Analytical approach to parabolic flows along with inclined plate with uniform diffusion of mass

Gunaseelan Mani; Sivakumar Pushparaj; Muthucumaraswamy Rajamanickam; Sabri T.M. Thabet; Miguel Vivas-Cortez

doi:10.25259/JKSUS_140_2024

Analytical approach to parabolic flows along with inclined plate with uniform diffusion of mass

Gunaseelan Mani, Sivakumar Pushparaj, Muthucumaraswamy Rajamanickam, Sabri T.M. Thabet, Miguel Vivas-Cortez

Research output: Contribution to journal › Article › peer-review

Abstract

This article investigates fluid flow over an infinite inclined plate with uniform mass diffusion, incorporating the effects of chemical reactions and parabolic motion while maintaining constant temperature and concentration at the plate. The flow is modeled through partial differential equations and framed with appropriate initial and boundary conditions. Using non-dimensional variables, the equations were transformed, and the Laplace transform method was employed to obtain solutions for the dimensionless heat, velocity, and concentration profiles. Analytical expressions for these profiles were derived using complementary error and exponential functions. Results were illustrated through MATLAB-generated graphs, enabling the analysis of velocity, temperature, and concentration profiles under varying parameters to explore their physical characteristics.

Original language	English
Article number	1402024
Journal	Journal of King Saud University - Science
Volume	37
Issue number	1
DOIs	https://doi.org/10.25259/JKSUS_140_2024
State	Published - Jan 2025

Keywords

Heat and mass transfer
Inclined plate
Laplace transform
Matlab
Parabolic flows

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title = "Analytical approach to parabolic flows along with inclined plate with uniform diffusion of mass",

abstract = "This article investigates fluid flow over an infinite inclined plate with uniform mass diffusion, incorporating the effects of chemical reactions and parabolic motion while maintaining constant temperature and concentration at the plate. The flow is modeled through partial differential equations and framed with appropriate initial and boundary conditions. Using non-dimensional variables, the equations were transformed, and the Laplace transform method was employed to obtain solutions for the dimensionless heat, velocity, and concentration profiles. Analytical expressions for these profiles were derived using complementary error and exponential functions. Results were illustrated through MATLAB-generated graphs, enabling the analysis of velocity, temperature, and concentration profiles under varying parameters to explore their physical characteristics.",

keywords = "Heat and mass transfer, Inclined plate, Laplace transform, Matlab, Parabolic flows",

author = "Gunaseelan Mani and Sivakumar Pushparaj and Muthucumaraswamy Rajamanickam and Thabet, \{Sabri T.M.\} and Miguel Vivas-Cortez",

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AU - Mani, Gunaseelan

AU - Pushparaj, Sivakumar

AU - Rajamanickam, Muthucumaraswamy

AU - Thabet, Sabri T.M.

AU - Vivas-Cortez, Miguel

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N2 - This article investigates fluid flow over an infinite inclined plate with uniform mass diffusion, incorporating the effects of chemical reactions and parabolic motion while maintaining constant temperature and concentration at the plate. The flow is modeled through partial differential equations and framed with appropriate initial and boundary conditions. Using non-dimensional variables, the equations were transformed, and the Laplace transform method was employed to obtain solutions for the dimensionless heat, velocity, and concentration profiles. Analytical expressions for these profiles were derived using complementary error and exponential functions. Results were illustrated through MATLAB-generated graphs, enabling the analysis of velocity, temperature, and concentration profiles under varying parameters to explore their physical characteristics.

AB - This article investigates fluid flow over an infinite inclined plate with uniform mass diffusion, incorporating the effects of chemical reactions and parabolic motion while maintaining constant temperature and concentration at the plate. The flow is modeled through partial differential equations and framed with appropriate initial and boundary conditions. Using non-dimensional variables, the equations were transformed, and the Laplace transform method was employed to obtain solutions for the dimensionless heat, velocity, and concentration profiles. Analytical expressions for these profiles were derived using complementary error and exponential functions. Results were illustrated through MATLAB-generated graphs, enabling the analysis of velocity, temperature, and concentration profiles under varying parameters to explore their physical characteristics.

KW - Heat and mass transfer

KW - Inclined plate

KW - Laplace transform

KW - Matlab

KW - Parabolic flows

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Analytical approach to parabolic flows along with inclined plate with uniform diffusion of mass

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