Title :
DC field measurements around a cable end
Author :
Saltzer, Markus ; Kallstrand, B. ; Johansson, K. ; Borg, D. ; Schiessling, Joachim ; Doiron, Charles
Author_Institution :
ABB Corp. Res., Baden-Dättwil, Switzerland
Abstract :
Even under corona-free conditions, insulating structures (materials) may be charged in DC fields. This is due to the fact that air has a finite ionic conductivity. The finite conductivity of air results from charges generated by background radio activity and cosmic radiation. Typical ion concentrations on ground are 107 to 1010 ions/m3 which leads to conductivities ranging from 10-16 to 10-13 S/m. An experiment has been conducted where the end of a terminated high voltage XLPE cable was used as an insulating structure. The field distribution around the stripped cable end was measured with an applied DC voltage of -140 kV using a rotating field probe. The measurements are compared to simulations, which do not specifically take into account space charge effects. A big discrepancy is observed, showing the relevance of taking into account space charge effects when modeling HVDC insulation components subjected to air.
Keywords :
HVDC power transmission; XLPE insulation; air; electric field measurement; ionic conductivity; power cable insulation; DC field measurement; HVDC insulation components; air; background radio activity; corona-free conditions; cosmic radiation; field distribution; finite ionic conductivity; insulating materials; insulating structures; rotating field probe; space charge effects; stripped cable end; terminated high voltage XLPE cable; voltage -140 kV; Atmospheric modeling; Conductivity; Electric fields; Power cable insulation; Power cables; Probes;
Conference_Titel :
Electrical Insulation and Dielectric Phenomena (CEIDP), 2013 IEEE Conference on
Conference_Location :
Shenzhen
DOI :
10.1109/CEIDP.2013.6748310
