• DocumentCode
    1774764
  • Title

    Effectiveness of crosslinking byproduct removal from extruded power cable

  • Author

    Yabin Sun ; Person, Timothy J. ; Jie Ji ; Changkan Zheng

  • Author_Institution
    Dow Chem. (China) Investment Co. Ltd., China
  • fYear
    2014
  • fDate
    23-26 Sept. 2014
  • Firstpage
    1739
  • Lastpage
    1743
  • Abstract
    Using a simple multicomponent diffusion model an estimate can be made for the degree of degassing for various times and temperatures. The model enables parametric prediction of the impact of insulation thickness and temperature on a characteristic diffusion time to achieve a targeted degree of degassing. A protocol has also been established which enables the quantification of the byproduct level within manufactured cables. The model results are compared to the results obtained from typical degassing processes. The results suggest that a significant amount of byproducts remain in within cables after ambient degassing for up to one week. Alternate compositions have been developed with an objective to reduce the crosslinking byproducts and thereby reduced the required degassing time. Based upon the diffusion model a 50% reduction in degassing time was expected with the alternative compositions. The alternative composition was utilized for cable extrusion and the byproducts were measured and compared to that of a standard crosslinked polyethylene cable. The results are consistent with the expectation that the alternate composition can deliver a 50% reduction in degassing time, while also delivering an acceptable degree of crosslinking and acceptably low dielectric loss.
  • Keywords
    XLPE insulation; dielectric losses; power cable insulation; ambient degassing; byproduct removal; crosslinked polyethylene cable; crosslinking byproducts; extruded power cable; insulation thickness; multicomponent diffusion model; parametric prediction; Abstracts; Cable insulation; Power cables; Predictive models; Protocols; Standards; Time measurement; Byproducts; Degassing; Dicumyl Peroxide; Extra high voltage; High voltage; XLPE Insulation;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Electricity Distribution (CICED), 2014 China International Conference on
  • Conference_Location
    Shenzhen
  • Type

    conf

  • DOI
    10.1109/CICED.2014.6992000
  • Filename
    6992000