Litcius/Paper detail

Solution of the time-fractional generalized Burger–Fisher equation using the fractional reduced differential transform method

Vahisht K. Tamboli, Priti V. Tandel

2021Journal of Ocean Engineering and Science17 citationsDOIOpen Access PDF

Abstract

‘‘The time-fractional generalized Burger–Fisher equation (TF-GBFE)” is used in various applied sciences and physical applications, including simulation of gas dynamics, financial mathematics, fluid mechanics, and ocean engineering. This equation represents a concept for the coordination of reaction systems, as well as advection, and conveys the understanding of dissipation. The Fractional Reduced Differential Transform Method (FRDTM) is used to evaluate “the time-fractional generalized Burger–Fisher equation (TF-GBFE).” To determine the method’s validity, when the solutions are obtained, they are correlated to exact solutions of α=1 order, and even for various values of α. Three-dimensional graphs are used to depict the solutions. Additionally, the analysis of exact and FRDTM solutions indicates that the proposed approach is very accurate.

Topics & Concepts

MathematicsFractional calculusFisher equationDifferential equationExact solutions in general relativityApplied mathematicsPartial differential equationAdvectionOrder (exchange)Fisher's equationIntegro-differential equationMathematical analysisFirst-order partial differential equationPhysicsThermodynamicsReal interest rateEconomicsInterest rateMonetary economicsFinanceFractional Differential Equations SolutionsNonlinear Waves and SolitonsAdvanced Differential Equations and Dynamical Systems