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Ch 4: Transmission Line Calculations 1 Transmission lines physically integrate the output of generating plants and the requirements of customers by providing pathways for the flow of energy among the various circuits in an electric power system. For our purposes here, we consider a transmission line to have a sending end and a receiving end, and to have a series resistance and inductance and a shunt capacitance and conductance as primary parameters. In addition, we classify transmission lines as short, medium, and long. In a short line, the shunt effects (conductance and capacitance) are neglected; this approximation is considered valid for lines up to 80km long. In a medium line, the shunt capacitances are lumped at a few predetermined locations along the line; medium lines generally range from 80 to 240 km in length. Lines longer than 240 km are considered to be long lines and to have uniformly distributed parameters. In Chapter 3 we discussed the three most important parameters of transmission lines. In this chapter we discuss the effect of those parameters on the operation and performance of transmission lines. In particular, we evaluate the losses, efficiency, and voltage regulation of transmission lines and then determine the consequences of such performance characteristics on the operation of a power system. 2 4.1 TRANSMISSION.LINE REPRESENTATION To facilitate performance calculations relating to a transmission line, the line is approximated as a series-parallel interconnection of the relevant parameters. A short transmission line, for which the shunt effects may be neglected, is represented by a lumped resistance in series with a lumped inductance. A medium-length line is represented by lumped shunt capacitors located at predetermined points along an RL series circuit. (In practice, the entire capacitive effect in a medium-length line may be represented by only one or two lumped capacitors.) Finally, a long transmission line is represented by uniformly distributed parameters. Furthermore, the shunt branch of a long line consists of both capacitances and conductances distributed uniformly along the line. 3 4.2 SHORT TRANSMISSION L!NE The short transmission line is represented by the lumped parameters R and L, as shown in Fig. 4-1. Notice that R is the resistance (per phase) and L is the inductance (per phase) of the entire line (even though we computed transmission-line parameters per unit length of line in Chapter 3). The line is shown to have two ends: the sending end (designated by the subscript S) at the generator, and the receiving end (designated R) at the load. Quantities of significance here are the voltage regulation and efficiency of transmission. These quantities are defined as follows for lines of all lengths: 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 Standing Wave vs Traveling Wave http://www.acs.psu.edu/drussell/Demos/superposition/superposition.html 23 24
