Measurement of power loss in dielectrics of three-conductor high-tension cables

This paper describes the method used at the Electrical Testing Laboratories for measuring the dielectric power losses in 10-foot samples of three-conductor cables with three-phase potential applied to the cable. The difficulties encountered and the methods employed to overcome them are discussed in...

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Bibliographic Details
Published in:Proceedings of the American Institute of Electrical Engineers 1918-02, Vol.37 (2), p.125-145
Main Author: Farmer, F. M.
Format: Article
Language:English
Subjects:
Conductors
Dielectric loss measurement
Dielectrics
Electric potential
Loss measurement
Power measurement
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Summary:This paper describes the method used at the Electrical Testing Laboratories for measuring the dielectric power losses in 10-foot samples of three-conductor cables with three-phase potential applied to the cable. The difficulties encountered and the methods employed to overcome them are discussed in considerable detail. Typical results are given in the form of data for two specimens of cable, one having a low power loss in the dielectric and one having a high power loss in the dielectric. The data are also presented in the form of curves. The discussion includes: (a) The theory of excessive internal dielectric loss as accounting for cable failures at local "hot spots." (b) The advantages of plotting data with logarithmic scales. (c) A comparison of results obtained by computation from single-phase measurements with those obtained by direct measurement with three-phase potential. The conclusions drawn are: (a) The power loss in the dielectric in a three-conductor cable under actual three-phase conditions can be readily measured in the laboratory with specimens ten feet lnog. (b) No special apparatus is necessary for such measurements other than a reflecting high sensitivity wattmeter. (c) Apparently the power loss in the dielectric cannot in all cases be accurately calculated from data obtained in single-phase tests although it is highly probable that for all practical purposes the discrepancy would not be serious. Further investigation is necessary, however, before final conclusions on this point can be stated. (d) While the method of determining power losses in the dielectric directly by three-phase measurements involves more complication in preparation and slightly more time in the actual measurements, it has the important advantage that the results are conclusive and not subject to the uncertainty which pertains to results calculated from single-phase measurements.
ISSN:0097-2444
2376-7758
DOI:10.1109/PAIEE.1918.6591158