Induced Losses in Three-Core SL-Type High-Voltage Cables

Author

Goddard, Kevin F. ; Pilgrim, James A. ; Chippendale, Richard ; Lewin, Pual L.

Author_Institution

Tony Davies High Voltage Lab., Univ. of Southampton, Southampton, UK

Volume

30

Issue

3

fYear

2015

fDate

Jun-15

Firstpage

1505

Lastpage

1513

Abstract

It is considered that the present IEC 60287 standard overestimates the induced losses in SL-type armored cables, which are commonly used to connect offshore windfarms to the onshore grid. This paper addresses the issue through a series of equivalent-circuit models for the estimation of circulating-current, eddy-current, and armor losses in these cables. Finite-element models are used for further validation. Both the finite-element and the equivalent-circuit models use an equivalent-material representation of the armor layer, for which two calculation methods are developed. The results demonstrate clearly that the equation for armor loss in such cables as presently used in IEC standards is overly conservative.

Keywords

eddy current losses; equivalent circuits; finite element analysis; power cable testing; submarine cables; IEC 60287 standard; IEC standards; SL-type armored cables; armor layer; armor losses; circulating-current estimation; eddy-current; equivalent-circuit models; equivalent-material representation; finite-element models; induced losses; offshore windfarms; onshore grid; three-core SL-type high-voltage cables; Cable shielding; Inductance; Integrated circuit modeling; Loss measurement; Mathematical model; Permeability; Wires; Eddy currents; electromagnetic fields; magnetic losses; magnetic shielding; proximity effects;

fLanguage

English

Journal_Title

Power Delivery, IEEE Transactions on

Publisher

ieee

ISSN

0885-8977

Type

jour

DOI

10.1109/TPWRD.2014.2370895

Filename

6955852