周孝信院士

中国电力科学研究院

中国科学院院士， IEEE Fellow。现任中国电力科学研究院名誉院长、博士生导师，《CSEE Journal of Power and Energy Systems》期刊主编。长期从事电力系统分析数学模型和方法研究。1965 年毕业于清华大学。历任中国电力科学研究院系统研究所所长、院总工程师，国家自然科学基金委员会工程与材料科学部主任。

1973 年针对我国第一条330kV 超高压输电线路建设和跨省输电系统振荡事故分析的实际需要，开创研究计算机在电力系统中应用的数学模型和计算方法，开发应用潮流和稳定计算程序，获1978 年全国科学大会奖。1981 年自主研发大型电力系统分析软件（PSASP），提出用户自定义建模、复故障数学建模和直流输电系统建模方法，广泛用于全国电力系统，获1985 年首届国家科技进步一等奖。1996 年主持超高压输电可控串补的FACTS 技术研究，并首次用于220kV和500kV 可控串补工程，获2008 年国家科技进步一等奖。同年获IEEE PESNari Hingorani FACTS 奖。21 世纪初主持“电力系统全数字实时仿真”研发。提出采用先进的机群架构和分网并行算法，创新研制出高性能电力系统全数字实时仿真装置（ADPSS）在国内外推广应用，获2009 年国家科技进步奖一等奖。2009 年获何梁何利基金科学与技术进步奖。 2012—2019 年先后提出三代电网和新一代电力系统的概念、发展模式和关键技术，为国家制定中长期能源电力发展目标和政策对策提供咨询建议。

Prof. Xiaoxin Zhou

China Electric Power Research Institute, China 

Prof. Xiaoxin Zhou is the President Emeritus of the Chinese Academy of Sciences, IEEE Fellow, and the Editor-in-Chief of the CSEE Journal of Power and Energy Systems. He graduated from Tsinghua University in 1965 and has been engaged in the research of mathematical models and methods for power system analysis for a long time. He has been the director of the Institute of Systems Research of China Electric Power Research Institute and the chief engineer of the Institute, and the director of the Engineering and Materials Science Department of the National Natural Science Foundation of China.

In 1973, in response to the actual needs of China's first 330kV ultra-high voltage transmission line construction and cross-province transmission system oscillation accident analysis, he pioneered the research of mathematical models and calculation methods for computer application in power systems, and developed the application of tidal current and stability calculation programs, which won the 1978 National Science Congress Award. 1981, he independently developed large-scale power system analysis software (PSASP), and proposed user In 1996, he presided over the research of FACTS technology for controllable series complement of ultra-high voltage transmission, which was used for the first time in 220kV and 500kV controllable series complement projects, and won the first prize of National Science and Technology Progress Award in 2008. He was awarded the IEEE PESNari Hingorani FACTS Award in the same year, and was in charge of the research and development of "Power System All-Digital Real-Time Simulation" at the beginning of the 21st century. In 2009, he was awarded the First Prize of National Science and Technology Progress Award, and in 2009, he was awarded the Science and Technology Progress Award of He Liang He Li Foundation. From 2012 to 2019, he successively proposed the concept, development model and key technologies of the three generations of power grids and the new generation of power systems, and provided consulting suggestions for the national formulation of medium and long-term energy and power development goals and policy countermeasures.