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Complete analytic solutions for convection-diffusion-reaction-source equations without using an inverse Laplace transform

Albert S. Kim

2020Scientific Reports24 citationsDOIOpen Access PDF

Abstract

Transient mass-transfer phenomena occurring in natural and engineered systems consist of convection, diffusion, and reaction processes. The coupled phenomena can be described by using the unsteady convection-diffusion-reaction (CDR) equation, which is classified in mathematics as a linear, parabolic partial-differential equation. The availability of analytic solutions is limited to simple cases, e.g., unsteady diffusion and steady convective diffusion. The CDR equation has been considered analytically intractable, depending on the initial and boundary conditions. If spatial adsorption and desorption of matter are super-positioned in the CDR equation as sink and source functions, respectively, then the governing equation becomes an unsteady convection-diffusion-reaction-source (CDRS) equation, of which general solutions are unknown. In this study, a general 1D analytic solution of the CDRS equation is obtained by using a one-sided Laplace transform, by assuming constant diffusivity, velocity, and reactivity. This paper also provides a general formalism to derive 1D analytic solutions for Dirichlet/Dirichlet and Dirichlet/Neumann boundary conditions. Derivations of the analytic solutions are found to be straightforward if a combination of the source function and the initial concentration provide a non-zero singularity pole of inverse Laplace transform.

Topics & Concepts

Laplace transformLaplace's equationConvection–diffusion equationMathematical analysisDiffusion equationPartial differential equationMathematicsBoundary value problemDirichlet boundary conditionGreen's function for the three-variable Laplace equationInverse Laplace transformEconomyEconomicsService (business)Fractional Differential Equations SolutionsDifferential Equations and Numerical MethodsAdvanced Thermodynamics and Statistical Mechanics
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