Abstract :
The competitive environment created by free market electricity supply requires that electric utilities reduce capital and operating expenses and, at the same time, increase the overall quality of electricity. Underground distribution cable systems are particularly sensitive to this need, which can be effectively addressed by in-situ diagnostic tests. This paper discusses one such diagnostic method based on the location of discrete partial discharge sites. The paper briefly reviews the conditions under which a cable service would produce partial discharges. It illustrates the fact that, although cable systems undergo some overall deterioration, service failures occur at the sites of discrete defects, which in most instances can be identified by a partial discharge test. The principles of the test are reviewed and statistical data with significant case studies are presented. The effects of maximum test voltage and instrument sensitivity are discussed in the light of statistical field test data
Keywords :
insulation testing; partial discharge measurement; power cable insulation; power cable testing; reflectometry; underground cables; cable service; capital expenses reduction; diagnostic tool; discrete defect sites; discrete partial discharge sites; free market electricity supply; in-situ diagnostic tests; instrument sensitivity; maximum test voltage; operating expenses reduction; partial discharge location; partial discharge test; power cables; service failures; statistical field test data; underground distribution cable systems; Charge transfer; Electrodes; Insulation testing; Nondestructive testing; Partial discharges; Power cables; Power industry; Power system reliability; Trees - insulation; Voltage;
