Definition: The corona effect refers to the phenomenon where the surrounding air around a conductor ionizes, resulting in a luminous glow accompanied by a hissing noise.
Air serves as a dielectric medium between transmission lines. In other words, it acts as an insulator between current - carrying conductors. When the voltage induced between conductors is of an alternating nature, a charging current flows between the conductors. This charging current increases the voltage of the transmission line.
The electric field intensity also increases due to the charging current. When the electric field intensity is less than 30 kV, the current induced between the conductors can be neglected. However, if the voltage rises beyond 30 kV, the air between the conductors becomes charged and begins to conduct. Sparking occurs between the conductors until the insulation properties of the conductors completely break down.

Contents
Corona effect
Corona Formation
Factors affecting corona
Disadvantages of corona discharge
Minimizing corona
Important points
Corona Formation
Air is not a perfect insulator. Even under normal conditions, it contains numerous free electrons and ions. When an electric field is established between conductors, these ions and free electrons experience a force. As a result, they are accelerated and move in opposite directions.
During their motion, charged particles collide with each other and with slow - moving uncharged molecules. Consequently, the number of charged particles increases rapidly, enhancing the conductivity of the air between the conductors until a breakdown occurs. At this point, an arc is established between the conductors.
Factors affecting corona
The following are the factors influencing the corona:
Effect of supply voltage: Higher supply voltage leads to greater corona loss in the lines. In low - voltage transmission lines, the corona is negligible because the electric field is insufficient to sustain ionization.
Condition of conductor surface: A smooth conductor results in a more uniform electric field compared to a rough one. Conductor roughness, caused by dirt, dust deposition, scratching, etc., reduces corona loss in transmission lines.
Air Density Factor: Corona loss is inversely proportional to the air density factor. That is, corona loss increases as the air density decreases. Transmission lines in hilly areas may experience higher corona loss than those in plains because the air density is lower in hilly regions.
Effect of system voltage: The electric field intensity around the conductors depends on the potential difference between them. A higher potential difference leads to a higher electric field intensity and, consequently, more pronounced corona. Corona loss increases with an increase in voltage.
Spacing between conductors: If the distance between two conductors is much greater than the conductor diameter, corona loss occurs. When this distance is extended beyond a certain limit, the dielectric medium between them diminishes, reducing the corona loss.
Disadvantages of corona discharge
The adverse effects of corona are as follows:
Minimizing corona
Since corona reduces the efficiency of transmission lines, minimizing it is crucial. The following approaches can be considered to control corona:
Important points