An exact solution to a Stefan problem with variable thermal conductivity and a Robin boundary condition

Ceretani, Andrea N.; Salva, Natalia N.; Tarzia, Domingo A.

doi:10.1016/j.nonrwa.2017.09.002

Cited by 43 publications

(28 citation statements)

References 26 publications

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“…Most of the results obtained here appear to be new and resolve the lack of monotonicity of successive corrections in the approximation of MEF appearing in [18]. The results derived here may be useful for the researchers working in the field of Stefan problems e.g., in the approximations of generalized error function introduced by Ceretani et al in their recent work [21].…”

Section: Discussionsupporting

confidence: 62%

A Note on Corrections in Approximation of the Modified Error Function

Mandal

Singh

Panja

2019

JAMCS

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This article deals with the evaluation of some integrals involving error-, exponential-and algebraic functions with an objective to derive explicit expressions for the second and third order correction terms in the approximation of the modified error function, playing important role in the study of Stefan problem. The results obtained here appear to be new and resolve the lack of desired monotonicity property in the results presented by Ceretania et al. [1]. Results derived here seem to be useful for the researchers working with Stefan problems.

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Section: Discussionsupporting

confidence: 62%

A Note on Corrections in Approximation of the Modified Error Function

Mandal

Singh

Panja

2019

JAMCS

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“…Similar approaches to those introduced by Sunderland and collaborators were followed to find exact similarity solutions in the cases when non-Dirichlet boundary conditions are prescribed at x = 0 or when the physical domain is allowed to move, see e.g. [7][8][9]. In all cases it was assumed that α = β > 0, or α = 0 and β > 0.…”

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confidence: 99%

Auxiliary functions in the study of Stefan-like problems with variable thermal properties

Ceretani

Salva

Tarzia

2020

Applied Mathematics Letters

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We address the existence and uniqueness of the so-called modified error function that arises in the study of phase-change problems with specific heat and thermal conductivity given by linear functions of the material temperature. This function is defined from a differential problem that depends on two parameters which are closely related with the slopes of the specific heat and the thermal conductivity. We identify conditions on these parameters which allow us to prove the existence of the modified error function. In addition, we show its uniqueness in the space of nonnegative bounded analytic functions for parameters that can be negative and different from each other. This extends known results from the literature and enlarges the class of associated phasechange problems for which exact similarity solutions can be obtained. In addition, we provide some properties of the modified error function considered here.

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“…where δ and p are given non-negative constants, k 0 = k (θ f ) and c 0 = c (θ f ) are the reference thermal conductivity and the specific heat coefficients, respectively. Some other models involving temperature-dependent thermal conductivity can also be found in [3,4,11,13,23,24,26,27,36,38,40,41,42,43,44,45].…”

Section: Introductionmentioning

confidence: 99%

Explicit solution for non-classical one-phase Stefan problem with variable thermal coefficients and two different heat source terms

Bollati¹,

Natale²,

Semitiel³

et al. 2022

Preprint

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A one-phase Stefan problem for a semi-infinite material is investigated for special functional forms of the thermal conductivity and specific heat depending on the temperature of the phase-change material. Using the similarity transformation technique, an explicit solution for these situations are showed. The mathematical analysis is made for two different kinds of heat source terms, and the existence and uniqueness of the solutions are proved.

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An exact solution to a Stefan problem with variable thermal conductivity and a Robin boundary condition

Cited by 43 publications

References 26 publications

A Note on Corrections in Approximation of the Modified Error Function

A Note on Corrections in Approximation of the Modified Error Function

Auxiliary functions in the study of Stefan-like problems with variable thermal properties

Explicit solution for non-classical one-phase Stefan problem with variable thermal coefficients and two different heat source terms

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