ব্যাখ্যা
Reduces volume of conductor material: High-voltage transmission reduces the need for large amounts of conductor material for the same power transmission capacity. This is because power loss in the form of heat (I²R losses) decreases when voltage is increased. High voltage allows for transmitting the same amount of power using lower current, and since I²R losses are directly proportional to the square of the current, reducing the current reduces the losses. Consequently, the size of conductors can be smaller for the same power, reducing material requirements and the overall cost of construction.
Increases transmission efficiency:High-voltage transmission significantly increases the efficiency of power transmission. When voltage is increased, the current decreases for the same amount of power. The reduction in current minimizes resistive losses (I²R losses) in the transmission lines, making the process more efficient. High-voltage transmission helps ensure that more of the generated power reaches its destination with minimal loss, which is especially important in long-distance transmission.
Decreases percentage line drop: The line voltage drop is directly related to the current flowing through the line. By increasing the voltage, the current is decreased, which in turn reduces the percentage line voltage drop.
A smaller voltage drop results in more stable and efficient transmission because the voltage at the receiving end remains closer to the required value, reducing losses and improving the quality of power delivered.
{"Power System Analysis and Design" by J. Duncan Glover, Thomas Overbye, and M. S. Sarma}