Thermally stratified darcy forchheimer flow on a moving thin needle with homogeneous heterogeneous reactions and non-uniform heat source/sink

Muhammad Ramzan; Naila Shaheen; Seifedine Kadry; Yeu Ratha; Yunyoung Nam

doi:10.3390/app10020432

Thermally stratified darcy forchheimer flow on a moving thin needle with homogeneous heterogeneous reactions and non-uniform heat source/sink

Muhammad Ramzan
, Naila Shaheen
, Seifedine Kadry
, Yeu Ratha
, Yunyoung Nam

Bahria University
Sejong University
Beirut Arab University
Soonchunhyang University

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

29 Scopus citations

Abstract

This study discusses the flow of viscous fluid past a moving thin needle in a Darcy- Forchheimer permeable media. The novelty of the envisioned mathematical model is enhanced by adding the effects of a non-uniform source/sink amalgamated with homogeneous-heterogeneous (hh) reactions. The MATLAB bvp4c function is employed to solve the non-linear ordinary differential equations (ODEs), which are obtained via similarity transformations. The outcomes of numerous parameters are explicitly discussed graphically. The drag force coefficient and heat transfer rate are considered and discussed accordingly. It is comprehended that higher estimates of variable source/sink boost the temperature profile.

Original language	English
Article number	432
Journal	Applied Sciences (Switzerland)
Volume	10
Issue number	2
DOIs	https://doi.org/10.3390/app10020432
State	Published - 1 Jan 2020
Externally published	Yes

Keywords

Darcy-Forchheimer flow
Homogeneous-heterogeneous reactions
Non-uniform heat source/sink
Thermal stratification

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10.3390/app10020432

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title = "Thermally stratified darcy forchheimer flow on a moving thin needle with homogeneous heterogeneous reactions and non-uniform heat source/sink",

abstract = "This study discusses the flow of viscous fluid past a moving thin needle in a Darcy- Forchheimer permeable media. The novelty of the envisioned mathematical model is enhanced by adding the effects of a non-uniform source/sink amalgamated with homogeneous-heterogeneous (hh) reactions. The MATLAB bvp4c function is employed to solve the non-linear ordinary differential equations (ODEs), which are obtained via similarity transformations. The outcomes of numerous parameters are explicitly discussed graphically. The drag force coefficient and heat transfer rate are considered and discussed accordingly. It is comprehended that higher estimates of variable source/sink boost the temperature profile.",

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AU - Ramzan, Muhammad

AU - Shaheen, Naila

AU - Kadry, Seifedine

AU - Ratha, Yeu

AU - Nam, Yunyoung

PY - 2020/1/1

Y1 - 2020/1/1

N2 - This study discusses the flow of viscous fluid past a moving thin needle in a Darcy- Forchheimer permeable media. The novelty of the envisioned mathematical model is enhanced by adding the effects of a non-uniform source/sink amalgamated with homogeneous-heterogeneous (hh) reactions. The MATLAB bvp4c function is employed to solve the non-linear ordinary differential equations (ODEs), which are obtained via similarity transformations. The outcomes of numerous parameters are explicitly discussed graphically. The drag force coefficient and heat transfer rate are considered and discussed accordingly. It is comprehended that higher estimates of variable source/sink boost the temperature profile.

AB - This study discusses the flow of viscous fluid past a moving thin needle in a Darcy- Forchheimer permeable media. The novelty of the envisioned mathematical model is enhanced by adding the effects of a non-uniform source/sink amalgamated with homogeneous-heterogeneous (hh) reactions. The MATLAB bvp4c function is employed to solve the non-linear ordinary differential equations (ODEs), which are obtained via similarity transformations. The outcomes of numerous parameters are explicitly discussed graphically. The drag force coefficient and heat transfer rate are considered and discussed accordingly. It is comprehended that higher estimates of variable source/sink boost the temperature profile.

KW - Darcy-Forchheimer flow

KW - Homogeneous-heterogeneous reactions

KW - Non-uniform heat source/sink

KW - Thermal stratification

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SN - 2076-3417

VL - 10

JO - Applied Sciences (Switzerland)

JF - Applied Sciences (Switzerland)

IS - 2

M1 - 432

ER -

Thermally stratified darcy forchheimer flow on a moving thin needle with homogeneous heterogeneous reactions and non-uniform heat source/sink

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Keywords

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