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A new generic approach to convert FMEA in causal trees for the purpose of hydro-generator rotor failure mechanisms identification

Blancke, Olivier et Amyot, Normand et Hudon, Claude et Lévesque, Mélanie et Tahan, Antoine. 2015. « A new generic approach to convert FMEA in causal trees for the purpose of hydro-generator rotor failure mechanisms identification ». In Annual Conference of the Prognostics and Health Management Society 2015 (Coronado, CA, USA, Oct. 18-24, 2015) PHM Society.

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At Hydro-Québec (HQ), an integrated diagnostic system (MIDA) is currently used to assess hydro-generators health index. This system gives the global health index but does not propose any understanding of active failure mechanisms. At this point, this work needs to be done by experts after analysis of the diagnostic data in MIDA. To relieve the expert from part of this work, a prognostic tool, that uses a Failure Mechanisms and Symptoms Analysis (FMSA), is under development. The approach is based on the understanding of the evolution of degradation processes for each failure mechanism. Failure mechanisms are structured as causal trees and defined as a sequence of physical states starting from a root cause and ending with a failure mode. A physical state corresponds to characteristic degradation condition of a component of the generator. Each physical state being defined by a unique combination of symptoms as measured with diagnostic tools. After consigning all possible mechanisms occurring in both the rotor and the stator, the symptoms logged into a database can be read to automatically identify all active physical state and active failure mechanisms. This approach has been under development in HQ for the stator for a number of years and is now extended to the rotors of hydro-generators. The purpose of this paper is to present the structured method used to build the failure mechanisms from bits and pieces of information (sub-mechanisms) found in the literature and from discussions with experts. This new methodology is based on a two steps process. First, sub-mechanisms were extracted from FMEA in the literature. Then, an algorithm was used to generate a set of causal trees from these submechanisms. The generated results then had to be validated by experts to make sure that automatically generated mechanisms were logical and plausible. The resulting extended failure mechanisms trees built can then be used for the purpose of Root Cause Analysis (RCA), model-based diagnostics and prognosis. This method was developed to be as generic as possible so it could be applied to any complex system.

Type de document: Compte rendu de conférence
Tahan, Antoine
Affiliation: Génie mécanique
Date de dépôt: 03 févr. 2016 20:37
Dernière modification: 14 sept. 2017 14:24

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