No Blog Eletrônica de Potência você encontrará informações sobre teses,artigos,seminarios,congressos,tecnologias,cursos,sobre eletrônica potência. “TEMOS O DESTINO QUE MERECEMOS. O NOSSO DESTINO ESTA DE ACORDO COM OS NOSSOS MERITOS” ALBERT EINSTEIN. Imagination is more important than knowledge, for knowledge is limited while imagination embraces the entire world. EL FUTURO SE CONSTRUYE HOY,EL SUCESSO NO ES FRUTO DE LA CASUALIDAD,SE HUMILDE ,APRENDE SIEMPRE CADA DIA.
AUTOR DO BLOG ENG.ARMANDO CAVERO MIRANDA SÃO PAULO BRASIL
"OBRIGADO DEUS PELA VIDA,PELA MINHA FAMILIA,PELO TRABALHO,PELO PÃO DE CADA DIA,PROTEGENOS DO MAL"
quarta-feira, 12 de dezembro de 2012
Investigating Structure Variation of Electrode Materials for Lithium Ion Batteries
Hong Li is a Professor of Key Laboratory for Renewable Energy, Institute of Physics (IOP), Chinese Academy of Sciences (CAS), and a deputy director of Beijing National Laboratory for Condensed Matter Physics. He obtained his BS degree in physical chemistry from Lanzhou University in 1992, Master-degree in Electrochemistry in Changchun Institute of Applied Chemistry, CAS in 1995 and the PhD degree in condensed matter physics from IOP, CAS in 1999. He was a post-doctor in Max-Planck-Institute for Solid state Research from 2001 to 2003 and a visiting scholar in Brookhaven National Laboratory in 2007 and 2011. He has studied advanced materials and energy storage/conversion mechanisms in batteries and other solid state ionic devices. He has published over 140 papers in peer-reviewed SCI journals with over 4000 times citation and the H-index is 34. He has given invited 30 talks in international academic conferences. He has filed over 60 patents and over 20 have been granted.
Authors: Hong Li
The Changing Energy Mix, Implications of the Shale Gas Boom for the Electric Power Sector
Description:
Summary: Transitioning to a sustainable low-carbon energy system poses one of the great challenges of the 21st century. The Energy Innovation Series brings leaders from government, law, finance, industry, and academia to discuss key aspects of this challenge and some of the innovative approaches and solutions being fashioned across a range of sectors. During academic year 2012-13, the series will focus on the changing energy mix in the United States and abroad, the implications of shale gas on the electric power sector, financing for energy innovation, the changing utility business model, and pathways to scale for renewable energy. This half-day conference will explore some of the dramatic changes taking place in the energy sector, with particular attentions to the U.S. electric power sector.
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Authors:
Lance Astrella, William Boyd, Jeff Logan, John Mork
Energy Efficiency In Buildings And Heat Supply Solutions: A German Perspective For The Nuclear Shutdown
Description:
Beginning with some background information on the unique German position regarding the energy supply eliminating any nuclear power by 2022 but enforcing the use of renewable energy sources, the challenges for both the building and the power generation sector will be highlighted. The talk will introduce opportunities to improve energy performance of buildings by new and innovative HVAC concepts as well as for increasing the penetration of renewable and environmental energy sources for heat and power supply in cities. That is also why a particular focus will be on other relevant aspects as multi-level district heating, combined heat and power generation and the proper balance between large-scale energy generation in heat and power plants and distributed small-scale heat and power generation in buildings in terms of a global optimum in energy use and emissions. Currently ongoing research projects at the Technical University of Dresden will be presented.
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Authors:
Clemens Felsmann
Modeling, Monitoring and Control of Wind Turbine Drive-trains
Summary: The wind turbine drive‐train is an integral part of the turbine that converts rotational kinetic energy from the wind to electrical energy. Ensuring reliable and robust operation of the drive‐train necessitates developing an accurate dynamic response model that includes its aero‐dynamic interaction with the wind, torsional and translational responses of its mechanical components, as well as electro‐mechanical interaction at the generator. This presentation will describe a high‐fidelity lumped mass model of the wind turbine drive‐train, which is integrated with FAST, an openly available aero‐elastic code developed by the National Renewable Energy Laboratory (NREL).
Jaspreet Singh Dhupia is an Assistant Professor at Nanyang Technological University, Singapore since July 2008. Prior to that, Prof. Dhupia graduated with a PhD and MS in Mechanical Engineering from the University of Michigan, Ann Arbor, and a B.Tech. from Indian Institute of Technology, Delhi. His doctoral research was carried out at the Center for Reconfigurable Manufacturing Systems funded by National Science Foundation. Currently, his research activities are funded by several government and industrial organizations in Singapore, which include the Ministry of Education, Maritime Port Authority, Rolls-Royce Singapore Pte. Ltd., and ABB Singapore Pte. Ltd. His research focuses on drive-train controls, monitoring, and modeling for different applications, such as ships, aircraft, and wind turbines.
High-altitude Wind Energy Generation
Sustainable energy generation is one of the most urgent challenges that mankind is facing nowadays. Many countries have set ambitious objectives to increase the share of energy produced from clean and renewable sources. Unfortunately, the actual renewables are still not competitive with respect to fossil fuels, due to the high costs of the related technologies, their variable and non-uniform availability and their low power density per unit area.
Lorenzo Fagiano, Ph.D. Lorenzo Fagiano received the Master's degree in Automotive Engineering in 2004 and the Ph.D. degree in Information and System Engineering in 2009 from Politecnico di Torino, Italy. In 2005 he worked for Fiat Research Centre, Italy, in the field of active vehicle systems. In 2007 he spent a three-months visiting period in the Optimization for Engineering Center (OPTEC) of the Katholieke Universiteit Leuven. Lorenzo Fagiano is currently a Marie Curie fellow at Politecnico di Torino and a visiting researcher at the University of California, Santa Barbara. His main research interests include high-altitude wind energy generation using controlled tethered wings, constrained robust and nonlinear control, set membership theory for control purposes and automotive control systems. Lorenzo Fagiano is co-author of about 50 papers published in international journals, conference proceedings and book chapters. He is recipient of the ENI award "Debut in Research" prize 2010, of the Maffezzoni prize 2009 and of a Marie Curie International Outgoing Fellowship.
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