Abstract
Single-phase positive sequence modelling is often used in power systems when power flows and short circuit analysis are assessed. Of course, the use of single-phase positive sequence modelling assumes purely three-phase configurations and perfectly symmetrical ones so that single-phase modelling considers that all the phase conductors behave in the same way. When considering the physical reality of power networks, this assumption can be questionable and the behaviors of all the system conductors including the passive ones (earth wires for overhead lines, metallic screens and armours for cables and enclosures for gas insulated lines) is completely unknown. Therefore, the present multiconductor cell analysis (MCA) becomes necessary, since it allows one to achieve great precision results on the regimes of both phase conductors and passive conductors. MCA offers a powerful tool in order to validate (or less) approximated and simplified computation methods. In particular, for single and double circuit overhead lines (OHLs), the current phasors induced in the earth wires and the ground return current alongside the line can be directly computed by MCA in steady state and faulty regimes. It is worth noting that, for faulty regimes, MCA allows also evaluating the approximation degree and validity field of screening factors k.
Highlights
Multiconductor cell analysis (MCA) takes advantage of the extensive use of the admittance matrices in order to consider any asymmetrical system with all the active and passive (earth wires for overhead lines (OHLs), screens and armors for underground insulated cables (UGCs), enclosures for gas insulated lines (GILs), keraunic wires, buried conductors, rails, feeders, overhead contact line with catenary suspension for AC high speed railway systems) conductors
A double circuit OHL 400 kV 2 × 400 mm2 aluminum conductor steel reinforced (ACSR), whose electrical and geometrical characteristics are reported in Table 3, has been studied on faulty regime by means of MCA
MCA has already had a great number of successful applications to multi-phase asymmetrical systems [1,2,3]
Summary
Multiconductor cell analysis (MCA) takes advantage of the extensive use of the admittance matrices in order to consider any asymmetrical system with all the active and passive (earth wires for OHLs, screens and armors for underground insulated cables (UGCs), enclosures for gas insulated lines (GILs), keraunic wires, buried conductors, rails, feeders, overhead contact line with catenary suspension for AC high speed railway systems) conductors. It allows knowing directly the electrical behaviors of all the electrical quantities alongside an OHL. A comparison between MCA and the commercial software EMTP-RV results is presented, which has given a very good agreement
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