Film cooling of the gas turbine endwall by discrete-hole injection

M. Y. Jabbari; K. C. Marston; E. R.G. Eckert; R. J. Goldstein

doi:10.1115/94-gt-067

Film cooling of the gas turbine endwall by discrete-hole injection

M. Y. Jabbari, K. C. Marston, E. R.G. Eckert, R. J. Goldstein

Mechanical Engineering

Research output: Contribution to journal › Conference article › peer-review

7 Scopus citations

Abstract

Film cooling performance for injection through discrete holes in the endwall of a turbine blade is investigated. The effectiveness is measured at sixty locations in the region covered by injection. Three nominal blowing rates, two density ratios, and two approaching flow Reynolds numbers are examined. Analysis of the data reveals that even sixty locations are insufficient for the determination of the field of film cooling effectiveness with its strong local variations. Visualization of the traces of the coolant jets on the endwall surface, using ammonium-diazo-paper, provides useful qualitative information for the interpretation of the measurements, revealing the paths and interaction of the jets which change with blowing rate and density ratio.

Original language	English (US)
Pages (from-to)	1-8
Number of pages	8
Journal	ASME Pap
DOIs	https://doi.org/10.1115/94-gt-067
State	Published - 1994
Event	Proceedings of the International Gas Turbine and Aeroengine Congress and Exposition - Hague, Neth Duration: Jun 13 1994 → Jun 16 1994

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title = "Film cooling of the gas turbine endwall by discrete-hole injection",

abstract = "Film cooling performance for injection through discrete holes in the endwall of a turbine blade is investigated. The effectiveness is measured at sixty locations in the region covered by injection. Three nominal blowing rates, two density ratios, and two approaching flow Reynolds numbers are examined. Analysis of the data reveals that even sixty locations are insufficient for the determination of the field of film cooling effectiveness with its strong local variations. Visualization of the traces of the coolant jets on the endwall surface, using ammonium-diazo-paper, provides useful qualitative information for the interpretation of the measurements, revealing the paths and interaction of the jets which change with blowing rate and density ratio.",

author = "Jabbari, {M. Y.} and Marston, {K. C.} and Eckert, {E. R.G.} and Goldstein, {R. J.}",

year = "1994",

doi = "10.1115/94-gt-067",

language = "English (US)",

pages = "1--8",

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note = "Proceedings of the International Gas Turbine and Aeroengine Congress and Exposition ; Conference date: 13-06-1994 Through 16-06-1994",

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T1 - Film cooling of the gas turbine endwall by discrete-hole injection

AU - Jabbari, M. Y.

AU - Marston, K. C.

AU - Eckert, E. R.G.

AU - Goldstein, R. J.

PY - 1994

Y1 - 1994

N2 - Film cooling performance for injection through discrete holes in the endwall of a turbine blade is investigated. The effectiveness is measured at sixty locations in the region covered by injection. Three nominal blowing rates, two density ratios, and two approaching flow Reynolds numbers are examined. Analysis of the data reveals that even sixty locations are insufficient for the determination of the field of film cooling effectiveness with its strong local variations. Visualization of the traces of the coolant jets on the endwall surface, using ammonium-diazo-paper, provides useful qualitative information for the interpretation of the measurements, revealing the paths and interaction of the jets which change with blowing rate and density ratio.

AB - Film cooling performance for injection through discrete holes in the endwall of a turbine blade is investigated. The effectiveness is measured at sixty locations in the region covered by injection. Three nominal blowing rates, two density ratios, and two approaching flow Reynolds numbers are examined. Analysis of the data reveals that even sixty locations are insufficient for the determination of the field of film cooling effectiveness with its strong local variations. Visualization of the traces of the coolant jets on the endwall surface, using ammonium-diazo-paper, provides useful qualitative information for the interpretation of the measurements, revealing the paths and interaction of the jets which change with blowing rate and density ratio.

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JO - ASME Pap

JF - ASME Pap

T2 - Proceedings of the International Gas Turbine and Aeroengine Congress and Exposition

Y2 - 13 June 1994 through 16 June 1994

ER -

Film cooling of the gas turbine endwall by discrete-hole injection

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