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Choosing the right surge arrester and protective circuit breakers involves a considering a wide range of parameters related to types of surge protection devices, circuit breaker arrangements and risk assessment.

Three rules of thumb for choosing surge arresters

Now that we’ve established that surge arresters should be at the heart of a lightning protection system, it’s time to think about how to choose the right surge arrester. Easier said than done. Here are some rules of thumb for installing a surge protection device (SPD):

1-Familiarise yourself with types, or category, of SPDs.

2-Assess the risk of lightning strikes and discharge capacities.

3-Use devices to protect the surge arrester itself.

To protect a distribution switchboard, you need only install a Type 2 arrester with discharge capacity In>5kA.(8/20).

Risk assessment

Assessing risk is generally a complex, painstaking process. A good starting point is to think about what kinds of areas are most and least at risk. You can then consider the type of SPD best suited to the kind of building you’re planning to protect – if it has a single service entry switchboard.

Lightning strikes 90% of the earth. Some parts are highly prone to lightning strikes. Some hardly at all. For example, lightning density (number of strikes per kilometer per year) in Belgium is 1ng, while in South Africa it is 150ng.

However, lightning density is not per se a risk. France, for example, includes Ng it in its national standard NF C 15-100. Spain does not.

One or two tips for risk assessment

Use European to risk assessment standard EN 62305-2. Some countries make it compulsory to use the standard when considering surge protection for big and or highly sensitive buildings like industrial facilities, hospitals, and data centres.

Otherwise, bear this rule of thumb in mind: always install a Type 2 surge arrestor. If the distance between the surge arrestor and the equipment to be protected is greater than 10 metres, then add a Type 2 or Type 3 arrester.

Protect your surge protection devices

Although surge arresters don’t trip, the following end-of-life scenarios are possible:

a) Thermal runaway caused by the constant excessive constraints of an SPD not exceeding its lightning attributes could lead to the slow destruction of internal components.

The disconnection of the SPD is provided by a thermal fuse associated with the electronic components (MOVs) inside the SPD.

b) A short-circuit due to exceeding the maximum flow capacity or due to a fault under 50hz from the electrical distribution network (e.g. neutral rupture, phase-neutral inversion). The disconnection of the SPD is provided by an external or integrated short circuit protection device  like fuse or circuit breaker.

Although you may have to choose an external circuit breaker, more and more manufacturers incorporate them in the same enclosure.

You choose a circuit breaker according to the short circuit current in the building where the surge arrester is installed. So, for example, a disconnection circuit breaker with a short-circuit breaking current of <6kA is suitable for a residential building. For an office, it is usually 15kA or 20kA.

Article from:

http://blog.schneider-electric.com/