33 kV (not 'kv'!) is the standard primary-distribution voltage used in the UK's electricity supply system. Low voltage (400/230 V -not 440 V) is normally provided by Transformers supplied from the 11-kV system, not the 33-kV system.
750MVA to 1000MVA for 33kV and 350MVA for 11kV
A generator converts mechanical power into electrical power. A motor converts electrical power into mechanical power.
what is difference between phase voltage 415volt and 440volt
33kv
Instead of using the word converts try transforms.
converts to ac power
The power loss in aluminum 33kV line conductors primarily occurs due to the resistance of the conductor, which leads to I²R losses, where I is the current and R is the resistance. The amount of power loss can be calculated using the formula P_loss = I² × R. Aluminum conductors have a relatively lower conductivity compared to copper, which can result in higher losses for the same current. However, the actual power loss will depend on factors such as the length of the line, the current flowing through it, and the temperature of the conductors.
The effects of being at the end of a 33KV transmission line will result in a higher voltage. This is due to variation in the perameters that dictate how the transmission is sent and received.
1.2 meter
A turbine and a generator
power
About 220 volts. They're just different voltage levels. 440 volt services can provide more power than 220 volt services typically.