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Une méthodologie pour le diagnostic des anomalies multiples des systèmes de conditionnement d'air à compression de vapeur.

A methodology for diagnosing multiple simultaneous faults in vapour-compression air conditioners.

Auteurs : LI H., BRAUN J. E.

Type d'article : Article

Résumé

Existing methods addressing automated fault detection and diagnosis (FDD) for vapour-compression air-conditioning equipment have good performance for faults that occur individually but have difficulty handling multiple simultaneous faults. In addition, these methods either require high-cost measurements or measurements over a wide range of conditions for training reference models, the development of which can be time consuming and cost prohibitive. This paper formulates model-based FDD in a generic way and demonstrates that decoupling is the key to handling multiple simultaneous faults. To eliminate a cost-prohibitive overall system model, an alternative physical decoupling methodology to mathematical decoupling is developed. During the mathematical development, a previously developed FDD method termed the statistical rule-based method is reexamined and cast within the general mathematical framework. The paper also includes an evaluation of the FDD method in terms of both sensitivity and robustness.

Détails

Titre original : A methodology for diagnosing multiple simultaneous faults in vapour-compression air conditioners.
Identifiant de la fiche : 2007-2739
Langues : Anglais
Source : HVAC&R Research - vol. 13 - n. 2
Date d'édition : 03/2007

Liens

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Indexation

Thèmes : Autres équipements de conditionnement d'air
Mots-clés : Équipement frigorifique; Conditionneur d'air; Anomalie; Système à compression; Procédé; Panne; Détection; Conditionnement d'air