Stator Winding Internal Thermal Monitoring and Analysis Using <i>In Situ</i> FBG Sensing Technology

Mohammed, Anees; Djurović, Siniša

doi:10.1109/tec.2018.2826229

Cited by 40 publications

(23 citation statements)

References 46 publications

(54 reference statements)

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“…O estresse térmico que ocorre durante um sobreaquecimento ao qual o motor está sujeito provoca uma rápida deterioração do sistema de isolação que, eventualmente, pode ocasionar a falha da máquina (Mohammed and Djurovic, 2018). Nesta conjuntura, o monitoramento térmico configura um mecanismo eficaz para realizar a proteção do equipamento, uma vez que permite verificar se a temperatura dos pontos mais quentes da máquina está em consonância com os valores estabelecidos para a classe de isolação térmica do motor em questão, conforme ilustrado pela Fig.…”

Section: C) Monitoramento Térmicounclassified

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Teste para Prognósticos de Falhas em Motores de Indução: Discussão Teórica e Estudo de Caso

Barbosa

Paula

Zaparoli

et al. 2020

Anais Do Congresso Brasileiro De Automática 2020

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Este trabalho apresenta uma ampla discussão sobre os testes mais relevantes, on-line e off-line, empregados em âmbito industrial para o desenvolvimento da manutenção preditiva de motores de indução trifásicos (MITs). A definição de procedimentos apropriados, focados em prognóstico de falhas, é de vital importância para o programa de manutenção da empresa, pois possibilita identificar, antecipadamente, possíveis falhas nas máquinas que poderiam acarretar a parada dos processos e, consequentemente, substanciais prejuízos financeiros. Com o intuito de aplicar os conceitos avaliados em um caso prático, foram obtidos relatórios dos testes empregados no programa de manutenção de uma grande companhia multinacional do ramo de produção alimentícia, que foram avaliados criticamente pelos autores e então identificadas falhas de procedimentos, assim como propostas novas rotinas de ensaios para se ampliar as possibilidades de prognóstico dos problemas que acometem os motores de sua linha de produção.

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Section: C) Monitoramento Térmicounclassified

“…Fig. 3 Limites térmicos para motores Classes A, B, F e H (adaptado de (Mohammed and Djurovic, 2018)).…”

Section: C) Monitoramento Térmicounclassified

Teste para Prognósticos de Falhas em Motores de Indução: Discussão Teórica e Estudo de Caso

Barbosa

Paula

Zaparoli

et al. 2020

Anais Do Congresso Brasileiro De Automática 2020

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“…In addition to the burning out of the windings, an increase in temperature could result in increased power consumption and decreased speed and efficiency. ermal stress resulting from excessive temperature greatly contributes to the reduction of the performance and lifetime of induction motors [8]. us, there is a need to protect the motor against excessive temperatures.…”

Section: Introductionmentioning

confidence: 99%

Development of a Starter with Protective Systems for a Three-Phase Induction Motor

Orovwode

Matthew

Agbetuyi

et al. 2021

Journal of Engineering

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Frequent burning of three-phase induction motors windings has been reported. The initial symptoms observed before the burning of the windings were an increase in operating current and a temperature rise. The induction motor protection and control system was designed, developed, and constructed to reduce the problem of burnt winding by early detection and disconnection of supply if the problem persists. It was found to be efficient, reliable, durable, and rugged. The system is a boost to Nigerian industrialists as it will reduce cases of burning of induction motors and the consequent downtime and cost. The system is cheap and easy to repair and maintain because the parts and components used in the design are available locally.

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“…Thermal overloads are particularly pertinent in this regard as these can cause insulation coil insulation system breakdown and ultimately its total failure 1 ; this can arise due to excessive coil current levels, or other causes such as a coil electrical fault or a cooling system malfunction, where localized hot spots are induced in the coil structure leading to insulation breakdown. Enabling operative in situ distributed thermal monitoring of an in-service coil's internal structure allows for development of improved utilization and condition based maintenance routines; it would allow for advanced understanding and identification of the coils' operating status and any degradation process, and thus condition based corrective action to maintain the operating status and prevent or slow down further damage 2,3 .…”

Section: Introductionmentioning

confidence: 99%

Design, Instrumentation and Usage Protocols for Distributed In Situ Thermal Hot Spots Monitoring in Electric Coils using FBG Sensor Multiplexing

Mohammed

Durovic

2020

JoVE

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Random wound coils are a key operational element of most electric apparatus in modern industrial systems, including low voltage electric machines. One of the major current bottlenecks in improved exploitation of electrical devices is the high sensitivity of their wound components to in-service thermal stress. The application of conventional thermal sensing methods (e.g., thermocouples, resistance temperature detectors) for thermal condition monitoring of current carrying random wound coils can impose considerable operational limitations due to sensor size, EMI sensitivity and the existence of electrically conductive material in their construction. Another substantial limitation exists in distributed sensing applications and is caused by what is often a considerable length and volume of conventional sensor wiring leads. This paper reports the design of a fiber optic FBG sensing system intended for enabling real-time distributed internal thermal condition monitoring within random wound coils. The procedure of random wound coil instrumentation with the FBG sensing system is reported in a case study on an IEEE standard wound coil representative of those utilized in electrical machines. The reported work also presents and discusses important practical and technical aspects of FBG sensing system implementation and application, including the FBG array geometry design, sensing head and fiber packaging, the sensor array installation and calibration procedure and the use of a commercial interrogation system for obtaining thermal measurements. Finally, the in situ multiplexed FBG sensing system thermal monitoring performance is demonstrated in representative static and dynamic thermal conditions.

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Stator Winding Internal Thermal Monitoring and Analysis Using In Situ FBG Sensing Technology

Cited by 40 publications

References 46 publications

Teste para Prognósticos de Falhas em Motores de Indução: Discussão Teórica e Estudo de Caso

Teste para Prognósticos de Falhas em Motores de Indução: Discussão Teórica e Estudo de Caso

Development of a Starter with Protective Systems for a Three-Phase Induction Motor

Design, Instrumentation and Usage Protocols for Distributed In Situ Thermal Hot Spots Monitoring in Electric Coils using FBG Sensor Multiplexing

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