Title :
The influence of motor reacceleration on voltage sags
Author :
Bollen, Math H J
Author_Institution :
Centre for Electr. Energy, Univ. of Manchester Inst. of Sci. & Technol., UK
Abstract :
The assumption that a voltage sag is rectangular is not correct in a power system with large induction motor loads. The motors decelerate during the short circuit. After fault-clearing, they will accelerate again, drawing a high reactive current from the supply, causing a prolonged postfault voltage sag. This is aggravated by the removal of branches by the protection. The resulting shape of some voltage sags in an example power system is shown and discussed. For the example power system, a stochastic voltage sag table is determined. This table gives the expected number of sags of different depth and duration. The influence of faster protection and of reduced transformer impedance on the table is presented. A simple motor model is implemented in a method for including interruptions due to voltage sags in the reliability analysis of power systems. This model is presented briefly and used to show the influence of motor parameters on the number of sags that lead to an interruption of plant operation
Keywords :
distribution networks; electrical faults; induction motors; industrial power systems; machine theory; power supply quality; power system protection; power system reliability; stochastic processes; fault-clearing; induction motor loads; interruptions; motor reacceleration; postfault voltage sag; power quality; power system; protection; reactive current; reliability analysis; sag depth; sag duration; stochastic voltage sag table; transformer impedance; voltage sags; Acceleration; Circuit faults; Current supplies; Induction motors; Power quality; Power system faults; Power system modeling; Power system protection; Power system reliability; Voltage fluctuations;
Journal_Title :
Industry Applications, IEEE Transactions on
