特邀報告: Dr. Zhenyu Huang
報告題目:Computing and Computing Architecture to Maximize Grid Flexibility
地點:西主樓三區102
時間:2017年1月10日 9:00~16:00
聯系人:陳穎
Zhenyu (Henry) Huang (M’01 SM’05 F’17 IEEE) received his B. Eng. from Huazhong University of Science and Technology, Wuhan, China, and Ph.D. degree from Tsinghua University, Beijing, China, in 1994 and 1999, respectively. From 1998 to 2003, he conducted extensive research at the University of Hong Kong, McGill University (Canada), and the University of Alberta (Canada). He is currently Chief Engineer and Technical Group Manager at Pacific Northwest National Laboratory, Richland, Washington, USA. Dr. Huang has over 140 peer-reviewed publications. His research interests include high performance computing, phasor technology, and power system stability and simulation. Dr. Huang is a Fellow of IEEE and active in several IEEE Power and Energy Society (PES) technical committees. He led the Richland Chapter to win the 2007 IEEE PES Outstanding Small Chapter Award. He is the recipient of the 2009 IEEE Power and Energy Society Outstanding Young Engineer Award. Dr. Huang is a registered Professional Engineer in Washington State.
The power grid has evolved in recent years at an unprecedented pace with a new mix of electricity generation and consumption. This evolution results in emerging dynamics and increased uncertainties. There is a need to maximize grid flexibility to accommodate the increasing complexity due to such dynamics and uncertainties. Flexibility starts with deep understanding of the system, which heavily relies on computing. The complexity in the grid demands higher performance of computing tools. Historically, the performance of power grid computing tools naturally increases as computing hardware and software advance. Now computing technologies continue to evolve but on a different path. It is time to examine computing and the associated computing architecture for utilizing new high-performance computing resources.
This talk will present recent advancements in applying high performance computing to power grid applications. Extending from computing, a data-driven computing architecture is proposed to link measurements to computation and then to visualization, so computing methods and tools can leverage new data sources and account for new grid behaviors in order to ensure a reliable, efficient, and secure future power grid. It would harmonize the grid evolution and the information revolution and convert data to actionable information. Examples will be provided to illustrate the concept and value of such an architecture. The examples cover real-time stability assessment, transmission congestion management, and uncertainty quantification. In these examples, significant flexibility can be identified even when the grid is subject to many constraints. This will greatly facilitate the adoption of new generation and loads such as renewable energy and demand response.
日程安排
專家
單位
報告題目
時間
Zhenyu Huang
Pacific Northwest National Laboratory, USA
-Chief Engineer and Technical Group Manager, IEEE Fellow
Computing and Computing Architecture to Maximize Grid Flexibility
9:00~10:00
薛巍
bevictor伟德官网計算機系 & 地學中心
-副教授
神威太湖之光及其高性能計算應用
10:00~10:30
茶歇
10:30~10:45
張星
中國電科院
-國家電網仿真中心數字混合仿真室主任
國網仿真超算中心建設及其應用思考
10:45~11:15
汪玉
bevictor伟德官网電子系 & 北京深鑒科技
-黨委副書記 副教授 優青
Deep Learning on FPGA
11:15~11:45
午餐
11:45~13:30
周二專
北京科東電氣有限公司 & InterPSS
快速在線安穩分析系統(DSA)的研發
13:30~14:00
李國良
bevictor伟德官网計算機系
-副教授
Hybrid human-machine big data integration
14:00~14:30
陳穎
bevictor伟德官网電機系
-副教授
雲仿真平台CloudPSS構想和實踐
14:30~15:00
自由讨論
15:00~16:00