Tuesday August 30 – 8.30-9.30 hrs – Aula Magna

	Paul K. Houpt Principal Scientist GE Global Research Automation and Controls Laboratory Niskayuna, NY USA

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Smart grid and renewables integration:

controls challenges and opportunities

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Abstract:
The increasing penetration of renewable energy sources from wind, solar and other distributed generation has created unprecedented opportunities to reduce dependence on fossil fuels and reduce carbon emissions. At the same time, complexity results from the interaction among generation and load dynamics of industrial and residential electric use. Demand from large industrial loads, plug-in electric vehicles, smart appliances, and building energy management (HVAC &lighting) present major challenges to coordinating and optimizing for the efficient and reliable transmission and distribution of electric power in the installed grid infrastructure. In this presentation we will examine some of the key controls issues that arise and look at progress in resolving them. The presentation is based in part on a working session on Renewable Energy and Smart Grid (RESG) held at the “International Workshop on the Impact of Control: Past, Present and Future,” in Berchtesgaden, Germany, October 2009 and supported by the IEEE Control Systems Society, the Technical University of Munich, and other sponsors.

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Paul Houpt biosketch:
Paul Houpt earned a B.S. from Syracuse University, an M.S. from New York University, and a Ph.D. from M.I.T., all in Electrical Engineering. He began his career as a member of technical staff in the Power Systems division of the former Bell Laboratories. He was a post doc in MIT’s Laboratory for Information and Decision Systems, where his research focused on various aspects of vehicular traffic monitoring and control. Paul joined the Mechanical Engineering faculty at MIT in 1978 as Detroit Diesel Allison Assistant Professor where research and teaching concentrated on control systems for vehicular propulsion systems, wind-power generation and manufacturing process control for semiconductor materials. Since 1985, he has been associated with the Automation and Controls Laboratory at GE Global Research, where he is currently a Principal Scientist. Paul’s current interests include optimal control of energy management on hybrid and conventional rail vehicles and networks. Dr. Houpt has served as an associate editor for the IEEE Transactions on Automatic Control, and has served on the Control Systems Society board of Governors. Since 1995, he has been a member of the Strategic Advisory Council of the Institute for Systems Research at the University of Maryland, and serves on the advisory board of Syracuse University’s LC Smith College of Electrical and Computer Engineering. He has been issued 16 patents (15 pending) on developments in energy management, process controls and transportation controls for various GE products, processes and vehicles. Dr. Houpt is a Fellow of the IEEE, and has twice received (2005 & 2009) GE Global Research’s Dushman award, its highest team award for leading successful commercialization of innovative technology.