A Generic Power Flow Algorithm for Unbalanced Islanded Hybrid AC/DC Microgrids
This paper proposes a precise power flow algorithm for islanded hybrid AC/DC microgrids (HMGs). In our analysis, we have considered a multi-grounded unbalanced bipolar DC microgrid and a multi-grounded four-wire AC microgrid connected through one or more interlinking converters (ICs). The proposed m...
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| Published in | IEEE transactions on power systems Vol. 36; no. 2; pp. 1107 - 1120 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.03.2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0885-8950 1558-0679 |
| DOI | 10.1109/TPWRS.2020.3012815 |
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| Abstract | This paper proposes a precise power flow algorithm for islanded hybrid AC/DC microgrids (HMGs). In our analysis, we have considered a multi-grounded unbalanced bipolar DC microgrid and a multi-grounded four-wire AC microgrid connected through one or more interlinking converters (ICs). The proposed method is based on the implicit Z BUS method, presenting fast convergence and robustness regardless of the R / X ratio of the lines. It can be applied in all network configurations including highly meshed distribution systems. Numerical simulations are conducted in a 12-Bus and a 47-Bus islanded unbalanced HMG to verify the validity of the proposed power flow approach considering several distributed generator (DG) operational modes. A case study in a large 1024-Bus islanded HMG further highlights the outstanding accuracy and computational performance of the proposed approach against other existing power flow methods. |
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| AbstractList | This paper proposes a precise power flow algorithm for islanded hybrid AC/DC microgrids (HMGs). In our analysis, we have considered a multi-grounded unbalanced bipolar DC microgrid and a multi-grounded four-wire AC microgrid connected through one or more interlinking converters (ICs). The proposed method is based on the implicit Z BUS method, presenting fast convergence and robustness regardless of the R / X ratio of the lines. It can be applied in all network configurations including highly meshed distribution systems. Numerical simulations are conducted in a 12-Bus and a 47-Bus islanded unbalanced HMG to verify the validity of the proposed power flow approach considering several distributed generator (DG) operational modes. A case study in a large 1024-Bus islanded HMG further highlights the outstanding accuracy and computational performance of the proposed approach against other existing power flow methods. |
| Author | Kryonidis, Georgios C. Demoulias, Charis Alexiadis, Minas C. Pompodakis, Evangelos E. |
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| SubjectTerms | AC/DC hybrid microgrids Admittance Algorithms bipolar DC microgrids Conductors Distributed generation Electric converters Grounding Integrated circuits interlinking converter Load flow Microgrids multi-grounded networks Power flow Robustness Robustness (mathematics) |
| Title | A Generic Power Flow Algorithm for Unbalanced Islanded Hybrid AC/DC Microgrids |
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