A New Fractional Model for Convective Straight Fins With Temperature-Dependent Thermal Conductivity
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Date
2018
Journal Title
Journal ISSN
Volume Title
Publisher
Vinca inst Nuclear Sci
Open Access Color
GOLD
Green Open Access
No
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Publicly Funded
No
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Top 10%
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Top 10%
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Top 10%
Abstract
The key aim of this work is to present a new non-integer model for convective straight fins with temperature-dependent thermal conductivity associated with Caputo-Fabrizio fractional derivative. The fractional energy balance equation is solved by using homotopy perturbation method coupled with Laplace transform method. The efficiency of straight fin has been derived in terms of thermo-geometric fin parameter. The numerical results derived by the application of suggested scheme are demonstrated graphically. The subsequent correlation equations are very helpful for thermal design scientists and engineers to design straight fins having temperature-dependent thermal conductivity.
Description
Kumar, Devendra/0000-0003-4249-6326
ORCID
Keywords
Fractional Energy Balance Equation, Thermal Conductivity, Straight Fins, Caputo-Fabrizio Fractional Derivative, Homotopy Perturbation Method
Fields of Science
0211 other engineering and technologies, 0202 electrical engineering, electronic engineering, information engineering, 02 engineering and technology
Citation
Kumar, Devendra; Singh, Jagdev; Baleanu, Dumitru, "A New Fractional Model For Convective Straight Fins With Temperature-Dependent Thermal Conductivity", Thermal Science, Vol. 22, No: 6, pp. 2791-2802, (2018).
WoS Q
Q4
Scopus Q
Q3
OpenCitations Citation Count
23
Source
Thermal Science
Volume
22
Issue
6
Start Page
2791
End Page
2802
PlumX Metrics
Citations
CrossRef : 20
Scopus : 25
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Mendeley Readers : 4
SCOPUS™ Citations
25
checked on Feb 24, 2026
Web of Science™ Citations
24
checked on Feb 24, 2026
Page Views
1
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