Physiological peristaltic flow of Jeffrey fluid inside an elliptic cross section with heat and mass transfer: Exact solutions through Polynomial solution technique

An interpretation of heat and mass transfer for the peristaltic flow of a non‐Newtonian Jeffrey fluid inside a duct having an elliptic cross‐section is mathematically investigated. We have considered constant heat absorption for the present study and a descriptive heat as well as mass transfer analy...

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Bibliographic Details
Published in:Zeitschrift für angewandte Mathematik und Mechanik 2023-03, Vol.103 (3), p.n/a
Main Authors: Nadeem, Sohail, Akhtar, Salman, Akkurt, Nevzat, Saleem, Anber, Almutairi, Shahah, Ghazwani, Hassan Ali
Format: Article
Language:English
Subjects:
Exact solutions
Heat transfer
Mass transfer
Partial differential equations
Polynomials
Relaxation time
Temperature profiles
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Summary:An interpretation of heat and mass transfer for the peristaltic flow of a non‐Newtonian Jeffrey fluid inside a duct having an elliptic cross‐section is mathematically investigated. We have considered constant heat absorption for the present study and a descriptive heat as well as mass transfer analysis is carried out. Exact solutions are computed by utilizing a polynomial solution technique to solve the dimensionless partial differential equations appearing in the problem. A purposeful and detailed graphical assessment is provided for the final mathematical results. Velocity as well as temperature profiles attain highest value at the core region of duct while these profiles gradually decline toward duct boundaries. The incrementing value of λ1 is resulting in an increase of flow and since λ1 is the dimensionless ratio of relaxation to retardation time, it means that the increasing value of λ1 results in an increase of relaxation time but it also results in decline of retardation time. An interpretation of heat and mass transfer for the peristaltic flow of a non‐Newtonian Jeffrey fluid inside a duct having an elliptic cross‐section is mathematically investigated. We have considered constant heat absorption for the present study and a descriptive heat as well as mass transfer analysis is carried out. Exact solutions are computed by utilizing a polynomial solution technique to solve the dimensionless partial differential equations appearing in the problem. A purposeful and detailed graphical assessment is provided for the final mathematical results.…
ISSN:0044-2267
1521-4001
DOI:10.1002/zamm.202100383