Variational Iteration Method for the Burgers' Flow With Fractional Derivatives-New Lagrange Multipliers
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Date
2013
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier Science inc
Open Access Color
HYBRID
Green Open Access
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Top 1%
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Top 10%
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Abstract
The flow through porous media can be better described by fractional models than the classical ones since they include inherently memory effects caused by obstacles in the structures. The variational iteration method was extended to find approximate solutions of fractional differential equations with the Caputo derivatives, but the Lagrange multipliers of the method were not identified explicitly. In this paper, the Lagrange multiplier is determined in a more accurate way and some new variational iteration formulae are presented. (C) 2013 Elsevier Inc. All rights reserved.
Description
Wu, Guo-Cheng/0000-0002-1946-6770
ORCID
Keywords
Fractional Differential Equation, Caputo Derivative, Variational Iteration Method, Variational methods applied to problems in fluid mechanics, Laplace transform, Flows in porous media; filtration; seepage, Numerical methods for integral equations, Numerical methods for initial value problems involving ordinary differential equations, Fractional partial differential equations, Caputo derivative, Integro-ordinary differential equations, Fractional derivatives and integrals, fractional differential equation, variational iteration method
Fields of Science
0202 electrical engineering, electronic engineering, information engineering, 02 engineering and technology, 0101 mathematics, 01 natural sciences
Citation
Baleanu, Dumitru; Wu, Guo-Cheng, "Variational Iteration Method For The Burgers' Flow With Fractional Derivatives-New Lagrange Multipliers", Applied Mathematical Modelling, 37, No. 9, pp. 6183-6190, (2013).
WoS Q
Q1
Scopus Q
Q1
OpenCitations Citation Count
128
Source
Applied Mathematical Modelling
Volume
37
Issue
9
Start Page
6183
End Page
6190
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Citations
CrossRef : 128
Scopus : 145
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Mendeley Readers : 18
SCOPUS™ Citations
151
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Web of Science™ Citations
137
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2
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