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Akronym
ResiliEntEE
Projekt Titel
Resilience of integrated energy networks with a high share of renewable energies
Förderkennzeichen
03ET4048
Funding code
945.02-668
Startdatum
September 1, 2017
Enddatum
June 30, 2021
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Projektträger
The Project ResiliEntEE
The aim of this joint project of scientists from the fields of energy and electrical engineering is to reliably determine the resilience of future energy supply systems and to find possibilities to increase it. To achieve this goal the models which were developed in the research project TransiEnt.EE to describe optimized integrated energy systems according to environmental and economic aspects, will be refined and their resilience will be evaluated. Resilience is to be understood as the ability of a system to sustain its functions even at the occurence of local disruptions. Therefore following tasks will be realized in the project:
1. expanding the models by spatially resolved, stationary and dynamic computations within the electric supply grids
2. gradually expanding the considered area from Hamburg to Northern Germany
3. developing and modelling different automation concepts
4. developing suitable critical scenarios and test cases.
As far as possible the software will be written using the equation-based and object-oriented programming language Modelica. After the completion of the project these model will be publicly available.
The aim of this joint project of scientists from the fields of energy and electrical engineering is to reliably determine the resilience of future energy supply systems and to find possibilities to increase it. To achieve this goal the models which were developed in the research project TransiEnt.EE to describe optimized integrated energy systems according to environmental and economic aspects, will be refined and their resilience will be evaluated. Resilience is to be understood as the ability of a system to sustain its functions even at the occurence of local disruptions. Therefore following tasks will be realized in the project:
1. expanding the models by spatially resolved, stationary and dynamic computations within the electric supply grids
2. gradually expanding the considered area from Hamburg to Northern Germany
3. developing and modelling different automation concepts
4. developing suitable critical scenarios and test cases.
As far as possible the software will be written using the equation-based and object-oriented programming language Modelica. After the completion of the project these model will be publicly available.