Hanan A. Saeed scite author profile

Electric valves have significant importance in industrial applications, especially in nuclear power plants. Keeping in view the quantity and criticality of valves in any plant, it is necessary to analyze the degradation of electric valves. However, it is difficult to inspect each valve in conventional maintenance. Keeping in view the quantity and criticality of valves in any plant, it is necessary to analyze the degradation of electric valves. Thus, there exists a genuine demand for remote sensing of a valve condition through nonintrusive methods as well as prediction of its remaining useful life (RUL). In this paper, typical aging modes have been summarized. The data for sensing valve conditions were gathered during aging experiments through acoustic emission sensors. During data processing, convolution kernel integrated with LSTM is utilized for feature extraction. Subsequently, LSTM which has an excellent ability in sequential analysis is used for predicting RUL. Experiments show that the proposed method could predict RUL more accurately compared to other typical machine learning and deep learning methods. This will further enhance maintenance efficiency of any plant.

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Data for: NOVEL FAULT DIAGNOSIS SCHEME UTILIZING DEEP LEARNING NETWORKS

Saeed¹

2019

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Hanan A. Saeed

Online fault monitoring based on deep neural network & sliding window technique

Fault identification and diagnosis based on KPCA and similarity clustering for nuclear power plants

Novel fault diagnosis scheme utilizing deep learning networks

Remaining Useful Life Prediction Techniques of Electric Valves for Nuclear Power Plants with Convolution Kernel and LSTM

Data for: NOVEL FAULT DIAGNOSIS SCHEME UTILIZING DEEP LEARNING NETWORKS

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