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Hall current, chemical reaction, and radiation results on transient magnetohydrodynamic flow past an inclined plate: FEM

Sheri, Siva Reddy / Peesu, Megaraju / Mamidi Narsimha, Rajashekar

This paper investigates the influence of Hall current, chemical reaction, and radiation on transient magnetohydrodynamics flow past an inclined plate. The basic nonlinear partial differential equations (PDEs) are converted to dimensionless nonlinear PDEs with similar transformations. The transformed flow equations are solved by the finite element method with appropriate initial conditions. The influence of physical parameters on velocities, temperature, as well as concentration dispensations is addressed computationally and demonstrated by graphs. The influence of flow parameters on skin‐friction coefficients $τ_{1}$ and $τ_{2}$ are discussed and presented in the form of a table. Finally, a qualitative similarity was made between the present paper and the earlier published results and it was initiated that there is tremendous conformity between the results.

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Hall current, chemical reaction, and radiation results on transient magnetohydrodynamic flow past an inclined plate: FEM

Sheri, Siva Reddy / Peesu, Megaraju / Mamidi Narsimha, Rajashekar

This paper investigates the influence of Hall current, chemical reaction, and radiation on transient magnetohydrodynamics flow past an inclined plate. The basic nonlinear partial differential equations (PDEs) are converted to dimensionless nonlinear PDEs with similar transformations. The transformed flow equations are solved by the finite element method with appropriate initial conditions. The influence of physical parameters on velocities, temperature, as well as concentration dispensations is addressed computationally and demonstrated by graphs. The influence of flow parameters on skin‐friction coefficients $τ_{1}$ and $τ_{2}$ are discussed and presented in the form of a table. Finally, a qualitative similarity was made between the present paper and the earlier published results and it was initiated that there is tremendous conformity between the results.

Hall current, chemical reaction, and radiation results on transient magnetohydrodynamic flow past an inclined plate: FEM

Sheri, Siva Reddy / Peesu, Megaraju / Mamidi Narsimha, Rajashekar

This paper investigates the influence of Hall current, chemical reaction, and radiation on transient magnetohydrodynamics flow past an inclined plate. The basic nonlinear partial differential equations (PDEs) are converted to dimensionless nonlinear PDEs with similar transformations. The transformed flow equations are solved by the finite element method with appropriate initial conditions. The influence of physical parameters on velocities, temperature, as well as concentration dispensations is addressed computationally and demonstrated by graphs. The influence of flow parameters on skin‐friction coefficients $τ_{1}$ and $τ_{2}$ are discussed and presented in the form of a table. Finally, a qualitative similarity was made between the present paper and the earlier published results and it was initiated that there is tremendous conformity between the results.

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Titel:

Hall current, chemical reaction, and radiation results on transient magnetohydrodynamic flow past an inclined plate: FEM

Beteiligte:

Sheri, Siva Reddy (Autor:in) / Peesu, Megaraju (Autor:in) / Mamidi Narsimha, Rajashekar (Autor:in)

Erschienen in:

Heat Transfer ; 51 ; 1876-1899

Erscheinungsdatum:

01.03.2022

Format / Umfang:

24 pages

ISSN:

2688-4542 , 2688-4534

DOI:

https://doi.org/10.1002/htj.22379

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

FEM , radiation , chemical reaction , MHD , Hall effect , inclined plate

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