Medium Voltage Switchgear

Encyclopedia
09/09/2024

Medium Voltage Switchgear Definition

Medium voltage switchgear ranges from 3 KV to 36 KV and is used to manage and protect electrical systems.

Types of MV Switchgear

Includes metal enclosed indoor and outdoor switchgear, and outdoor switchgear without metal enclosures.

Short Circuit Current Interruption

The main focus of circuit breaker design is to that all circuit breakers should be capable of interrupting short circuit current with a high degree of reliability and safety. The number of faulty tripping occurred during the total lifespan of a circuit breaker mainly depends upon the location of the system, the quality of the system and environment conditions.

If the number of tripping is much high, the best choice is vacuum circuit breaker as it may not require any maintenance up to 100 faulty tripping with short circuit current up to 25 KA. Whereas, other circuit breakers require maintenance after 15 to 20 faulty tripping with same short circuit current of CB.

The substations reunited in rural areas are generally of an outdoor type, and most of them are the unattended type. Hence for this type of applications maintenance free outdoor type, medium voltage switchgear is most suitable. Porcelain clad vacuum circuit breaker meets this demand against the conventional indoor kiosks.

Capacitive and Inductive Switching

The capacitor bank is used in medium voltage power system to improve power factor of the system. Unloaded cable and unloaded overhead lines has also capacitive charging current. The capacitor bank and unloaded power lines should be disconnected from the system safely without re-ionization. Re-ionization in the contact gap causes over voltage in the system. Vacuum circuit breaker meets the requirement.

When switching on a capacitor bank, a high current flows through the circuit breaker contacts. Circuit breaker with liquid quenching mediums and tulip contacts may experience contact pin issues. Vacuum circuit breaker medium voltage switchgear is ideal because it has low electric arcing during the short pre-arcing time.

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Switching of Inductive Current

Older vacuum circuit breakers (VCB) had a current chopping level of 20 A, needing special surge protection device when switching transformers. Modern VCBs have a much lower chopping current of about 2-4 A, making them suitable for switching unloaded transformers without additional surge protection. VCBs are ideal for very low inductive load switching.

Special Application of Medium Voltage Switchgear

Arc Furnace

An electric arc furnace is required to be switched OFF and ON frequently. The current to be switched may be from 0 to 8 times of the rated current of the furnace. An electric arc furnace is to be switched ON and OFF at its normal rated current up to 2000A, around 100 times per day. A normal, SF6 circuit breaker, air circuit breaker and oil circuit breaker is not at all economical for this frequent operation. Standard vacuum circuit breaker is most suitable alternative for this frequent high current circuit breaker operation.

Railway Traction

Another application of medium voltage switchgear is single phase railway track system. The main function of the circuit breaker associated with railway traction system is to interrupt short circuit, on the overhead catenary system which occurs frequently and it is transient.

Hence, a circuit breaker used for this purpose should have, short breaking time for small contact gap, short arcing time, quick breaking, and VCB is the best possible solution. Arcing energy is much higher in the single-phase CB than 3 phase CB.

It is still much lower in a vacuum circuit breaker than that in a conventional circuit breaker. The number of short circuits occurs in the overhead catenary system is much higher than those occurring on electrical transmission system. Medium voltage switchgear with vacuum circuit breaker is most suitable for traction application.

We can conclude that, in the medium voltage system where the tripping rate is very high, MV Vacuum Switchgear is the most suitable solution.

 

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