@misc{Nie2010,
Author = {Nieße, Astrid and Lünsdorf, Ontje and Mayer, Christoph and Scherfke, Stefan and Schütte, Steffen and Tröschel, Martin and Wissing, Carsten and Sonnenschein, Michael},
Title = {Integrative Energy Management in the Distribution Grid},

Year = {2010},
Month = {12},
type = {misc},
note = {We present our ICT-based approach of an integrative energy management in the distribution grid aiming at a substitution of fossil generation capacities. Using the example of a strong wind power gradient, the potential of the following concepts to adapt to},
Abstract = {We present our ICT-based approach of an integrative energy management in the distribution grid aiming at a substitution of fossil generation capacities. Using the example of a strong wind power gradient, the potential of the following concepts to adapt to extreme load curves within 
short time is shown: 
a.   Reactive scheduling of small-scale generation units 
b.   Virtual Appliances for load shifting 
c.   Load management of battery systems e.g. in Plug-in Electric Vehicles 
d.   Dynamic product build-up in Virtual Power Plants 
The proposed elements of an integrative energy management work on different time scales: 
The  scheduling  of  residential  combined  heat  and  power  plants  can  lead  to  feed-in  shifts  of several  hours,  whereas  load  shifting  with  domestic  appliances  like  refrigerators  imply  load shifting of less than an hour for a single device. These concepts have to be integrated to adapt local grid load curves to wind power feed-in characteristics. }
}
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