Distributed generation modeling for power flow studies and a three-phase unbalanced power flow solution for radial distribution systems considering distributed generation

Distributed generations ( DGs) are generally modeled as PV or PQ nodes in power flow studies ( PFSs) for distribution system. Determining a suitable model for each DG unit requires knowing the DG operation and the type of its connection to the grid (direct or indirect). In this respect, this paper o...

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Bibliographic Details
Published in:Electric power systems research 2009-04, Vol.79 (4), p.680-686
Main Authors: Moghaddas-Tafreshi, S.M., Mashhour, Elahe
Format: Article
Language:English
Subjects:
Applied sciences
Distributed generation ( DG)
Electric power plants
Electrical engineering. Electrical power engineering
Electrical power engineering
Exact sciences and technology
Miscellaneous
Operation. Load control. Reliability
Power flow studies ( PFSs)
Power networks and lines
Users connections and in door installation
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Summary:Distributed generations ( DGs) are generally modeled as PV or PQ nodes in power flow studies ( PFSs) for distribution system. Determining a suitable model for each DG unit requires knowing the DG operation and the type of its connection to the grid (direct or indirect). In this respect, this paper offers a helpful list of DG models for PFSs. Moreover, an unbalanced three-phase power flow algorithm for radial distribution networks considering DG is presented based on the power summation method in backward/forward sweep technique. The proposed algorithm is simple and fast and can handle DG units in both PV and PQ mode. In comparison with the current analysis methods, handling of PV nodes in the proposed method is very simple since it uses active and reactive powers as flow variables rather than the complex currents and then checks the limits of reactive power of the generator of PV node straightforwardly. IEEE four-node test feeder is used to validate the proposed method. IEEE 13-node test feeder without regulator and with different DG models is analyzed and the results are presented. Moreover, the results are compared with and without considering system losses.
ISSN:0378-7796
1873-2046
DOI:10.1016/j.epsr.2008.10.003