Title :
Diagnostic System for Current-Carrying Fault: Modeling, Precaution, and Prediction
Author :
Huiyuan Zhang ; Li Xu
Author_Institution :
Coll. of Electr. Eng., Zhejiang Univ., Hangzhou, China
Abstract :
This paper presents a novel method based on heat-transfer theory, principal component analysis (PCA), and particle filtering (PF) to detect, trace, and predict current-carrying faults in electrical equipment. Based on heat-transfer theory, a model is proposed to describe the temperature rise of a faulty contact. PCA is applied to analyze each contact´s real-time temperature sequence and categorize faulty contacts for early warnings. After fault detection, the temperature sequence of a faulty contact is extracted and adopted to initialize the model parameters. To better demonstrate the fault status, PF is utilized to optimize the model parameters. Experimental results are presented to verify the feasibility and validity of the proposed method.
Keywords :
electrical contacts; fault diagnosis; heat transfer; particle filtering (numerical methods); power apparatus; power system faults; power system protection; principal component analysis; PCA; current-carrying fault detection; current-carrying fault prediction; current-carrying fault tracing; diagnostic system; early warnings; electrical equipment; fault status; faulty contact temperature sequence; heat transfer theory; model parameters; particle filtering; principal component analysis; temperature rise; Circuit faults; Contacts; Heat transfer; Mathematical model; Predictive models; Principal component analysis; Temperature sensors; Current-carrying fault; heat-transfer theory; model; particle filtering; precaution; prediction; principal component analysis (PCA);
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2013.2295005
