Cauchy type nonlinear inverse problem in a two-layer area

Michał Ciałkowski; Aleksander Olejnik; Magda Joachimiak; Krzysztof Grysa; Andrzej Frąckowiak

doi:10.1108/HFF-09-2020-0584

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Title

Cauchy type nonlinear inverse problem in a two-layer area

Authors

Michał Ciałkowski (WIŚiE) ^{[ 1 ][ 2.10 ][ P ]}
Aleksander Olejnik
Magda Joachimiak (WIŚiE) ^{[ 1 ][ 2.10 ][ P ]}
Krzysztof Grysa
Andrzej Frąckowiak (WIŚiE) ^{[ 1 ][ 2.10 ][ P ]}

^{[ 1 ]} Instytut Energetyki Cieplnej, Wydział Inżynierii Środowiska i Energetyki, Politechnika Poznańska | ^{[ P ]} employee

Scientific discipline (Law 2.0)

[2.10] Environmental engineering, mining and energy

Year of publication

2022

Published in

International Journal of Numerical Methods for Heat & Fluid Flow

Journal year: 2022 | Journal volume: vol. 32 | Journal number: no. 1

Article type

scientific article

Publication language

english

Keywords

EN

turbine blade
cauchy type problem
energy balance equation
inverse heat conduction problem
two-layer area

Abstract

EN Purpose To reduce the heat load of a gas turbine blade, its surface is covered with an outer layer of ceramics with high thermal resistance. The purpose of this paper is the selection of ceramics with such a low heat conduction coefficient and thickness, so that the permissible metal temperature is not exceeded on the metal-ceramics interface due to the loss ofmechanical properties. Design/methodology/approach Therefore, for given temperature changes over time on the metal-ceramics interface, temperature changes over time on the inner side of the blade and the assumed initial temperature, the temperature change over time on the outer surface of the ceramics should be determined. The problem presented in this way is a Cauchy type problem. When analyzing the problem, it is taken into account that thermophysical properties of metal and ceramics may depend on temperature. Due to the thin layer of ceramics in relation to the wall thickness, the problem is considered in the area in the flat layer. Thus, a one-dimensional non-stationary heat flow is considered. Findings The range of stability of the Cauchy problem as a function of time step, thickness of ceramics and thermophysical properties of metal and ceramics are examined. The numerical computations also involved the influence of disturbances in the temperature on metal-ceramics interface on the solution to the inverse problem. Practical implications The computational model can be used to analyze the heat flow in gas turbine blades with thermal barrier. Originality/value A number of inverse problems of the type considered in the paper are presented in the literature. Inverse problems, especially those Cauchy-type, are ill-conditioned numerically, which means that a small change in the inputs may result in significant errors of the solution. In such a case, regularization of the inverse problem is needed. However, the Cauchy problem presented in the paper does not require regularization.

Pages (from - to)

313 - 331

DOI

10.1108/HFF-09-2020-0584

URL

https://www.emerald.com/insight/content/doi/10.1108/HFF-09-2020-0584/full/html

License type

CC BY (attribution alone)

Open Access Mode

czasopismo hybrydowe

Open Access Text Version

final published version