DocumentCode
1150431
Title
Development of 500-kV XLPE cables and accessories for long-distance underground transmission lines. V. Long-term performance for 500-kV XLPE cables and joints
Author
Kaminaga, Kenji ; Ichihara, Masaki ; Jinno, Mitsuo ; Fujii, Osamu ; Fukunaga, Sadao ; Kobayashi, Masayuki ; Watanabe, Kazuo
Author_Institution
Tokyo Electr. Power Co. Inc., Japan
Volume
11
Issue
3
fYear
1996
fDate
7/1/1996 12:00:00 AM
Firstpage
1185
Lastpage
1194
Abstract
500-kV XLPE-insulated cable with an insulation thickness of 27 mm and its joint have been developed for long distance transmission lines. First, in the basic research made from 1989 to 1992, elicited were the performance-determining factors of XLPE cables and joints. Their respective insulation designs were made in terms of these factors. On the basis of these designs, full-sized cables and joints were manufactured in the course of the development research performed from 1992 to 1993. The next step was to evaluate the initial electrical performance to estimate the suitability of our designs. As the final step of our series of researches so far carried out, a long-term loading cycle test was carried out by means of a model line with joints as installed and using the same techniques as employed in the actual commercial lines for full eight months. We could thus verify the long-term reliability for commercial use. The authors discuss EMI, performance dominating effects and quality control, and initial and long term electrical performance testing
Keywords
XLPE insulation; cable jointing; electromagnetic interference; power cable insulation; power cable testing; power cables; underground cables; underground transmission systems; 27 mm; 500 kV; EMI; XLPE cable joints; XLPE cables; development research; initial electrical performance; long-distance underground transmission lines; long-term performance; long-term reliability; performance dominating effects; quality control; testing; Cable insulation; Cities and towns; Conductors; Manufacturing; Power transmission lines; Testing; Transmission lines; Underground power cables; Urban areas; Voltage;
fLanguage
English
Journal_Title
Power Delivery, IEEE Transactions on
Publisher
ieee
ISSN
0885-8977
Type
jour
DOI
10.1109/61.517470
Filename
517470
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