In the context of electrical engineering, switchgear refers to the combination of electrical disconnect switches, fuses or circuit breakers used to control, protect, and isolate electrical equipment. Protection, on the other hand, involves measures taken to prevent electrical faults and ensure the safety of equipment and personnel. Recovery voltage is a term related to the interruption of fault currents in switchgear, particularly in high-voltage systems.
When a fault occurs in an electrical system, such as a short circuit or an overload, a high fault current flows through the circuit. In order to protect the system and its components, a circuit breaker or a similar device is used to interrupt the fault current. When the circuit breaker opens (i.e., interrupts the current), an arc is generated between the contacts due to the ionization of the air. This arc allows the current to continue flowing even after the contacts are physically separated.
After the arc is generated and the fault current is interrupted, the voltage across the open contacts of the circuit breaker rises rapidly. This voltage is referred to as recovery voltage. The recovery voltage can reach levels much higher than the system's normal operating voltage, and it's important to consider this voltage during the design and selection of switchgear and protective devices.
The presence of recovery voltage is significant because it can pose challenges to the safe and reliable operation of switchgear and protection systems. It can lead to issues such as re-ignition of the arc, which could potentially re-establish the fault current. Therefore, switchgear and protective devices must be designed to handle recovery voltage and prevent re-ignition of the arc. Special attention is given to factors like contact materials, arc extinguishing mechanisms, and the insulation strength of the system.
Proper coordination and design of protection schemes and switchgear are essential to ensure that recovery voltage and other related phenomena are effectively managed, faults are cleared, and the overall electrical system operates safely and reliably.