POWER PLANT EQUIPMENT FAULT DIAGNOSIS SYSTEM Russian patent published in 2024 - IPC G01M15/02

Abstract RU 2815985 C1

FIELD: physics.

SUBSTANCE: invention relates to monitoring of technical condition of industrial facilities, namely, to systems for automatic control of equipment faults and can be used in maintenance of power plants. System for diagnosing faults of power plant equipment comprises an audio monitoring module consisting of at least six microphones with the possibility of receiving acoustic signals from power plant equipment; module of complex of sensors of parameters of vibration of parts of housing, temperature and pressure of working media of equipment; video monitoring module configured to process the video stream in the infrared spectrum; module for collecting and processing information, configured to use artificial neural networks; power plant control module.

EFFECT: provision of timely detection of deviations in operation of power plant equipment due to application of various control modules and processing of their data by means of artificial neural networks.

1 cl, 3 dwg

Similar patents RU2815985C1

Title	Year	Author	Number
SYSTEM AND METHOD FOR DIAGNOSTICS OF INDUSTRIAL OBJECT BASED ON ANALYSIS OF ACOUSTIC SIGNALS	2020	Lapin Dmitrii Vladimirovich Klychnikov Vladimir Vladimirovich Khubbatulin Mark Eduardovich Ulanov Kirill Andreevich	RU2749640C1
METHOD AND SYSTEM FOR PLANNING PREVENTIVE MAINTENANCE AND REPAIR OF PROCESS EQUIPMENT BASED ON ACOUSTIC DIAGNOSTICS USING NEURAL NETWORKS	2021	Vlasov Aleksandr Vladimirovich Kiselev Aleksandr Vladimirovich Mikhajlov Dmitrij Mikhajlovich	RU2764962C1
METHOD FOR ASSESSING THE TECHNICAL STATE OF A CONSUMER CONTROLLER BASED ON NEURAL NETWORK DIAGNOSIS	2019	Abramovich Boris Nikolaevich Senchilo Nikita Dmitrievich Babanova Irina Sergeevna	RU2719507C1
METHOD OF DIAGNOSTICS OF TECHNICAL CONDITION AND ELECTROMECHANICAL DEVICE REMAINING LIFETIME ESTIMATION WITH ASYNCHRONOUS MOTOR	2016	Zhukovskij Yurij Leonidovich Babanova Irina Sergeevna Korolev Nikolaj Aleksandrovich	RU2626231C1
METHOD FOR DIAGNOSING A COMPLEX OF ON-BOARD EQUIPMENT OF AIRCRAFT BASED ON UNSUPERVISED MACHINE LEARNING WITH AUTOMATIC DETERMINATION OF MODEL TRAINING PARAMETERS	2023	Bukirev Aleksandr Sergeevich	RU2818858C1
METHOD OF AUTOMATIC PID CONTROLLER TUNING FOR CONTROLLING A DIESEL ENGINE IN ELECTRIC SETS AND POWER PLANTS	2016	Khryashchev Yurij Evgenevich Epaneshnikov Dmitrij Andreevich Ovchinnikov Sergej Vladimirovich	RU2653938C2
METHOD FOR RAPID DIAGNOSIS OF METAL PROCESSING MACHINE MODULES	2018	Kudoyarov Rinat Gabdulkhakovich Idrisova Yuliya Valerevna Fetsak Sergej Igorevich Munasypov Rustem Anvarovich Masalimov Kamil Adipovich	RU2727470C2
METHOD FOR DIAGNOSING A COMPLEX OF ON-BOARD EQUIPMENT OF AIRCRAFT BASED ON MACHINE LEARNING AND A DEVICE FOR ITS IMPLEMENTATION	2023	Bukirev Aleksandr Sergeevich Savchenko Andrej Yurevich Ippolitov Sergej Viktorovich Kryachkov Vyacheslav Nikolaevich Resnyanskij Sergej Nikolaevich	RU2816667C1
METHOD FOR DIAGNOSING AIRCRAFT ON-BOARD EQUIPMENT COMPLEX BASED ON MACHINE LEARNING	2023	Bukirev Aleksandr Sergeevich Savchenko Andrej Yurevich Ippolitov Sergej Viktorovich Kryachkov Vyacheslav Nikolaevich Resnyanskij Sergej Nikolaevich	RU2809719C1
METHOD AND DEVICE OF TECHNICAL DIAGNOSTICS OF COMPLEX PROCESS EQUIPMENT ON BASIS OF NEURON NET	2013	Solomentsev Jurij Mikhajlovich Sheptunov Sergej Aleksandrovich Kabak Il'Ja Samuilovich Sukhanova Natal'Ja Vjacheslavovna	RU2563161C2

RU 2 815 985 C1

Authors

Ozernykh Igor Leonidovich

Kotov Vladimir Vladimirovich

Dates

2024-03-25—Published

2023-04-14—Filed