Zaitsev I. The development of theory and practical implementation of optoelectronic systems for diagnosing the mechanical parameters of powerful turbo- and hydro-generators.

Українська версія

Thesis for the degree of Doctor of Science (DSc)

State registration number

0520U100113

Applicant for

Specialization

  • 05.13.05 - Комп'ютерні системи та компоненти

25-02-2020

Specialized Academic Board

Д 26.187.02

Institute of Electrodynemics, NAS of Ukraine

Essay

The object of research is the process of determining control and diagnostic parameters in a powerful electric power equipment. The dissertation purpose is development of the theoretical principles of construction, the practical implementation of research and optoelectronic systems diagnosing mechanical parameters of the basic units of power generators, which include computerized information and measurement channels for secure and reliable determination of the technical state of the object diagnosing. The Methods of research are methods of theory of information-measuring channels, theory of diagnostics of objects and systems, probability theory, methods of statistical processing of diagnostic signals, theoretical and experimental methods in the field of capacitive and optical meters of physical quantities. Theoretical and practical results and innovation are as follows developed and practical implementation of optoelectronic systems for diagnosing mechanical parameters of powerful turbo- and hydropower generators, which include computerized CPIs, has been performed. For the first time, an important scientific and technical problem of creating theoretical foundations for the construction and implementation of optoelectronic systems for diagnosing mechanical parameters of GHG and components of their CPI was raised and solved, which allowed to increase the accuracy and reliability of diagnostics. The subject and the degree of implementation: the results of the work are implemented at SE "Electrotyazhmash Plant", LLC NPP "Techprylad" and LLC "Almagroup". The implementation of the results allowed to solve an important scientific and applied problem - improving the quality of diagnosis of powerful generators.. The effectiveness of the implementation: significant technical and economic effect is obtained, which is to increase the efficiency of GHG diagnosis systems (increase of reliability of information received, which allows to increase the accuracy of diagnosing the type of defect, its location and prognosis of development).The sphere of usage: systems for diagnosing powerful generators of thermal power plants, thermal power plants, hydroelectric power plants, hydroelectric power plants and nuclear power plants.

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