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New numerical simulation for fractional Benney–Lin equation arising in falling film problems using two novel techniques

Wei Gao, P. Veeresha, D. G. Prakasha, Hacı Mehmet Başkonuş

2020Numerical Methods for Partial Differential Equations93 citationsDOI

Abstract

Abstract The pivotal aim of the present work is to find the numerical solution for fractional Benney–Lin equation by using two efficient methods, called q ‐homotopy analysis transform method and fractional natural decomposition method. The considered equation exemplifies the long waves on the liquid films. Projected methods are distinct with solution procedure and they are modified with different transform algorithms. To illustrate the reliability and applicability of the considered solution procedures we consider eight special cases with different initial conditions. The fractional operator is considered in Caputo sense. The achieved results are drowned through two and three‐dimensional plots for different Brownian motions and classical order. The numerical simulations are presented to ensure the efficiency of considered techniques. The behavior of the obtained results for distinct fractional order is captured in the present framework. The outcomes of the present investigation show that, the considered schemes are efficient and powerful to solve nonlinear differential equations arise in science and technology.

Topics & Concepts

MathematicsFractional calculusOperator (biology)Homotopy analysis methodReliability (semiconductor)Applied mathematicsPartial differential equationNonlinear systemHomotopyDecomposition method (queueing theory)Mathematical analysisPhysicsTranscription factorRepressorQuantum mechanicsChemistryDiscrete mathematicsGenePure mathematicsPower (physics)BiochemistryFractional Differential Equations SolutionsFluid Dynamics and Thin FilmsNanofluid Flow and Heat Transfer
New numerical simulation for fractional Benney–Lin equation arising in falling film problems using two novel techniques | Litcius