Araştırma Makalesi

Analysis of Boundary Layer Thickness and Temperature Distribution in a Fluidic Stream across a Stretching Sheet with Thermal Nonequilibrium and Viscous Heating Effects

Cilt: 12 Sayı: 2 1 Mayıs 2025
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Analysis of Boundary Layer Thickness and Temperature Distribution in a Fluidic Stream across a Stretching Sheet with Thermal Nonequilibrium and Viscous Heating Effects

Öz

The analysis of boundary layer thickness and temperature distribution effects in a viscous fluid flow of varying Hartmann intensity and thermal nonequilibrium over an exponentially extending/attenuation sheet is discussed in the current work. The fundamental issue involves recovering the ordinary differential models from the leading Navier-Stokes equations of conservation of momentum, energy, and mass which appear in partial differential forms through the similarity estimation approach. The recovered coupled ordinary differential equations (CODEs) have been analytically resolved using the series technique and evaluated numerically by employing the MATHEMATICA scheme. Furthermore, graphics discussion of the velocity, temperature, and concentration profiles are provided. Notedly, it is observed that as the Hartmann parameter Ht, improves, the drag, as well as the fluid velocity decreases. Also, enhancement of the thermal nonequilibrium number begets a rise in the temperature. On the other hand, as the threshold thermal Grashof number values appreciate, the skin friction is improved. Equally, the local Nusselt number declines due to enhancing the Prandtl and thermal nonequilibrium parameters respectively. Correspondingly, when the numerical values for the local Nusselt number, and coefficient of skin friction are compared to the literature that is currently available, they are found to be in close and total agreement.

Anahtar Kelimeler

Kaynakça

  1. [1] B. C. Sakiadis, “Boundary layer behavior on continuous solid surfaces: I. Boundary layer equations for twodimensional and axisymmetric flow”, American Institute of Chemical Engineers (AIChE J.), vol. 7, pp. 26- 28, 1961. https://doi:10.1002/aic.690070108
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  3. [3] K. V. Prasad, K. Vajravelu, and P. S. Datti, “The effects of variable fluid properties on the hydro-magnetic flow and heat transfer over a non-linearly stretching sheet”, International journal of thermal science, 49(3): 603- 610, (2010). https://doi:10.1016/j.ijthermalsci.2009.08.005
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  6. [6] E. Mabood, W. A. Khan, and A. I. Md Ismail, “MHD flow over exponential radiating stretching sheet using Homotopy Analysis Method” Journal of King Saud University Engineering Science, vol. 29, pp. 68-74, 2017.
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Ayrıntılar

Birincil Dil

İngilizce

Konular

Mühendislik Uygulaması ve Eğitimde Sistem Mühendisliği

Bölüm

Araştırma Makalesi

Yayımlanma Tarihi

1 Mayıs 2025

Gönderilme Tarihi

9 Temmuz 2024

Kabul Tarihi

28 Mart 2025

Yayımlandığı Sayı

Yıl 2025 Cilt: 12 Sayı: 2

Kaynak Göster

APA
Uka, U., Esekhaigbe, E., & Obi, B. (2025). Analysis of Boundary Layer Thickness and Temperature Distribution in a Fluidic Stream across a Stretching Sheet with Thermal Nonequilibrium and Viscous Heating Effects. El-Cezeri, 12(2), 134-152. https://doi.org/10.31202/ecjse.1513483
AMA
1.Uka U, Esekhaigbe E, Obi B. Analysis of Boundary Layer Thickness and Temperature Distribution in a Fluidic Stream across a Stretching Sheet with Thermal Nonequilibrium and Viscous Heating Effects. ECJSE. 2025;12(2):134-152. doi:10.31202/ecjse.1513483
Chicago
Uka, Uchenna, Edwin Esekhaigbe, ve Boniface Obi. 2025. “Analysis of Boundary Layer Thickness and Temperature Distribution in a Fluidic Stream across a Stretching Sheet with Thermal Nonequilibrium and Viscous Heating Effects”. El-Cezeri 12 (2): 134-52. https://doi.org/10.31202/ecjse.1513483.
EndNote
Uka U, Esekhaigbe E, Obi B (01 Mayıs 2025) Analysis of Boundary Layer Thickness and Temperature Distribution in a Fluidic Stream across a Stretching Sheet with Thermal Nonequilibrium and Viscous Heating Effects. El-Cezeri 12 2 134–152.
IEEE
[1]U. Uka, E. Esekhaigbe, ve B. Obi, “Analysis of Boundary Layer Thickness and Temperature Distribution in a Fluidic Stream across a Stretching Sheet with Thermal Nonequilibrium and Viscous Heating Effects”, ECJSE, c. 12, sy 2, ss. 134–152, May. 2025, doi: 10.31202/ecjse.1513483.
ISNAD
Uka, Uchenna - Esekhaigbe, Edwin - Obi, Boniface. “Analysis of Boundary Layer Thickness and Temperature Distribution in a Fluidic Stream across a Stretching Sheet with Thermal Nonequilibrium and Viscous Heating Effects”. El-Cezeri 12/2 (01 Mayıs 2025): 134-152. https://doi.org/10.31202/ecjse.1513483.
JAMA
1.Uka U, Esekhaigbe E, Obi B. Analysis of Boundary Layer Thickness and Temperature Distribution in a Fluidic Stream across a Stretching Sheet with Thermal Nonequilibrium and Viscous Heating Effects. ECJSE. 2025;12:134–152.
MLA
Uka, Uchenna, vd. “Analysis of Boundary Layer Thickness and Temperature Distribution in a Fluidic Stream across a Stretching Sheet with Thermal Nonequilibrium and Viscous Heating Effects”. El-Cezeri, c. 12, sy 2, Mayıs 2025, ss. 134-52, doi:10.31202/ecjse.1513483.
Vancouver
1.Uchenna Uka, Edwin Esekhaigbe, Boniface Obi. Analysis of Boundary Layer Thickness and Temperature Distribution in a Fluidic Stream across a Stretching Sheet with Thermal Nonequilibrium and Viscous Heating Effects. ECJSE. 01 Mayıs 2025;12(2):134-52. doi:10.31202/ecjse.1513483

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