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Nuclear & Plasma Sciences Society

Distinguished Lectures

Dr. Hossam Gabbar

Faculty of Energy Systems and Nuclear Science, and Faculty of Engineering and Applied Science Ontario Tech University, Canada

Lectures

Resilient Nuclear-Renewable Hybrid Energy Systems

This talk will present the integration of nuclear-renewable integrated systems to support energy infrastructure. Different coupling mechanisms will be presented to support different installations and user requirements. Design and operation strategies and various technologies will be illustrated to deploy nuclear-renewable hybrid energy systems and their use for different applications in city, urban, and remote communities. Performance measures are proposed to evaluate different strategies. The talk will include techno-economic evaluation of interconnected nuclear-renewable micro hybrid energy systems with combined heat and power, and their impact on a number of implementation strategies.  Stratgies will be illustrated to deploy nuclear- renewable hybrid energy system (N-R HES), with considerations on scalability, capital cost, project lifetime, and other implementation parameters. Nuclear technologies will be presented, including Small Modular Reactor (SMR) or Micro Modular Reactor (MMR), as integrated within micro energy grids. Resiliency and performance measures will be discussed in view of a number of operation and control strategies to meet user requirements.

Advances in Plasma-Based Radioactive Waste Treatment

This talk presents advanced approaches for plasma-based radioactive waste treatment. Different designs of plasma torches and generation systems are discussed, including RF, DC, and microwave plasma, are analyzed and compared for waste-to-energy applications. Novel plasma torch design is proposed to support different scales and types of radioactive waste treatment. Process engineering techniques for gasification and pyrolysis process are integrated with the radioactive waste treatment process, which are illustrated with waste characterization. The proposed approaches showed reduced radioactive treatment costs, risks, volumes, in addition to reduced greenhouse gas emissions and improved lifecycle performance. Plasma systems are utilized for nuclear waste treatment for low, intermediate, and high radioactive waste. Process design is discussed for plasma torch that can reduce the volume of radioactive waste. Potential approaches are explored for mass separation that could be utilized for high-level radioactive waste. Simulation methods and experimental setups demonstrate lab-scale process technologies for plasma-based radioactive waste treatment.

About

Dr. Gabbar is a full Professor in the Faculty of Energy Systems and Nuclear Science, and cross appointed in the Faculty of Engineering and Applied Science, at Ontario Tech University (UOIT), where he has established the Energy Safety and Control Lab (ESCL), Smart Energy Systems Lab, and Advanced Plasma Engineering Lab. He is the recipient of the Senior Research Excellence Aware for 2016, UOIT. He is recognized among the top 2% of worldwide scientists with high citation in the area of energy. He is a Distinguished Lecturer of IEEE NPSS, and he is a Fellow IET (FIET). He is leading national and international research in the areas of smart energy grids, energy safety and control systems, and waste-to-energy using advanced plasma technologies. Dr. Gabbar obtained his B.Sc. degree in 1988 with first class of honor from the Faculty of Engineering, Alexandria University (Egypt). In 2001, he obtained his Ph.D. degree from Okayama University (Japan). From 2001 till 2004, he joined Tokyo Institute of Technology (Japan), as a research associate. From 2004 till 2008, he joined Okayama University (Japan) as an Associate Professor, in the Division of Industrial Innovation Sciences. From 2007 till 2008, he was a Visiting Professor at the University of Toronto. He also worked as process control, safety, and automation specialist in energy and oil & gas industries. Dr. Gabbar has more than 290 publications, including patents, books / chapters, journal, and conference papers.

Contact Lecturer

Contact Hossam Gabbar

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