation, Dufour effect, Chemical reaction, Parabolic flow

Abstract

A study was conducted to explore a precise solution for the movement of anvertically infinite plate accompanied by a parabolic initial velocity profile, involving unsteady flow. This study considered the impact of rotation, chemical reaction, and Dufour effect. The thermal reading of the plate and the accumulation level in its vicinity were found to consistently increase.To solve the governing equations, inverse Laplace technique is applied.Two foremost governing flow constraints, rotation and diffusion temperature (Dufour), were estimated for a range of different values. A graph depicts the effect of these flow parameters impact the speed as well as warm
and accumulation of the plate oriented in a vertical position. An impact of these flow characteristics, proportion of mass and heat transfer is then demonstrated. Some conclusions are strongly supported by previously published studies

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Published

2023-09-28

How to Cite

S. Kavitha, A. Selvaraj, & A.Neel Armstrong. (2023). Exact solution of chemical reaction and Dufour effects on a parabolic flow past an infinite vertical plate with uniform temperature and mass diffusion in the presence of rotation. Chinese Journal of Computational Mechanics, (5), 27–36. Retrieved from http://jslxxb.cn/index.php/jslxxb/article/view/4333

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