The philosophy behind the development of Rogowski-type test objects and the aging and test procedures used in the Norwegian Electric Power Research Institute (EFI) test method are presented. Some of the results obtained during almost eight years of the use of this method are briefly reviewed. The great advantage of the method is that a model of a cable insulation system consisting of semiconducting screens and extruded insulating materials can be tested. After production, the test objects are screened in a high-voltage test (50 kV/mm) in order to exclude production errors. After aging, water tree analysis and breakdown tests can be performed on the same test objects. The effect of differing aging conditions and materials on water treeing and breakdown strength can easily be determined. The objects are manufactured from extruded insulation tapes. The EFI test method has been demonstrated to be well correlated with cable test results provided the same batch of materials is used for comparison.<<ETX>>
[1]
H. Faremo,et al.
The influence of a DC test voltage on the AC performance of new and old XLPE cables
,
1989
.
[2]
J. Sletbak,et al.
A Study of Inception and Growth of Water Trees and Electrochemical Trees in Polyethylene and Cross Linked Polyethylene Insulations
,
1977,
IEEE Transactions on Electrical Insulation.
[3]
Erling Ildstad,et al.
The Effect of Service and Test Conditions on Water Tree Growth in XLPE Cables
,
1983,
IEEE Transactions on Power Apparatus and Systems.
[4]
H. Faremo,et al.
Influence of mechanical stress and frequency on water treeing in XLPE cable insulation
,
1990,
IEEE International Symposium on Electrical Insulation.
[5]
H. Faremo,et al.
Water treeing and breakdown strength reduction of XLPE insulation
,
1989,
Proceedings of the 3rd International Conference on Conduction and Breakdown in Solid Dielectrics.