What Is the Difference Between SF6 And VCB?

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A circuit breaker is one of the crucial and common products used in the electrical field. When there is a fault in the electrical supply, a circuit breaker is trusted to provide protection against mishaps like short-circuit or overload. There are a variety of circuit breakers like oil circuit breakers, air circuit breakers, SF6 circuit breakers, vacuum circuit breakers, and many more. But today, mainly SF6 and vacuum circuit breakers are widely used and produced by circuit breaker suppliers, minimizing the use of other types of circuit breakers.

SF6 and vacuum circuit breakers can be called the future of circuit breakers since both of them support both medium and high voltages of power and are available in a wide range. In this blog, we will discuss the SF6 and vacuum circuit breakers in detail along with their functioning, before comparing them on the basis of several parameters.

Vacuum Circuit Breaker

A vacuum circuit breaker (or a vacuum circuit interrupter) is a kind of circuit breaker where the arc extinction takes place in a vacuum medium. In other words, the quenching of an arc happens inside a vacuum chamber in the breaker.

A vacuum has the highest insulating strength than any other medium which makes it more popular and accounts for its wide usage. This kind of circuit breaker is best used as a medium voltage vacuum circuit breaker for power distribution systems and switchgear. The HV circuit breaker technology in vacuum medium has been created and commonly used.

The material and the form of contacts used in a vacuum circuit breaker determine its properties. Today, oxygen-free copper chromium alloy is said to be the best material for high voltage circuit breakers because of its excellent arc extinguishing properties and it also has a low tendency of contact welding or chopping current while switching of inductive current.

Most of the medium voltage applications use radial magnetic field electrodes as contacts.

Nowadays, a new technological advancement in vacuum circuit breakers is the usage of axial magnetic field electrodes as contacts. These are advantageous in times when the short circuit current surpasses 31.5 KA.

Functioning

A vacuum circuit breaker comprises three main parts, of which two are contacts and one is an arc shield. In the two contacts present, one is the fixed contact whereas the other one is the moving contact and the arc shield is mounted inside of the vacuum interrupter.

The entire process of separating contacts, generation of arc, and its extinguishing, takes place inside a vacuum chamber. When the circuit breaks or the two contacts separate from each other, the ionization of the metallic vapors from the two contacts generates an arc in between these contacts. These metallic vapors along with ions and electrons get condensed on the two contacts of the circuit breaker which results in the quick recovery of the dielectric strength. The vacuum passes through the arc and thus, arc extinction takes place.

The fast recovery of the dielectric strength in the vacuum leads to the quenching of the arc in the vacuum chamber.

SF6 Circuit Breaker

As indicated by the name itself, an SF6 or sulfur hexafluoride circuit breaker uses the SF6 gas for the quenching of the arc. This SF6 gas has a high dielectric strength (about 3 times that of air) and excellent arc quenching properties which makes it a better option than air or oil circuit breakers. The other qualities of SF6 gas are that it is non-toxic and inflammable too.

The SF6 circuit breakers are most effectively used as a hv circuit breaker or for high voltage applications. They are also suited for medium voltages. SF6 circuit breakers have a voltage range from 33KV to 800 kV and even more.

SF6 circuit breakers have three main types. These are:

1. Non-Puffer Piston Circuit Breaker
2. Single-Puffer Piston Circuit Breaker
3. Double-Puffer Piston Circuit Breaker

In an SF6 circuit breaker, the efficiency of the arc interruption process depends on the gas flow’s direction. An axial flow of gas is considered to be more efficient than a cross gas flow of gas but for an axial flow of gas, the creation of a pressure differentiation was important along the arc. For this, a puffer system was used for SF6 circuit breakers but it required a powerful operating mechanism which was an additional cost. Thus, the use of SF6 circuit breaker service was still limited.

Subsequent research and development led to the formation of a self-pressuring circuit breaker which made the SF6 circuit breakers economical and efficient while using the powerful operating mechanism to move the contacts only. Further, a rotating arc SF6 circuit breaker was also created which uses a radial flow of gas rather than the axial flow. This also uses minimal operating energy, making it efficient.

Functioning

The construction of an SF6 circuit breaker mainly comprises two principal units which are known as the interrupter unit and the gas unit. All three types of SF6 circuit breakers have a slight difference in the breaker design and hence, they all function a bit differently.

In normal conditions, the breaker remains closed and the contacts are surrounded by sulfur hexafluoride gas. When a fault is detected by an SF6 circuit breaker, the moving contact starts pulling apart which creates an arc between the two contacts. This arc gets struck between the two contacts. With the moving arc, the valve which is attached to the interruption chamber opens and releases SF6 gas with high pressure.

This high-pressure SF6 gas causes the extinction of the arc by building up high dielectric strength. Once the arc is quenched, the gas gets restored to the high-pressure reservoir for re-use. Today, a piston is also attached to the moving contact which generates the pressure for arc extinction. This is known as puffer piston pressure.

Comparison Between SF6 And Vacuum Circuit Breaker

SF6 circuit breakers are older than vacuum circuit breakers but today, vacuum circuit breakers of different types such as indoor vacuum circuit breaker are more frequently used than the SF6 circuit breakers. Having said that, this does not make one type superior over the other. Other factors need to be considered for an in-depth study of a particular type of circuit breaker before arriving at any conclusion.

Hence, we have compared the SF6 circuit breakers with the vacuum circuit breakers on the basis of three main parameters:

1. Current interrupting technologies
2. Operational aspects
3. Switching applications

1. On the basis of current interrupting technologies

Operating energy requirements
In the case of the SF6 circuit breakers, there are both high and low operating energy requirements depending on the type of the circuit breaker. A puffer circuit breaker requires high energy from the operating mechanism so that it can compress the gas whereas a self-pressuring circuit breaker requires lower levels of energy to move small masses over short distances.

Vacuum circuit breakers require low levels of operating energy because they also have to move smaller parts at a moderate speed and that too, over short distances.

Arc energy
In SF6 circuit breakers, the arc energy is low as, in SF6 gas, the conductivity of the arc is high. The vacuum circuit breakers also have low arc energy, typically between 50V and 100V.

Arc extinguishing media
SF6 circuit breakers use SF6 gas which has high dielectric strength and arc quenching properties. Once the arc extinction takes place, the gas molecules recombine forming SF6 gas again which gets restored. Thus, no gas is lost during the process. SF6 circuit breakers can be supervised simply but this function becomes useless in the case of permanently sealed breakers.

In the case of a vacuum circuit breaker, there is no external medium required for the extinction of arc. The vacuum itself is a powerful extinguishing medium. The supervision of vacuum is not required and hence, the breakers could be sealed permanently.

Contact erosion
In the case of SF6 gas circuit breakers as well as vacuum circuit breakers, the contact erosion is extremely low.

Switching behavior
The switching behavior in relation to the current chopping varies for puffer type and self-pressuring type of SF6 circuit breakers. In the puffer circuit breaker, the pressure build-up and the flow of gas are not influenced by the current value whereas, in the case of a self-pressuring circuit breaker, the pressure build-up and the flow of gas are determined by the value of the interrupting current. In the former, the cooling intensity for large and small currents is the same while it differs for the large and small currents in the latter.

In a self-pressuring circuit breaker, small currents are gently cooled whereas large currents are intensely cooled.

In a vacuum circuit breaker, the extinguishing medium is vacuum thus, there is no flow of any medium. The deionization of the contact interrupts both large and small currents. The type of contact material influences the chopped current’s value.

Total number of full load operations An SF6 circuit breaker can have 5,000-10,000 full load operations whereas a vacuum circuit breaker can support 10,000-12,000 full load operations.

Total number of mechanical load operations
SF6 circuit breakers allow 5,000-20,000 mechanical operations whereas vacuum circuit breakers have 10,000-30,000 mechanical operations possible.

Total number of short-circuit operations
SF6 circuit breakers support 10-50 short-circuit operations. This number is higher in the case of vacuum circuit breakers which can allow 30-100 short-circuit operations.

2. On the basis of operational aspects

Summated current cumulative
For SF6 circuit breakers, it is 10-50 times rated whereas for vacuum circuit breakers, it is 30-100 times rated short circuit current.

Mechanical operating life
On average, both puffer and self-pressuring SF6 circuit breakers have 5000-20000 complete operations. However, for a vacuum circuit breaker, it is 10000-30000 complete operation, which is higher.

Breaking current capacity of interrupter
An SF6 circuit breaker carries 5000-10000 times breaking current capacity whereas a vacuum circuit breaker has 10000-20000 times capacity.

Dielectric withstand the strength of the contact gap
This strength capacity of the contact gap is very high for a vacuum circuit breaker. Similarly, it is higher for SF6 circuit breakers too.

Reliability
SF6 circuit breakers, as well as vacuum circuit breakers, are equally high in reliability.

Number of complete operations before maintenance
This ranges between 5000-20000 for both types of SF6 circuit breakers. The vacuum circuit breaker has a higher number of operations before maintenance which is 10000-3000 C-O operations.

The time interval between servicing mechanism
This is the same for both SF6 circuit breakers as well as vacuum circuit breakers. It is 5-10 years.

Outlay for maintenance
In this, both the circuit breakers are opposite of each other. The SF6 circuit breakers have a high labor cost and low material cost for maintenance whereas for the vacuum circuit breakers, the labor cost is low and the material cost is relatively low.

3. On the basis of switching applications

Switching of short-circuit current with high DC component
The SF6 circuit breaker and the vacuum circuit breaker, both are well-suited in this aspect.

Switching of short-circuit current with high RRRV
In terms of this criteria, the vacuum circuit breakers perform better. They are very well-suited to the switching of short-circuit current with high RRV (Rate of Rise of Recovery Voltage). The SF6 circuit breaker is well-suited but only under certain conditions.

Switching of reactors
SF6 circuit breakers, as well as vacuum circuit breakers, are well suited to the switching of reactors.

Switching of transformers
Both the circuit breakers, be it vacuum or SF6 circuit breaker, are well-suited.\ to the switching of transformers too.

Switching of arc furnace
The SF6 circuit breaker is suited to the switching of arc furnaces but only for limited operation. The vacuum circuit breaker is well-suited to this condition.

Switching of capacitors
Both the circuit breakers, SF6 and vacuum circuit breakers, are well-suited to the switching of capacitors.

Switching of capacitors back-to-back
The SF6 and vacuum circuit breakers are suited to switching capacitors over and again but sometimes, in order to limit the inrush current, current limiting reactors are needed.

If there is a comparison to be made between SF6 circuit breakers and vacuum circuit breakers, vacuum circuit breakers are more suited for medium voltage whereas for high voltage SF6 gas circuit breakers work fine. However, it cannot be ignored that vacuum circuit breakers have certain advantages over SF6 gas circuit breakers.

Vacuum circuit breaker uses vacuum which has higher dielectric strength than sulfur hexafluoride gas. Vacuum circuit breakers have a higher RRRV (Rate of Rise of Recovery Voltage) which increases their electrical endurance too. These breakers are much better in terms of contact resistance than the SF6 circuit breakers.

The vacuum circuit breakers also have a higher capacity for the breaking of short circuits because they can switch 100 times at a full short circuit. This capacity is very low in SF6 circuit breakers. It is only 20-30 times. Vacuum circuit breakers are typically low in maintenance. Once installed, they rarely require periodic maintenance but in the case of SF6 circuit breakers, periodic maintenance is important for smooth functioning.

Vacuum circuit breakers are also cheaper at installation prices, repair, replacement, and maintenance costs than the SF6 circuit breakers. This makes them widely popular too. The SF6 gas comes with several responsibilities. The gas needs refilling and it also deteriorates with time.

The next most important factor associated with the usage of SF4 gas circuit breakers and vacuum circuit breakers is the environmental aspect and safety issue. If we look at the properties of a sulfur hexafluoride (SF6) gas, then although the gas is colorless, odorless, and non-toxic, it still leads to the greenhouse effect and is not environmentally friendly. In addition, the SF6 gas which is used for arc quenching every time is even dangerous for human health. The decomposition of SF6 gas produces toxic byproducts which is a health threat for everyone working in the same exposed environment.

SF6 gas circuit breakers have high-pressure gas inside of them which can cause heat bursts if there is a failure during the short circuit switching. This is a threat to both life and property.
In a nutshell, SF6 circuit breakers have their advantages but they are best suited to voltages above 52 kV. One can straight-up go to a vcb manufacturer for getting a vacuum circuit breaker with a voltage below 52 kV since they are suited well to these voltages.

Conclusion

The SF6 circuit breaker and the vacuum circuit breaker have their pros and cons which are discussed in this blog. A comparison between the two types of circuit conductors has been made taking into account various diverse aspects so that a deep understanding of the circuit breaker can be done. Despite all the cons of SF6 circuit breakers, they are still advantageous for high and extra-high voltage uses which we should not forget. SF6 circuit breakers are also non-flammable and hence, they have an edge over oil circuit breakers as well as air circuit breakers.

Before deciding between vacuum circuit breakers and SF6 circuit breakers, a thorough knowledge of both the breakers is important, and considering all the points mentioned above will definitely lead to better choices.

What Is the Difference Between SF6 And VCB?

Vacuum Circuit Breaker

SF6 Circuit Breaker

Comparison Between SF6 And Vacuum Circuit Breaker

1. On the basis of current interrupting technologies

2. On the basis of operational aspects

3. On the basis of switching applications

Table of Contents

Conclusion

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