TY - GEN

T1 - Challenges of grid integration of distributed generation in the interdisciplinary research project Smart Nord

AU - Fuchs, F.

AU - Dietz, R.

AU - Garske, S.

AU - Breithaupt, T.

AU - Mertens, A.

AU - Hofmann, L.

N1 - Copyright: Copyright 2014 Elsevier B.V., All rights reserved.

PY - 2014/6/1

Y1 - 2014/6/1

N2 - This paper describes a joint research project in the field of grid integration of distributed renewable energy sources. Several research groups cooperate in an interdisciplinary approach. Main focus of this research project is the analysis of both influence and possibilities of multi-agent systems (MAS) which control consumers and renewable energy resources (RES) in future energy systems. Analysis and solutions are provided in the fields of control of power electronics that connects the RES to the grid and the interaction between multiple renewable energy resources in the grid. A detailed modelling of the connecting distribution and overlaying transmission networks is used for the analysis of distributed generation systems and their influence on the different voltage levels of the power grid. A combined simulation environment for different scenarios of single distribution grids controlled by MAS and the overlaid transmission grid in an overall system model has been developed, so both grid areas can be analysed in adequate accurateness. Furthermore the integration of grid and power market in one simulation environment is extended for analyses of frequency stability.

AB - This paper describes a joint research project in the field of grid integration of distributed renewable energy sources. Several research groups cooperate in an interdisciplinary approach. Main focus of this research project is the analysis of both influence and possibilities of multi-agent systems (MAS) which control consumers and renewable energy resources (RES) in future energy systems. Analysis and solutions are provided in the fields of control of power electronics that connects the RES to the grid and the interaction between multiple renewable energy resources in the grid. A detailed modelling of the connecting distribution and overlaying transmission networks is used for the analysis of distributed generation systems and their influence on the different voltage levels of the power grid. A combined simulation environment for different scenarios of single distribution grids controlled by MAS and the overlaid transmission grid in an overall system model has been developed, so both grid areas can be analysed in adequate accurateness. Furthermore the integration of grid and power market in one simulation environment is extended for analyses of frequency stability.

KW - distributed power generation

KW - frequency stability

KW - multi-agent systems

KW - power distribution control

KW - power grids

KW - power markets

KW - power transmission control

KW - renewable energy sources

KW - distributed renewable energy sources

KW - interdisciplinary approach

KW - multiagent systems

KW - power electronics control

KW - RES

KW - distribution networks

KW - overlaying transmission networks

KW - distributed generation systems

KW - distribution grid control

KW - MAS

KW - power grid integration

KW - power market

KW - Power system stability

KW - Stability analysis

KW - Load modeling

KW - Impedance

KW - Silicon

KW - Analytical models

KW - Tin

KW - power electronics

KW - power grid

KW - smart grid

KW - distributed energy sources

KW - grid stability

UR - http://www.scopus.com/inward/record.url?scp=84906766375&partnerID=8YFLogxK

U2 - 10.1109/pedg.2014.6878627

DO - 10.1109/pedg.2014.6878627

M3 - Conference contribution

SN - 9781479951154

SP - 1

EP - 7

BT - 2014 IEEE 5th International Symposium on Power Electronics for Distributed Generation Systems, PEDG 2014

ER -