More efficient monitoring of wind turbines and electric vehicles

Electrical machines—such as motors or generators—play a key role in electric vehicles, wind turbines and many other products. Credit: Pexels.com

Researcher Sveinung Attestog shows in a new study how we can more quickly detect faults in machines that are widely used in wind turbines and electric cars. This is something that could pay off for electricity customers and car owners.

“Effective monitoring and fault diagnosis of the electrical machines in wind turbines and electric vehicles could make their operation more affordable, and contribute to making operation and maintenance safer,” says Attestog.

He works as a trainee at Agder Energi. He recently obtained his doctorate from the University of Agder (UiA). His thesis is about troubleshooting electric motors at varying speeds and loads.

Modeling and fault diagnosis using artificial intelligence are keywords in his thesis. But the research is also practically grounded. The mathematical models were tested in the lab at the University of Agder.

Electrical machines—such as motors or generators—play a key role in electric vehicles, wind turbines and many other products.

“I have looked at how to efficiently troubleshoot electric motors and generators that convert between mechanical and electrical energy, such as electric vehicles and wind turbines,” Attestog says.

The motor he studied is popular because it takes up relatively little space, but still has high efficiency and high torque. In technical terms, it is called permanent magnet synchronous motor (PMSM).

More effective monitoring

Today, monitoring and inspections are largely scheduled according to the calendar. Equipment is checked when it is assumed that it needs maintenance or replacement. Car are checked every two years, for example, and wind turbines every year.

But now, researchers such as Attestog are pushing to find solutions that are independent of the calendar, that can quickly detect wear and tear and remediate problems to avoid accidents.

“The sooner we detect errors, the easier they are to deal with. It is important for both drivers and electricity consumers that the engine of an electric car and the generator of a wind turbine perform optimally,” Attestog says.

It is also in the interest of car dealers and electricity companies that the machinery in cars and wind turbines works at its best.

Short circuits, wear and tear

Faults in the motor are usually caused by incorrect use or wear and tear. Short circuits are frequent faults.

“Monitoring and effective fault diagnosis schemes are necessary for detecting faults early. That will ensure safe operations, speed up the maintenance of the equipment and reduce downtime and cost,” Attestog says.

Maintenance

All machines must be serviced at regular intervals, especially equipment that is in regular use and equipment that is constantly exposed to harsh weather conditions.

Offshore wind turbines, for example, are exposed to harsh weather and salt water. Electric cars drive on salted winter roads which cause corrosion to the vehicles.

A motor is also subject to stress and wear depending on the speed and power it operates at.

Faster solutions

These are among the most important contributions from Attestog’s thesis:

  • Developed and tested two solutions that find motor faults faster than before
  • Developed and tested a new artificial intelligence method to search for faults regardless of speed and stress on the motor
  • Simplified motor monitoring by using less equipment, reducing the number of sensors from 12 to 2

“The advantage of artificial intelligence is that we can detect faults without having to know the details of motor power and performance,” the researcher says.

Artificial intelligence solves problems

Synonyms for artificial intelligence in this context are machine learning and reinforcement learning.

When calculating how a motor should work, the researcher starts with more data of the motor operating without faults than with faults. But artificial intelligence solves this problem, which researchers call imbalanced datasets.

“To put it simply, I coded it so that artificial intelligence is rewarded for detecting faults. This is why artificial intelligence places emphasis on faults, and learns to detect them,” Attestog says.

More information:
Modelling and Detecting Faults of Permanent Magnet Synchronous Motors in Dynamic Operations. uia.brage.unit.no/uia-xmlui/handle/11250/3025635

Provided by
University of Agder

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More efficient monitoring of wind turbines and electric vehicles (2022, December 20)
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