Effect of thermal stress on creep lifetime for a gas turbine combustion liner

Hokyu Moon; Kyung Min Kim; Yun Heung Jeon; Sangwoo Shin; Jun Su Park; Hyung Hee Cho

doi:10.1016/j.engfailanal.2014.10.004

Effect of thermal stress on creep lifetime for a gas turbine combustion liner

Hokyu Moon, Kyung Min Kim, Yun Heung Jeon, Sangwoo Shin, Jun Su Park, Hyung Hee Cho

Department of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

22 Citations (Scopus)

Abstract

The present study investigates the effect of thermal stress on the creep lifetime for a combustion liner in a gas turbine. For the calculation of thermal stress of a combustion liner, 3D-numerical analyses are performed using an FEM commercial code. Actual operating conditions and material properties are also applied for the realistic calculation. As a result, high thermal stress is locally induced in the inlet of the rib-roughened region of the whole combustion liner. That is attributed to the high temperature gradients formed from the large temperature differences between the hot spots and the surrounding low temperature regions. The result is in a good agreement with the actually damaged combustion liner. Moreover, the hot gas side of the inlet of the rib-roughened region appeared vulnerable to creep and the minimum creep lifetime is estimated to be approximately 26,900. h.

Original language	English
Pages (from-to)	34-40
Number of pages	7
Journal	Engineering Failure Analysis
Volume	47
Issue number	PA
DOIs	https://doi.org/10.1016/j.engfailanal.2014.10.004
Publication status	Published - 2015 Jan 1

Bibliographical note

Publisher Copyright:
© 2014 Elsevier Ltd.

All Science Journal Classification (ASJC) codes

Materials Science(all)
Engineering(all)

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10.1016/j.engfailanal.2014.10.004

Cite this

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abstract = "The present study investigates the effect of thermal stress on the creep lifetime for a combustion liner in a gas turbine. For the calculation of thermal stress of a combustion liner, 3D-numerical analyses are performed using an FEM commercial code. Actual operating conditions and material properties are also applied for the realistic calculation. As a result, high thermal stress is locally induced in the inlet of the rib-roughened region of the whole combustion liner. That is attributed to the high temperature gradients formed from the large temperature differences between the hot spots and the surrounding low temperature regions. The result is in a good agreement with the actually damaged combustion liner. Moreover, the hot gas side of the inlet of the rib-roughened region appeared vulnerable to creep and the minimum creep lifetime is estimated to be approximately 26,900. h.",

author = "Hokyu Moon and Kim, {Kyung Min} and Jeon, {Yun Heung} and Sangwoo Shin and Park, {Jun Su} and Cho, {Hyung Hee}",

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AU - Kim, Kyung Min

AU - Jeon, Yun Heung

AU - Shin, Sangwoo

AU - Park, Jun Su

AU - Cho, Hyung Hee

PY - 2015/1/1

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AB - The present study investigates the effect of thermal stress on the creep lifetime for a combustion liner in a gas turbine. For the calculation of thermal stress of a combustion liner, 3D-numerical analyses are performed using an FEM commercial code. Actual operating conditions and material properties are also applied for the realistic calculation. As a result, high thermal stress is locally induced in the inlet of the rib-roughened region of the whole combustion liner. That is attributed to the high temperature gradients formed from the large temperature differences between the hot spots and the surrounding low temperature regions. The result is in a good agreement with the actually damaged combustion liner. Moreover, the hot gas side of the inlet of the rib-roughened region appeared vulnerable to creep and the minimum creep lifetime is estimated to be approximately 26,900. h.

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Effect of thermal stress on creep lifetime for a gas turbine combustion liner

Abstract

Bibliographical note

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