by E. E. Pompodakis, G. C. Kryonidis and M. C. Alexiadis
Reference:
E. E. Pompodakis, G. C. Kryonidis and M. C. Alexiadis, "A Comprehensive Load Flow Approach for Grid-Connected and Islanded AC Microgrids", IEEE Trans. Power Syst., vol. 35, no. 2, March 2020, pp. 1143-1155.
Bibtex Entry:
@ARTICLE{J8,
author={E. E. Pompodakis and G. C. Kryonidis and M. C. Alexiadis},
journal={IEEE Trans. Power Syst.},
title={A Comprehensive Load Flow Approach for Grid-Connected and Islanded AC Microgrids},
year={2020},
volume={35},
number={2},
pages={1143-1155},
keywords={conductors (electric);convergence of numerical methods;distributed power generation;electric impedance;load flow;power distribution faults;power grids;islanded AC microgrids;load flow algorithm;highly meshed distribution systems;grid-connected mode;PV nodes;distributed generators;multigrounded neutral conductor;implicit ZBUS method;convergence methods;virtual impedance;numerical simulations;38-bus balanced networks;33-bus balanced networks;25-bus unbalanced networks;30-bus unbalanced network;Conductors;Load flow;Impedance;Grounding;Mathematical model;Admittance;Load modeling;Load flow;meshed distribution systems;multi-grounded systems;implicit ${Z_{BUS}}$ method;islanded microgrids;PV nodes;virtual impedance},
doi={10.1109/TPWRS.2019.2945011},
ISSN={1558-0679},
url={http://power.ee.auth.gr/wp-content/uploads/2019/09/J8_kryonidis.pdf},
month={March},}