Arnhem, The Netherlands — (METERING.COM) — May 14, 2012 – The twenty-six partners of the Smart Energy Collective have signed a renewed cooperation agreement for the approval of the second phase of its smart grid initiative, which involves the development of five large scale demonstration projects in the Netherlands.
This marks the start of the actual design phase of the five trial test sites. The projects will be implemented at Schiphol airport, in a few offices of ABB and Siemens, and in residential districts in Gorinchem, Heerhugowaard, and Goes.
“We all know that we are globally evolving towards an energy system in which the share of sustainable energy will be many times higher, and in which electricity generation will be far more decentralized than it currently is,” commented Pier Nabuurs, chairman of the Smart Energy Collective Steering Committee. “In order to make this possible, an intelligent energy system is required that uses a combination of innovative technologies and services, and in which the consumer is central.”
Based on the implementation of the five demonstration projects involving different user groups – industry, offices, existing residential districts, and newly developed districts – the Smart Energy Collective wants to test the smart grids in actual practice, as well as to provide an important impulse to standardization. During a survey conducted during the first phase, it was evident that there are more than 6,000 relevant standards that play a role in the new technologies, which will be introduced to the market over the coming years.
Finally, the objective is to create a common market for energy services that is of a sufficiently large scale. Working groups have been established for standardization, market mechanisms, services and business cases, smart grids, privacy and security, and ICT infrastructure, in order to establish a solid foundation for the design of the five demonstration projects, as well as for future projects.
The five trial sites were selected in diverging environments as a means of acquiring an all-encompassing overview:
Industry: The Industry demonstration project will be implemented at Schiphol Airport and is focused on small, medium, and large industries. The objective is to prevent local network congestion and to maintain a local energy balance through the use of local electricity generation with one or more combined heat and power (CHP) plants.
Offices: The Offices demonstration project will consist of a few offices of Siemens and ABB, and potentially other partners in the collective, to primarily investigate how the flexibility in the energy demand of these offices can be exploited by energy management systems, and the introduction of commercial generating sets with a complete portfolio of offices.
All electric residential district: An entirely electric district provides a unique electricity market profile because the entire demand is electric, and local generation is effected through means of solar panels. The charging of electric vehicles and space heating, through electric heat pumps, requires flexibility to reduce the peak load. Storage of electricity, potentially supplemented by local generation using biogas-fired CHP plants, supports this flexibility and the network required for this demonstration project. The trial test site will be implemented in Gorinchem.
Gas and electricity network district: This trial test site, which will be implemented in Heerhugowaard, is focused on the potential of existing residential buildings, where gas and electricity applications are brought into competition with each other. In addition, the project will investigate how to get the best out of these two worlds.
District heating area: This demonstration project in Goes distinguishes itself from others, due to the fully integrated heat and electricity solution. Many possibilities will be investigated, including opportunities for introducing comfort-based services. The desired flexibility will be realized, as well as the smart electricity and heating market optimized on the basis of intelligent underground thermal energy storage systems.