ECN is the main institute for energy research in The Netherlands. ECN develops high-quality knowledge and technology for the transition to a sustainable energy supply, and introduces this technology to the market. ECN’s focus is on energy conservation, renewable energy and an efficient and clean use of fossil fuels.evelops high-quality knowledge and technology ECN Solar Energy, with its staff of 85 experts, offers a wide range of R&D activities on PV materials and -processing technologies, cell- and module design. These are available for transfer and implementation on laboratory-, pilot- and production scale. Our extensive facilities for solar cell processing and characterisation are well suited to study almost all R&D issues currently relevant for the PV industry.
The European Commission`s Joint Research Centre (JRC) has a significant activity in the field of photovoltaics, which takes place in the Renewable Energy unit of the Institute for Energy. A major feature is the European Solar Test Installation (ESTI), which is a European reference laboratory for the verification of the power and energy generation of photovoltaic devices. Within the SOPHIA project, JRC is leading the networking sub-task on energy prediction and participate in the joint research activity on module lifetime, as well as offering access to its facilities.
Indian Institute of Technology, Delhi is a premiere research institute in India. Several research publications, patents and break -through innovations have seen the sun from here. Apart from degree courses including under -graduate, post -graduate and PhD, almost every field has a research laboratory well equipped and with expert guidance from world -renowned professors. I have worked extensively on power quality improvement in standalone generating systems with simulation and real -time implementation in laboratory environment with successful validation of results. The institute ranks among the top universities in the world especially in Electrical Engineering.
INESC TEC is an Associated Laboratory coordinated by INESC Porto, a private nonprofit institution having as associates the University of Porto, INESC and the Polytechnic Institute of Porto. The activity at INESC TEC runs under the paradigm of the knowledge to value production chain: knowledge and results generated at basic research are typically injected in technology transfer projects and therefore they receive added social relevance. The existence of an Innovation and Technology Transfer Unit assures the effectiveness of this model.
The Institute was founded in 1946 as the LAS Institute of Energetics and Machine-Building. As a result of the reorganization of the recent years, 12 laboratories function at the Institute, and the Latvian Technological Centre was founded in 1993 embracing 32 firms, mainly connected with the scientific research areas of the Institute of Physical Energetics.
Laborelec is a leading research and competence centre in electrical power technology. It was established in 1962 in order to support Belgian electricity companies with research, development, and specialized services. Today, it is part of GDF SUEZ, a world leader in energy. Our competences cover the entire electricity value chain: generation, transmission, distribution, storage and end-use. We offer specialized research and services in each of these domains, to companies in all parts of the world. Our headquarters are located near Brussels, and we also operate branch offices in the Netherlands, in Germany and in the Middle-East and a subsidiary in Chile.
CREST was established in 1993, striving to be a national centre of excellence in the field of renewable energy system technology research. CREST is one of the leading providers in renewable energy education in Europe, operating courses on undergraduate as well as postgraduate level. Currently more than 350 students are registered on the various postgraduate courses on renewable energy systems technologies, which include a distance learning course. The applied photovoltaics research group will lead the participation in this.
R&D Nester (Centro de Investigação em Energia REN – State Grid, S.A.) is a research centre created through the partnership between REN (Redes Energéticas Nacionais), the Portuguese TSO, and State Grid Corporation of China, the Chinese TSO and DSO. As an energy research centre, R&D Nester’s mission is to provide an international platform for knowledge, delivering innovative solutions to be applied into energy systems; providing new tools, strategies and processes, well-tuned to the new energy paradigm, serving as a driving force towards more efficient and sustainable energy systems. R&D Nester main areas of research and expertise include: renewable energy management; smart grid technologies; power systems and communication systems simulation; power networks planning; power systems operation; energy markets and economics.
SINTEF Energy Research is part of the SINTEF Group, one of the largest non-profit research organizations in Northern Europe. SINTEF Energy Research is engaged in contract research in the national and international marketplace. Its R&D activities are focused on power production and energy converting, and also transmission and use of energy, including industrial processes and products, indoor climate and energy use in buildings. Issues concerning the deregulation of the electricity markets in Scandinavia and other parts of the world have for many years been a main activity. Contributions are also made to different energy related problems, which may arise onshore and offshore. These tasks range from system analysis to component and equipment assessments. SINTEF Energy Research has a staff of about 230 that ensures close co-operation between power engineering and mechanical engineering and focuses particularly on environmental issues. The institute has been a major actor on the energy research arena in the EU for many years.
TUBITAK is the major RTD agency of Turkey. Energy research is ongoing in TUBITAK Marmara. Research Center (MRC) Energy Institute. Research areas include: testing and modelling power plant control systems. evaluation of the user factor; measuring type of load. Evaluating the technical and economical feasibility of several distribution automation systems. analysing robustness of power systems; development of automation systems for production and distribution facilities; and determination of the criteria for the development of power systems.