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The global demand for energy will challenge energy supply directly impacting the productivity for future growth and prosperity of cities. Stability and efficiency across multi domain energy grids are crucial. Coupling technologies like Combined Heat and Power (CHP) allow theses multi-utility grids to be considered and operated as Hybrid Energy Network increasing even more efficiency levels and reducing overall CO2 footprint. Although multi-dimensional synergies are increasingly apparent, they neither have been comprehensively investigated so far.
In this project, a Hybrid Energy network control system for Smart Cities will be elaborated implementing novel Cooperative Control Strategies for the optimal interactions between multiple in Coexistence operated energy grids. This will improve the existing hybrid network. Exploiting higher levels of ICT in all energy systems, methods for enabling simultaneous optimization for individual response requirements, energy efficiencies and energy savings as well as coupled operational, economic and social impacts will be developed by
The demonstration targets will be two cities, Ulm in Germany and Skellefteå in Sweden. The outcomes of the project, namely the Cooperative control Strategies for the Cooperative Coexistence of Hybrid Energy Networks will be integrated in the existing ICT infrastructure of the demo sites at the city of Ulm and the city of Skellefteå. The results of the evaluation will be concluded and highlight the lessons learnt throughout the different processes. All activities planned for the dissemination will facilitate the take-up of the results, in particular targeting ICT Providers, municipal authorities, representatives from distributor and energy system operators and stakeholders of the smart cities and communities to ensure the replication of the Cooperative Control strategy for the Cooperative Coexistence of Hybrid Energy Networks.
last update: 2013-09-04