Specifications or Rating of Power Capacitor Bank

A capacitor bank has to go through different abnormal system conditions, during its life span. To with stand these abnormalities at optimum manufacturing cost, the capacitor banks are rated with following allowable parameters. A capacitor bank should continue its service with in the following limits.

• 110 % of normal system peak voltage.

• 120 % of normal system rms voltage.

• 135 % of rated KVAR.

• 180 % of normal rated rms current.

Voltage Rating of Capacitor Bank

A capacitor unit is normally designed for single phase. The capacitor should be capable of smooth operation upto 110% of rated peak phase voltage of the system and also it should be capable of operation 120% of rated rms phase voltage that means, 120% oftimes of peak phase voltage.

KVAR Rating of Capacitor Unit

Capacitor unit are normally rated with its KVAR ratings. Standard capacitor unit available at market, are typically rated with either of following KVAR rating.
50 KVAR, 100 KVAR, 150 KVAR, 200 KVAR, 300 KVAR and 400 KVAR.
The KVAR delivered to the power system depends upon the system voltage by the following formula.

Temperature Rating of a Capacitor Bank

These are mainly two cause of farming heat on a capacitor bank.

• Outdoor type capacitor bank are generally installed at open space where sunlight strikes on the capacitor unit directly. Capacitor can also absorb heat from the nearly furnace for which it is installed.

• Production of heat in the capacitor unit is also initiated from the VAR delivering by the unit.

Hence, for radiation of these heats, there should be sufficient arrangement. The maximum allowable ambient temperatures in which a capacitor bank should be operated are given below in tabular form,

Maximum Ambient Temperature

For better ventilation, there should be enough spacing between capacitor units. Sometime forced air flow can be used to accelerated heat radiation from the bank.

Capacitor Bank Unit or Capacitor Unit

Capacitor bank units or simply called capacitor units are manufactured in either single phase or three phase configuration.

Single Phase Capacitor Unit

Single phase capacitor units are designed either double bushing or single bushing.

Double Bushing Capacitor Unit

Here, the terminal of the both ends of capacitor assembly are come out from the metallic casing of the unit through two bushing. The entire capacitor assembly, this is series parallel combination of required number of capacitive elements is immersed in insulating fluid casing. Hence, there will be an insulated separation between conducting part of the capacitor element assembly go through bushing, there will be no connection between conductor and casing. That is why double bushing capacitor unit is known as dead tank capacitor unit.

Single Bushing Capacitor Unit

In this case casing of the unit is used as second terminal of assembly of capacitor element. Here single bushing is used to terminal one end of the assembly and its other terminal is internally connected to the metallic casing. This is possible because except terminal, all other conducting portion of the capacitor assembly is insulated from the casing.

Three Bushing Capacitor Unit

A three phase capacitor unit has three bushings to terminate 3 phase respectively. There is no neutral terminal in 3 phase capacitor unit.

BIL or Basic Insulation Level of Capacitor Unit

Like other electrical equipments a capacitor bank has also to with stand different voltage conditions, like power frequency over voltages and lightening and switching over voltages.
So Basic Insulation Level must be specified on every capacitor unit rating plate.

Internal Discharge Device

Capacitor units are normally provided with internal discharge device which ensures the quick discharge of residual voltage to its safe level i.e. 50 V or less, with in the specific time period a capacitor unit is also rated with its discharge period.

Transient Over Current Rating

Power capacitor may undergo over current situating during switching operation. So the capacitor unit must be rated for allowable short circuit current for specified time period.
So, a capacitor unit should be rated with all the above mentioned parameters.
The example of rating of a typical capacitor unit is given below-
So a power capacitor unit can be rated as follows,

• Nominal system voltage in KV.

• System power frequency in Hz.

• Temperature class with allowable maximum and minimum temperature in oC.

• Rated voltage per unit in KV.

• Rated output in KVAR.

• Rated capacitance in µF.

• Rated current in Amp.

• Rated insulation level (Nominal voltage/Impulse voltage).

• Discharge time/voltage in second/voltage.

• Fusing arrangement either internally fused or externally fused or fuseless.

• Number of bushing, double/single/triple bushing.

• Number of phase. Single phase or three phase.

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