Linearly implicit schemes for convection-diffusion equations

Fausto Cavalli

Linearly implicit schemes for convection-diffusion equations

Fausto Cavalli

Faculty of Economics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

We present a family of schemes for the approximation of one dimensional convection-diffusion equations. It is based on a linearization technique that allows to treat explicitly the hyperbolic term and linearly implicitly the parabolic one. This avoids the parabolic stability constraint of explicit schemes, and does not require any non-linear solver for the implicit problem. We present several numerical simulations to show the effectiveness\r\nof the proposed schemes and to investigate their stability, convergence and accuracy. In particular, since the proposed schemes provide to be accurate for both smooth and non-smooth solutions, they turn out to be attractive for adaptivity

Original language	English
Title of host publication	Hyperbolic Problems: Theory, Numerics, Applications
Publisher	AIMS
Pages	423-431
Number of pages	9
ISBN (Print)	978-1-60133-017-8
Publication status	Published - 2013

Keywords

Partial differential equations

Cite this

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title = "Linearly implicit schemes for convection-diffusion equations",

abstract = "We present a family of schemes for the approximation of one dimensional convection-diffusion equations. It is based on a linearization technique that allows to treat explicitly the hyperbolic term and linearly implicitly the parabolic one. This avoids the parabolic stability constraint of explicit schemes, and does not require any non-linear solver for the implicit problem. We present several numerical simulations to show the effectiveness\textbackslash{}r\textbackslash{}nof the proposed schemes and to investigate their stability, convergence and accuracy. In particular, since the proposed schemes provide to be accurate for both smooth and non-smooth solutions, they turn out to be attractive for adaptivity",

keywords = "Partial differential equations, Partial differential equations",

author = "Fausto Cavalli",

year = "2013",

language = "English",

isbn = "978-1-60133-017-8",

pages = "423--431",

booktitle = "Hyperbolic Problems: Theory, Numerics, Applications",

publisher = "AIMS",

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T1 - Linearly implicit schemes for convection-diffusion equations

AU - Cavalli, Fausto

PY - 2013

Y1 - 2013

N2 - We present a family of schemes for the approximation of one dimensional convection-diffusion equations. It is based on a linearization technique that allows to treat explicitly the hyperbolic term and linearly implicitly the parabolic one. This avoids the parabolic stability constraint of explicit schemes, and does not require any non-linear solver for the implicit problem. We present several numerical simulations to show the effectiveness\r\nof the proposed schemes and to investigate their stability, convergence and accuracy. In particular, since the proposed schemes provide to be accurate for both smooth and non-smooth solutions, they turn out to be attractive for adaptivity

AB - We present a family of schemes for the approximation of one dimensional convection-diffusion equations. It is based on a linearization technique that allows to treat explicitly the hyperbolic term and linearly implicitly the parabolic one. This avoids the parabolic stability constraint of explicit schemes, and does not require any non-linear solver for the implicit problem. We present several numerical simulations to show the effectiveness\r\nof the proposed schemes and to investigate their stability, convergence and accuracy. In particular, since the proposed schemes provide to be accurate for both smooth and non-smooth solutions, they turn out to be attractive for adaptivity

KW - Partial differential equations

UR - https://publicatt.unicatt.it/handle/10807/85479

M3 - Conference contribution

SN - 978-1-60133-017-8

SP - 423

EP - 431

BT - Hyperbolic Problems: Theory, Numerics, Applications

PB - AIMS

ER -

Linearly implicit schemes for convection-diffusion equations

Abstract

Keywords

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