Proceedings ArticleDOI
Control techniques of Dispersed Generators to improve the continuity of electricity supply
Stefano Barsali,Massimo Ceraolo,Paolo Pelacchi,Davide Poli +3 more
- Vol. 2, pp 789-794
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TLDR
In this article, the authors present a control technique for distributed generation (DG) plants that use feedback of only locally measurable variables, which allows correct system operation and switching between parallel and isolated modes without needing online communication of control signals between the generators.Abstract:
It is expected that dispersed generation (DG) will play an increasing role in electric power systems in the near future. Among the benefits that DG can give to the power system operators and to the electricity customers, one of the most attractive is the possibility of improving the continuity of power supply. DG plants can be designed to supply portions of the distribution grid in the event of an upstream supply outage. Techniques for controlling DG plants that use feedback of only locally measurable variables are presented. This solution allows correct system operation and switching between parallel and isolated modes without needing online communication of control signals between the generators. The control technique is described with particular reference to inverter-interfaced systems (micro-turbines, fuel cells). Simulations of sample cases including different size and type of generators are presented.read more
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References
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Journal ArticleDOI
Dispersed generation impact on distribution networks
TL;DR: In this article, the authors focus on some technical aspects, but not on the impact on the quality of supply and on tariff signals, and they focus on the technical aspects only.
Journal ArticleDOI
Planning for distributed generation
TL;DR: In this article, the authors consider distributed generation (DG) can be incorporated into distribution planning as an option along with traditional feeder and substation options, and the planning process needs to incorporate more detailed simulations of capacity constraints and customer damage costs.
Journal ArticleDOI
Optimal sectionalizing switches allocation in distribution networks
TL;DR: In this paper, the optimal number and location of switching devices for both radial and meshed power distribution systems was found based on the Bellmann's optimality principle, combined with thinning techniques, yielding the optimal solution in a few ms for real size problems.
Proceedings ArticleDOI
Electrical performance characteristics of a new micro-turbine generator
M. Etezadi-Amoli,K. Choma +1 more
TL;DR: In this paper, the results of an investigation regarding the electrical performance characteristics of a new, three-phase, 480 V (L-L), 30 kW, micro-turbine generator and its suitability as an electrical power source for applications at the electrical power distribution voltage level.
Proceedings ArticleDOI
Role of distributed generation in reinforcing the critical electric power infrastructure
TL;DR: In this paper, the authors proposed a control and command infkstructure around critical installations to sense the presence of a disturbanced attack in any frequency and initiate the generator running process, and start distributed generators as needed to maintain acceptable operational levels.