DocumentCode
2617078
Title
Meshed vs. radial MV distribution network in presence of large amount of DG
Author
Celli, G. ; Pilo, F. ; Pisano, G. ; Allegranza, V. ; Cicoria, R. ; Iaria, A.
Author_Institution
Dept. of Electr. & Electron. Eng., Cagliari Univ., Italy
fYear
2004
fDate
10-13 Oct. 2004
Firstpage
709
Abstract
Until now, distribution networks are regarded as a passive termination of the transmission network, with a radial structure, unidirectional power flows, and a simple and efficient protection scheme. In presence of a large amount of distributed generation (DG), distribution networks will gradually, but ineluctably, change towards a new kind of active networks. The most revolutionary change, needed to efficiently allocate so much DG, could be represented by the adoption of a meshed network architecture. For this reason, in the paper new possible arrangements for distribution networks have been deeply investigated and compared with the radial scheme. Steady state and dynamic simulations have been performed, considering a portion of the real Italian distribution network, and voltage profile, power losses, short circuit currents and grid reliability have been analyzed.
Keywords
active networks; distributed power generation; load flow; losses; power distribution planning; power distribution protection; power distribution reliability; power system simulation; short-circuit currents; Italian distribution network; MV; active network; distributed generation; distribution network planning; dynamic simulations; grid reliability; medium voltage; meshed network architecture; power distribution protection; power losses; short circuit currents; steady state simulations; unidirectional power flow; voltage profile; Analytical models; Circuit simulation; Distributed control; Drives; Intelligent networks; Load flow; Performance analysis; Power system reliability; Steady-state; Voltage;
fLanguage
English
Publisher
ieee
Conference_Titel
Power Systems Conference and Exposition, 2004. IEEE PES
Print_ISBN
0-7803-8718-X
Type
conf
DOI
10.1109/PSCE.2004.1397664
Filename
1397664
Link To Document