Abstract
Electromagnetic coils are a key component in a variety of systems and are widely used in many industries. Because their insulation usually fails suddenly and can have catastrophic effects, degradation monitoring of coil insulation systems plays a vital role in avoiding unexpected machine shutdown. The existing insulation degradation monitoring methods are based on assessing the change of coil high-frequency electrical parameter response, whereas the effects of the insulation failure mechanisms are not considered, which leads to inconsistency between experimental results. Therefore, this paper investigates degradation monitoring of coil insulation systems under thermal loading conditions from a creep point of view. Inter-turn insulation creep deformation is identified as a quantitative index to manifest insulation degradation changes at the micro level. A method is developed to map coil high-frequency electrical monitoring parameters to inter-turn insulation creep deformation in order to bridge the gap between the micro-level and macro-level changes during the incipient insulation degradation process. Thermally accelerated tests are performed to validate the developed method. The mapping method helps to determine the physical meaning of coil electrical monitoring parameters and presents opportunities for predictive maintenance of machines that incorporate electromagnetic coils.
Highlights
Electromagnetic coils are fundamental energy conversion and transformation components of many systems [1]
Showed that over 50% of solenoid valve failures in U.S nuclear power plants were attributed to electromagnetic coil faults
22a–c. can Theberelationship andsense aging situ, this makes sense for improving the performance of insulation degradation monitoring based on for improving the performance of insulation degradation monitoring based on coil high-frequency timecoil canhigh-frequency be obtained, as shown in
Summary
Electromagnetic coils are fundamental energy conversion and transformation components of many systems [1]. The existing inter-turn insulation degradation monitoring methods detect degradation of insulation used in low-voltage coils by assessing the change of high-frequency electrical parameters (e.g., impedance, resonant frequency, and capacitance) response, whereas the effects of insulation failure mechanism on these electrical parameters were not considered. This brings inconsistency between the experimental results of existing studies. A mapping method from coil high-frequency electrical parameters to inter-turn insulation creep deformation is developed, which associates changes at the micro level and macro level during insulation degradation.
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