Method for discharge coefficients computation of film cooling holes on blade surface of turbine cascade

An Ding Xiang; Song Ling Liu; Hui Ren Zhu

Method for discharge coefficients computation of film cooling holes on blade surface of turbine cascade

An Ding Xiang, Song Ling Liu, Hui Ren Zhu

School of Power and Energy

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

2 Scopus citations

Abstract

The empirical means for prediction of discharge coefficients of film cooling holes on the turbine blade suggested by Rowbury D.A. et al was improved to adapt the computations in the cases of low pressure ratios and the holes in leading edge region especially. The effects of external cross flow, hole geometry and Reynolds number in the hole were taken into account. An additive loss coefficient method is subsequently applied to the test data in order to show the effect of the external crossflow. To compare with a great deal of experimental data, the result shows that the improved method may be used as a generalized design methodology of film cooling for turbine blade.

Original language	English
Pages (from-to)	24-27
Number of pages	4
Journal	Tuijin Jishu/Journal of Propulsion Technology
Volume	26
Issue number	1
State	Published - Feb 2005

Keywords

Computation
Experimentation
Film cooling
Flow coefficient
Turbine blade

Cite this

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title = "Method for discharge coefficients computation of film cooling holes on blade surface of turbine cascade",

abstract = "The empirical means for prediction of discharge coefficients of film cooling holes on the turbine blade suggested by Rowbury D.A. et al was improved to adapt the computations in the cases of low pressure ratios and the holes in leading edge region especially. The effects of external cross flow, hole geometry and Reynolds number in the hole were taken into account. An additive loss coefficient method is subsequently applied to the test data in order to show the effect of the external crossflow. To compare with a great deal of experimental data, the result shows that the improved method may be used as a generalized design methodology of film cooling for turbine blade.",

keywords = "Computation, Experimentation, Film cooling, Flow coefficient, Turbine blade",

author = "Xiang, {An Ding} and Liu, {Song Ling} and Zhu, {Hui Ren}",

year = "2005",

month = feb,

language = "英语",

volume = "26",

pages = "24--27",

journal = "Tuijin Jishu/Journal of Propulsion Technology",

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T1 - Method for discharge coefficients computation of film cooling holes on blade surface of turbine cascade

AU - Xiang, An Ding

AU - Liu, Song Ling

AU - Zhu, Hui Ren

PY - 2005/2

Y1 - 2005/2

N2 - The empirical means for prediction of discharge coefficients of film cooling holes on the turbine blade suggested by Rowbury D.A. et al was improved to adapt the computations in the cases of low pressure ratios and the holes in leading edge region especially. The effects of external cross flow, hole geometry and Reynolds number in the hole were taken into account. An additive loss coefficient method is subsequently applied to the test data in order to show the effect of the external crossflow. To compare with a great deal of experimental data, the result shows that the improved method may be used as a generalized design methodology of film cooling for turbine blade.

AB - The empirical means for prediction of discharge coefficients of film cooling holes on the turbine blade suggested by Rowbury D.A. et al was improved to adapt the computations in the cases of low pressure ratios and the holes in leading edge region especially. The effects of external cross flow, hole geometry and Reynolds number in the hole were taken into account. An additive loss coefficient method is subsequently applied to the test data in order to show the effect of the external crossflow. To compare with a great deal of experimental data, the result shows that the improved method may be used as a generalized design methodology of film cooling for turbine blade.

KW - Computation

KW - Experimentation

KW - Film cooling

KW - Flow coefficient

KW - Turbine blade

UR - http://www.scopus.com/inward/record.url?scp=15944401027&partnerID=8YFLogxK

M3 - 文章

AN - SCOPUS:15944401027

SN - 1001-4055

VL - 26

SP - 24

EP - 27

JO - Tuijin Jishu/Journal of Propulsion Technology

JF - Tuijin Jishu/Journal of Propulsion Technology

IS - 1

ER -

Method for discharge coefficients computation of film cooling holes on blade surface of turbine cascade

Abstract

Keywords

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