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This paper presents a general methodology for a more accurate assessment of performance of networks with a high penetration of wind-based energy generation and fully enabled responsive demand capabilities. The presented methodology allows to include in the analysis wind-based generation at all scales of implementation, starting from highly dispersed micro and small-scale units connected at LV, to...
This paper, which is part one of a two-part series, presents a general methodology for the development of improved aggregate load models for steady state power system analysis. Using the UK residential load sector as an example, the paper shows how component-based low voltage (LV) aggregate load models can be obtained using measurements, statistical and other available data and information on load...
All relevant studies indicate that future electricity networks will see a significant increase in renewable-based distributed generation (DG) and much wider application of load management and intelligent network technologies. The impact of DG and demand-side actions is direct and easily observed in the distribution networks. Their effects on transmission system performance, however, are more difficult...
Aggregate load models traditionally used for steady state analysis of power systems are based on standard constant impedance/current/power representation of static load component, with induction motor representation of dynamic load component. These traditional load models cannot accurately represent characteristics of non-linear power electronic loads, the impact of local distributed generation (DG)...
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