Search

Premium Membership ♕

Limited Time Offer: Save 15% on PRO Plan with discount code: LRN15 and study specialized LV/MV/HV technical articles and studies.

Home / Technical Articles / Maintenance Of Meduim Voltage Circuit Breakers

Maintenance Of Meduim Voltage Circuit BreakersMedium-voltage circuit breakers rated between 1 and 72 kV may be assembled into metal-enclosed switchgear line ups for indoor use, or may be individual components installed outdoors in a substation. Air-break circuit breakers replaced oil-filled units for indoor applications, but are now themselves being replaced by vacuum circuit breakers (up to about 35 kV). Medium voltage circuit breakers which operate in the range of 600 to 15,000 volts should be inspected and maintained annually or after every 2,000 operations, whichever comes first.

The above maintenance schedule is recommended by the applicable standards to achieve required performance from the breakers.

Safety Practices

Maintenance procedures include the safety practices indicated in the ROMSS (Reclamation Operation & Maintenance Safety Standards) and following points that require special attention.

  • Be sure the circuit breaker and its mechanism are disconnected from all electric power, both high voltage and control voltage, before it is inspected or repaired.
  • Exhaust the pressure from air receiver of any compressed air circuit breaker before it is inspected or re­paired.
  • After the circuit breaker has been disconnected from the electrical power, attach the grounding leads properly before touching any of the circuit breaker parts.
  • Do no lay tools down on the equipment while working on it as they may be forgotten when the equipment is placed back in service.

Maintenance Procedures For:

Medium Voltage Air Circuit Breakers

The following suggestions are for use in conjunction with manufacturer’s instruction books for the maintenance of medium voltage air circuit breakers:

  1. Clean the insulating parts including the bushings.
  2. Check the alignment and condition of movable and stationary contacts and adjust them per the manufacturer’s data.
  3. See that bolts, nuts, washers, cotter pins, and all terminal connections are in place and tight.
  4. Check arc chutes for damage and replace damaged parts.
  5. Clean and lubricate the operating mechanism and adjust it as described in the instruction book. If the operat­ing mechanism cannot be brought into specified tolerances, it will usually indicate excessive wear and the need for a complete overhaul.
  6. Check, after servicing, circuit breaker to verify that contacts move to the fully opened and fully closed positions, that there is an absence of friction or binding, and that electrical operation is functional.

Medium Voltage Oil Circuit Breakers

The following suggestions are for use in conjunction with the manufacturer’s instruction books for the maintenance of medium-voltage oil circuit breakers:

  1. Check the condition, alignment, and adjustment of the contacts.
  2. Thoroughly clean the tank and other parts which have been in con­ tact with the oil.
  3. Test the dielectric strength of the oil and filter or replace the oil if the dielectric strength is less than 22 kV. The oil should be filtered or replaced whenever a visual inspection shows an excessive amount of carbon, even if the dielectric strength is satisfactory.
  4. Check breaker and operating mechanisms for loose hardware and missing or broken cotter pins, retain­ ing rings, etc.
  5. Adjust breaker as indicated in instruction book.
  6. Clean and lubricate operating mechanism.
  7. Before replacing the tank, check to see there is no friction or binding that would hinder the breaker’s operation. Also check the electrical operation. Avoid operating the breaker any more than necessary without oil in the tank as it is designed to operate in oil and mechanical damage can result from excessive operation without it.
  8. When replacing the tank and refilling it with oil, be sure the gaskets are undamaged and all nuts and valves are tightened properly to prevent leak­ age.

Medium Voltage Vacuum Circuit Breakers

Direct inspection of the primary contacts is not possible as they are enclosed in vacuum containers. The operating mechanisms are similar to the breakers discussed earlier and may be maintained in the same manner. The following two maintenance checks are suggested for the primary contacts:

  1. Measuring the change in external shaft position after a period of use can indicate extent of contact erosion. Consult the manufacturer’s instruction book.
  2. Condition of the vacuum can be checked by a hipot test. Consult the manufacturer’s instruction book.
SOURCE: Maintenance Of Power Circuit Breakers by Hydroelectric Research And Technical Services Group

Premium Membership

Get access to premium HV/MV/LV technical articles, electrical engineering guides, research studies and much more! It helps you to shape up your technical skills in your everyday life as an electrical engineer.
More Information
author-pic

Edvard Csanyi

Electrical engineer, programmer and founder of EEP. Highly specialized for design of LV/MV switchgears and LV high power busbar trunking (<6300A) in power substations, commercial buildings and industry facilities. Professional in AutoCAD programming.

6 Comments


  1. Farady
    May 21, 2018

    Thank you! Edvard Csanyi
    I hope you can publish more articles on the circuit breaker


  2. Daniel
    Oct 23, 2011

    If maintenance is preformed on a CB, the only objective way to assure your compliance to your standards is in measuring the preformance. That is what you allready do with the hipot test you measure the preformance. It is possible to do this with the shaft movement, contact resistance, contact timings, Coil and motor currents. That way you can set out the trending over the active life of the CB and detect possible failure well in advance. A shedule of testing every 2 years seems a good average to me.
    Kind regards, Danny


  3. Daniel
    Oct 22, 2011

    Interesting post, however I’m missing the timing, both main contacts and auxiliary contacts and the current of the trip coil (closing coil and motor current when available) also the minimum operating voltage check.

    kind regards, Danny


    • Edvard
      Oct 22, 2011

      I agree with with you, checking the timings of tripping closing and opening coils could be included in testing procedures.

      But, should it be included in regular (scheduled) maintenance or just testing of CBs? What is your expirience on this?


  4. Edvard
    May 05, 2011

    Thank you John! Ther will be more techical articles related to maintaning of CBs in coming weeks!


  5. John Daviz
    May 01, 2011

    Very informative post. I need this very badly because I am doing lots of electrical jobs. I am always working particularly on different circuit breakers and your post helps me a lot.

    This is another method of maintaining our circuit breakers. A proper guidance of keeping our circuit breakers function-well always. Nice post. Hope to read more.

Leave a Reply to Daniel

Tell us what you're thinking. We care about your opinion! Please keep in mind that comments are moderated and rel="nofollow" is in use. So, please do not use a spammy keyword or a domain as your name, or it will be deleted. Let's have a professional and meaningful conversation instead. Thanks for dropping by!

eighty eight  −  seventy nine  =  

Learn How to Design Power Systems

Learn to design LV/MV/HV power systems through professional video courses. Lifetime access. Enjoy learning!

Subscribe to Weekly Newsletter

Subscribe to our Weekly Digest newsletter and receive free updates on new technical articles, video courses and guides (PDF).
EEP Academy Courses - A hand crafted cutting-edge electrical engineering knowledge