An overview of DC cable modelling for fault analysis of VSC-HVDC transmission systems: AUPEC 2010 - 20th Australasian Universities Power Engineering Conference: "Power Quality for the 21st Century"

J. Yang, J. O'Reilly, J.E. Fletcher

    Research output: Contribution to conferencePaperpeer-review

    Abstract

    This paper analyzes dc cable transient modelling issues for voltage source converter (VSC) based high voltage direct current (HVDC) transmission systems, as proposed for large-scale renewable power integration, for example, offshore wind farms. Detailed dc cable models with different degrees of accuracy are analyzed for utilization in the analysis and simulations of dc fault conditions. This fault study is helpful for the protection system design of large-scale renewable energy power systems to realize a reliable dc transmission system for the future.
    Original languageBritish English
    StatePublished - 2010

    Keywords

    • DC cable modelling
    • Fault current
    • Renewable power generation
    • Voltage source converter (VSC)
    • Cables
    • Computer simulation
    • Electric power transmission
    • Electric utilities
    • Power quality
    • Systems analysis
    • Transmissions
    • Wind power
    • Analysis and simulation
    • DC cables
    • Dc fault
    • DC transmission systems
    • Fault analysis
    • High-voltage direct-current transmission systems
    • Offshore wind farms
    • Power Integrations
    • Power systems
    • Protection systems
    • Renewable energies
    • Transient modelling
    • Voltage source converters
    • VSC-HVDC
    • HVDC power transmission

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