Early detection and diagnosis of overheating problems in turbine generators by instrumental chemical analysis

Overheating problems within turbine generators if undetected can lead to catastrophic failures associated with long and costly outages. Instrumental chemical analysis methods used to detect and diagnose these hot spots are described. The Core Monitor, gas chromatograph and mass spectrometer have bee...

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Published in:IEEE transactions on power apparatus and systems 1976-05, Vol.95 (3), p.879-886
Main Authors: Kelley, J.K., Auld, J.W., Herter, V.J., Hutchinson, K.A., Rugenstein, W.A.
Format: Article
Language:English
Subjects:
Chemical analysis
Condition monitoring
Conductors
Coolants
Fires
Hydrogen
Instruments
Power generation
Sampling methods
Turbines
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description Overheating problems within turbine generators if undetected can lead to catastrophic failures associated with long and costly outages. Instrumental chemical analysis methods used to detect and diagnose these hot spots are described. The Core Monitor, gas chromatograph and mass spectrometer have been applied to the analysis of the generator hydrogen coolant. By determining the concentration and type of organic thermal decomposition products in the hydrogen, the extent and possible location of the problem can be diagnosed.
doi_str_mv 10.1109/T-PAS.1976.32173
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source IEEE Electronic Library (IEL) Journals
subjects Chemical analysis
Condition monitoring
Conductors
Coolants
Fires
Hydrogen
Instruments
Power generation
Sampling methods
Turbines
title Early detection and diagnosis of overheating problems in turbine generators by instrumental chemical analysis
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