IEEE Transaction Power System State Estimation Smart Grid Weight Little. A novel concept based on utility-interactive power electronics - equipped with appropriate control algorithms - will be developed to increase grid capacity and control and steer the power flow within the network and thereby allow for larger numbers of new renewable technologies to be integrated in the future energy system - at acceptable costs – without the direct need for consumer engagement. Distribution HSE (DHSE) and meter placement for SDSE are also presented. Problem approach To increase the flexibility and control within the lower voltage levels of DNO's distribution grids, the feasibility of reconfigurable DC links will be investigated. The Smart Grid will be able to make better use of these energy resources. In addition, the project aims to: 1 investigate the possibility of creating innovative power-balancing and voltage control algorithms for distribution grids containing a high participation of renewable energy and power electronic devices 2 investigate how these innovative power-balancing and voltage control algorithms will interact with other possible smart energy mechanisms 3 identify design requirements, new topologies and constraints of such utility-interactive power electronic systems. The main objective of the FLINK project is to investigate and develop new concepts to increase the flexibility and control of the distribution grids, particularly at the lowest voltage levels. The Smart Grid is a 21st century concept, reducing CO2 emissions through more sustainable energy use while meeting growing demand for electricity worldwide. However, next to these service options the DNO needs solutions that are fully controllable by themselves. Comprehensive solutions in the energy sector - design, production, and construction of facilities and objects on the territory of. demand response at end users or electricity storage. There are several options to realize this flexibility, e.g. The challenge for the distribution network operator (DNO) is then to maintain a (very) high level of availability as well as reliability and quality of supply (QoS) throughout its entire operation, despite these impending changes and, at the same time, limiting the additional investment effort. Simultaneously, the distribution grid itself will become significantly more complex to manage, in particular with regards to acceptable voltage deviations. If the anticipated number of such new elements is to be fully integrated into the existing distribution grid, the existing connections will become stressed significantly in trying to cope with the increased, bi-directional power flows. The future electricity supply system will be characterized by large quantities of dispersed and renewable energy sources - like solar and wind - and new energy consumers like heat pumps and electric vehicles.
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