Title :
Fast assessment methods for voltage sags in distribution systems
Author :
Bollen, Math H J
Author_Institution :
Centre for Electr. Energy, Univ. of Manchester Inst. of Sci. & Technol., UK
Abstract :
Based on a simple voltage divider model, a relation is derived between the load sensitivity to voltage sags (expressed as a critical voltage) and the exposed area (expressed as a critical distance). The critical distance increases about linearly with voltage level. The relation found is remarkably similar to relations found in power quality surveys. An equivalent expression is found for the critical distance as a function of the critical phase-angle jump. Realizing that faults downstream of a transformer do not significantly influence the expected number of sags, it is possible to estimate the number of sags at a specific load location. The method is extended to some nonradial systems: simple subtransmission loops, local generation, feeding from two substations, and operating with a normally open breaker
Keywords :
distribution networks; fault location; power supply quality; assessment methods; critical distance; critical phase-angle jump; critical voltage; distribution systems; faults; local generation; nonradial systems; normally open breaker operation; power quality; substations; subtransmission loops; voltage divider model; voltage sags; Circuit faults; Distributed power generation; Fault diagnosis; Impedance; Industry Applications Society; Power generation; Power quality; Power system modeling; Power system reliability; Voltage fluctuations;
Journal_Title :
Industry Applications, IEEE Transactions on
