Vibro-forecasting of fault development in hydropower units

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dc.contributor.author Kukharchuk, V.V.
dc.contributor.author Katsyv, S.Sh.
dc.contributor.author Hraniak, V.F.
dc.contributor.author Kucheruk, V.Yu.
dc.contributor.author Madiarov, V.G.
dc.contributor.author Bykovsky, S.A.
dc.contributor.author Khassenov, A.K.
dc.contributor.author Karabekova, D.Zh.
dc.date.accessioned 2019-03-06T11:34:36Z
dc.date.available 2019-03-06T11:34:36Z
dc.date.issued 2018-12-30
dc.identifier.citation Vibro-forecasting of fault development in hydropower units /V.V. Kukharchuk, S.Sh. Katsyv, V.F. Hraniak, V.Yu. Kucheruk, V.G. Madiarov, S.A. Bykovsky, A.K. Khassenov, D.Zh. Karabekova //Қарағанды универисетінің хабаршысы. ФИЗИКА Сериясы.=Вестник Карагандинского университета. Серия ФИЗИКА.=Bulletin of the Karaganda University. PHYSICS Series.-2018.-№4.-Р.67-76 ru_RU
dc.identifier.issn 2518-7198
dc.identifier.uri http://rep.ksu.kz:80//handle/data/4091
dc.description.abstract Proposed in the paper are the mathematical models and algorithms for vibroforecasting of fault development in hydropower units, such models and algorithms being based on the spectral analysis of vibration signals. With real-world vibroacoustic signals being of purely non stationary nature, i.e. their spectr a varying with time, the authors proposed to carry out spectral analysis using discrete wavelet transformation resulting in acquisition of three-dimensional amplitude-frequency-temporal spectrum in the form of wavelet coefficient matrix. It should be noted that, due to an exceptional complexity of the hydropower unit as a dynamic hydroelectromechanical system and practical impossibility of mathematical description of dependence between the vibroacoustic signal and all factors that cause vibration, it makes sense to treat the hydropower unit as the «black box», that is to simulate its external functioning rather than its structure. That is why, for the purposes of forecasting of fault development in hydropower units, generation of three-layer artificial neurallike network is stipulated. Such fore casting is based on analysis of trends in wavelet coefficients in each of frequency bands of vibroacoustic signal’s amplitude-frequency-temporal spectrum. Further on, stipulated is the breakdown of these trends into vibration signals’ components (background, hydrodynamic, electrodynamicetc.) that correspond to particular factors that cause vibration. Processing of these components allows determining there sulting prognostic conclusion with regard to fault development in hydropower units as avariety of values representing the probability levels of different vibration factors. Besides, the paper contains an example of such prognostic conclusion obtained on the basis of historical values of vibroacoustic signals obrained from vibration monitoring subsystem of DnestrHPP-2. ru_RU
dc.language.iso en ru_RU
dc.publisher Ye.A.Buketov Karaganda State University Publishing house ru_RU
dc.relation.ispartofseries Bulletin of the Karaganda University. PHYSICS series;№ 4(92)/2018
dc.subject vibroacoustic signal ru_RU
dc.subject discrete wavelet transformation ru_RU
dc.subject wavelet coefficients ru_RU
dc.subject artificialneurallikenetwork ru_RU
dc.subject frequency band ru_RU
dc.subject probability value ru_RU
dc.title Vibro-forecasting of fault development in hydropower units ru_RU
dc.title.alternative Гидроагрегаттарда ақаулардың дамуын дірілді-болжау ru_RU
dc.title.alternative Вибро-прогнозирование развития нарушений в гидроагрегатах ru_RU
dc.type Article ru_RU


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