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.
In 1982, the Flemish Government set up a comprehensive program in the field of microelectronics to strengthen the microelectronics industry in Flanders. IMEC has grown to become the world-leading independent research centre in nanoelectronics and nanotechnology. In 2008 IMEC’s own revenues amounted 224 million EUR and had a total staff of 1,771 employees of which 184 PhD students and 391 industrial residents. The SCT group (Solar Cell Technology) within IMEC performs new research on materials and concepts for photovoltaic devices as a renewable energy source. For the solar cell fabrication, both clean room facilities and a dedicated pilot line are used. Research covers both short-term activities such as process improvements that can be immediately applied in the industry, and medium-term activities such as process development for ultra-thin wafers and thin silicon layers on cheap substrates.
The Italian National Agency for New Technologies, Energy and Sustainable Economic Development (ENEA) is mainly called upon: to promote and carry out basic and applied research and innovation technology; to disseminate and transfer technologies, encouraging their use in productive and social sectors; to provide high-tech services, studies, tests and evaluations to both public and private bodies and enterprises. The activities on new Technologies for Energy, Renewable Sources and Energy Conservation are conducted by around 400 employees, 90% of which is made up of highly specialised and experienced researchers and technicians.
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.
Narec has invested over £150 million to create UK’s national translational research centre for accelerating the deployment of offshore renewable energy technologies. Our multidisciplinary team of scientists and engineers operate some of Europe’s largest translational research, development and testing facilities for offshore wind, wave, tidal and electrical network technologies. Clients and collaborators include: project developers, utilities, major manufacturers, universities, research organisations and supply chain companies. We play an important role in supporting delivery of the government’s policy objectives and in attracting and anchoring internationally mobile investment to the UK.
Merging the former LEG (Grenoble Power Electrical Laboratory), LEMD (Laboratory of Electrostatics and Dielectric Materials), and LMN (Laboratory of Magnetism of the Ship) in 2007, G2Elab nowadays covers a wide spectrum of expertise in the field Electrical Engineering. Its activity can be summarized by the following keywords: electrical energy, materials, innovative processes and systems, modeling and design methods and software. The research carried out in G2Elab ranges from long term research up to collaborative research supported by a strong involvement in partnerships with large companies and SMEs. With more than 100 permanent staff, 110 PhD and 50 Masters, G2Elab appears as a major actor both nationally and internationally in these areas.