Male, Han nationality, born in September, 1930, from Hangzhou, Zhejiang. 1957 graduated from department of mechanical engineering, Northeastern University, and stayed as a teacher. He is currently the chairman of China Vibration Engineering Society, a member of China Committee of IFToMM (International Federation of Machine Theory and Machinery) and a member of International Rotor Dynamics Technical Committee. Member of the 6th, 7th, 8th and 9th CPPCC National Committee. He is also the director and part-time professor of the Academic Committee of the State Key Laboratory of Shanghai Jiaotong University. 199 1 was elected as an academician of China Academy of Sciences.

He founded a new discipline "Vibration Utilization Engineering" which combines vibration science with mechanical science. He has published 6 monographs and co-authored more than 250 papers, and the monograph "Theory and Application of Vibrating Machinery" won the second prize of national excellent scientific and technological books. Together with the comrades of the scientific research group, we have successfully developed more than ten new types of vibrating machinery and engineering machinery, and won two international awards, three national awards and 10 provincial and ministerial awards, which have created great economic and social benefits for the country.

Under his guidance and co-guidance, 30 graduate students obtained master's degrees and 16 obtained doctor's degrees. He organized two international academic conferences and served as the chairman of the academic Committee of the international conference. He has been invited to give lectures and attend international academic conferences in more than ten countries such as Japan, Australia and Germany, giving more than 20 academic reports and reading more than 40 papers. It has been rated as a provincial and municipal model worker for many times, and 1983 has been rated as a special model worker in Shenyang.

Qiu Zhuxian, Academician of China Academy of Engineering

Male, born in May, 192 1, metallurgist, academician of China Academy of Engineering. He is currently a professor at Northeastern University. He devoted himself to the basic and applied research of aluminum metallurgy and molten salt electrochemistry, and made new discoveries in molten salt wetting, molten salt infiltration, anode effect and metal mist formation, forming a new discipline of molten salt interface phenomenon and interface reaction. This paper summarizes the law of saving electric energy, puts forward effective measures, and makes important contributions to the construction and development of aluminum industry in China. In the past 40 years, he has written more than 65,438+050 papers on light metal metallurgy, including two monographs on physical chemistry of aluminum metallurgy and aluminum smelting in prebaked cell, three textbooks on aluminum electrolysis and seven books on metallurgical thermochemistry. The physical chemistry of aluminum metallurgy can combine the basic theory of physical chemistry with aluminum. He and his colleagues won the second prize (research on metal dissolution and current efficiency) and the first prize (research on interface phenomenon and interface reaction in aluminum electrolysis) of the Science and Technology Progress Award of the State Education Commission in 1989 and 1990 respectively, and won the third prize of the National Natural Science Award in19 (research on some physical and chemical problems in aluminum electrolysis) Qiu Zhuxian participated in the trial production of large electrolytic cells. Appraised by China Nonferrous Metals Industry Corporation, the current efficiency reaches 90%, and the power consumption is reduced to 1.35 million kilowatts/ton of aluminum. The project won the first prize of Nonferrous Metals Industry Corporation. This trough has been widely used in Fushun aluminum plant and Baotou aluminum plant.

Fang Zhaolun, Academician of China Academy of Sciences

Analytical chemist, academician of China Academy of Sciences.

1934 August 16 was born in Tianjin. 1957 10 graduated from the chemistry department of Peking University. He has served as an intern researcher, research assistant, deputy director and researcher at Shenyang Institute of Applied Ecology, Chinese Academy of Sciences. At present, he is the director, professor and doctoral supervisor of the Analytical Science Research Center of the School of Science of Northeastern University, the director, professor and doctoral supervisor of the Institute of Micro-analytical Systems of the Department of Chemistry of Zhejiang University, the director of the Analytical Instrument Society of China Instrumentation Society, the director of the professional committee of flow injection analysis, and the editor or consultant of more than ten international analytical chemistry journals J. Analytical Atomic, Spectrometry and Talanta. Such as Journal of Analytical Chemistry, Journal of Spectrochemistry Series B, Journal of Environmental Analytical Chemistry, Fei Sen Yus Journal of Analytical Chemistry and China Analytical Chemistry.

Since 1977, Professor Fang Zhaolun has done a lot of pioneering work for the development of flow injection analysis in China. Since 1984, the National Natural Science Foundation has supported five research projects and achieved many important achievements in theory and experimental technology. His current research fields include flow analysis, atomic spectrum analysis and microfluidic analysis in microchip and its combination technology. The main research directions are sequential injection-atomic absorption and atomic fluorescence spectrometry, flow injection capillary electrophoresis analysis, intelligent flow photometric analysis system, microfluidic analysis chip and the application of flow analysis in biological process analysis. Since 1995, the research group led by him has done a lot of pioneering work in the development of microfluidic chips, and won the support of the key fund of the National Natural Science Foundation for the first time in this field.

Academician Zhang Siying of China Academy of Sciences

Male, Han nationality, born in Zhangqiu County, Shandong Province, on April 5, 1925. /kloc-0 graduated from Wuhan university in August, 948, 1949/kloc-0 taught at northeastern university in October. 1September, 1957 to1July, 1959, studied automatic control theory in the Department of Mathematical Mechanics of Moscow University. 1978 promoted to professor. 1983 so far, doctoral supervisor.

More than 200 papers have been published on the stability theory of automatic control theory and complex control system theory. Monograph Differential Countermeasures, editor-in-chief Modern Control Theory. Participated in the development of the "Red Arrow -73" anti-tank missile, and successively won the National Natural Science Award and the State and Ministry of Metallurgy Award. The research results of the subject "Differential Game and Qualitative Extreme Principle" were all awarded by the State Education Commission.

At present, he teaches two courses for doctoral students, such as differential geometry method. Trained 2 1 doctor, more than 30 masters and 2 postdocs. 198 1 year later, he served as the editor-in-chief or deputy editor-in-chief of Control and Decision respectively. 1983 served as the editorial board and editor-in-chief of the control theory volume of the encyclopedia of China, Automatic Control and System Engineering. 65438-0985, member of the Second Discipline Evaluation Group of the State Council Academic Degrees Committee.

1978 has been rated as a model worker of the Ministry, province and city or a special model worker. 1990 was awarded as "National Advanced Scientific and Technological Worker in Colleges and Universities" by the State Education Commission and the State Science and Technology Commission. 1997 was elected as an academician of China Academy of Sciences. 1998 won the national "May 1st" labor medal.

Lu Zhongwu, Academician of China Academy of Engineering

Male, Han nationality,/kloc-0 was born in Shanghai in June, 929. 1953 graduated from the postgraduate course of metallurgical furnace in Northeast Institute of Technology. 1982 promoted to professor. Dean of Northeast Institute of Technology from 1984 to 199 1. 1986 doctoral supervisor of metallurgical thermal energy engineering. 1997 was elected as an academician of China Academy of Engineering.

Led the establishment of the first doctoral program in metallurgical furnace specialty and metallurgical thermal energy engineering in China. Based on the potential flow theory, the gas mechanics of shaft furnace is studied, and the main changes in the furnace are successfully judged by the static pressure of blast furnace shaft. The reasons for the decline of indexes after a batch of ordinary open hearth furnaces were changed to inward tilting were found out, which ended the disputes in various places and made clear the measures for various factories. The basic thermal equation of flame furnace is established. "Down-fired heating furnace" won the second prize of national scientific and technological progress. The concept of energy carrier is put forward, and the theory and technology of energy saving in iron and steel industry system are established. He has written or participated in more than 0 monographs and textbooks 10, and has written more than 0 papers 100.

During his tenure as dean, he carried out the idea of "two centers" of teaching and scientific research, and was allowed to pilot a graduate school. In 2000, he presided over the development outline of the college and put forward the concept of "six elements" in running a school. Establish the policy of serving metallurgical industry and local economy. Actively promote international academic exchanges and learn from the experience of universities at home and abroad. The proposal of establishing science and technology development zone and building "University Science Park" was adopted and implemented by Shenyang Municipal Government.

Academician of Chai Tianyou China Engineering Institute

Academician Chai Tianyou, an internationally renowned expert in control science and engineering, received his doctor of engineering from 65438 to 0985 and stayed in Northeastern University as a teacher. 1988 went to Australian national university as a senior visiting scholar; 1986 promoted to associate professor; 1988 was promoted to professor, and 1990 was doctoral supervisor.

At present, he is the director of the Automation Research Center of Northeastern University, the director of the National Metallurgical Automation Engineering Technology Research Center, the member of the Technical Bureau of the International Federation of Automatic Control (IFAC) and the chairman of the technical coordination committee for manufacturing and instrumentation of IFAC (1996- 1999), the member of the discipline evaluation group of the 3rd, 4th and 5th the State Council Academic Degrees Committee, and the deputy director of the expert committee in the field of advanced manufacturing and automation of the National 863 Program.

Professor Chai Tianyou has long been engaged in the research of application foundation and engineering technology in the fields of intelligent decoupling control, adaptive control and integrated automation of process industry, and has successively presided over more than 30 scientific research projects such as National Natural Science Key Fund, 863 High-tech Plan, National Key Research Plan, National High-tech Industrialization Project and Major Enterprise Automation Project, and achieved many innovative achievements, resulting in remarkable social and economic benefits.

In order to solve the problem that it is difficult for conventional decoupling control theory and method to effectively control the complex industrial process with strong coupling of uncertain multivariable, he proposed the research direction of multivariable adaptive decoupling control for the first time in the world, broke the traditional decoupling control idea, proposed an online decoupling control strategy based on controller design and direct decoupling of closed-loop system, and systematically proposed more than 20 multivariable adaptive decoupling control algorithms. The stability and convergence analysis of the algorithm are established, and the application research is carried out in combination with the complex industrial processes such as power, metallurgy and other industries with strong coupling of multivariables, strong nonlinearity, time-varying parameters, great changes in production conditions and operating conditions, and difficulty in putting conventional control systems into operation. The proposed adaptive decoupling control method has been successfully applied to metallurgical multi-stage heating furnace, waste heat boiler, vertical looper of alloy steel bar continuous rolling mill, large wind tunnel, chemical distillation column and so on, and achieved remarkable application results. The published papers of this achievement were included in SCI 10, 37 in EI, and cited by SCI for 38 times. He was invited to give a special report at the international conference, and published a monograph "Multivariable Adaptive Decoupling Control and Its Application" with the support of the National Science and Technology Academic Works Publishing Fund. This achievement won the first prize of natural science in Liaoning Province in 2002.

He led the research group to combine the adaptive decoupling control method with intelligent control and computer distributed control technology, and developed the intelligent decoupling control technology and system, which was applied to the complex industrial processes such as ball milling and pulverizing system of domestic 200,000-kilowatt generator set and machine-boiler coordination of imported 300,000-kilowatt generator set, and solved the problem that the conventional control system could not be put into automatic operation due to its comprehensive and complex characteristics such as strong multivariable coupling, strong nonlinearity, time-varying parameters and frequent working conditions, resulting in high energy consumption and serious pollution. "multivariable intelligent decoupling control technology and application" won the second prize of 1999 national scientific and technological progress, and "multivariable intelligent decoupling control theory, method and application" was rated as the top ten scientific and technological progress in China universities by 1999.

He put forward an optimal control method of complex industrial production process with comprehensive production index as the goal and integrated modeling and control as the means. He led the research group to solve the problems of low grade of mine resources in China, complex mining, dressing and smelting production process, difficult on-line continuous measurement of key process parameters, changeable working conditions, harsh operating environment, and difficult to realize optimal control of production process, put forward the optimization control technology of mineral processing production process and the overall solution of enterprise integrated automation, and developed the enterprise integrated automation system. This technology has been successfully applied to enterprises such as Paishanlou Gold Mine and Jiuquan Iron and Steel Concentrator in Liaoning Province, and has produced remarkable economic and social benefits. The paper reflecting this achievement was invited twice to give a special report at the international conference of the International Federation of Accountants. "Integrated Automation System of Gold Mineral Processing Production Process" won the special prize of gold scientific and technological progress from 65438 to 0999 by the State Economic and Trade Commission, and "Integrated Automation System of Gold Mining Enterprises" won the second prize of national scientific and technological progress in 2002.

Aiming at the problems that it is difficult to realize automatic control in complex industrial processes such as uncertain characteristics of the controlled object, non-minimum phase and open-loop instability, various disturbances, unmodeled dynamics, actuator failure, unpredictable output, mismatch between large detection sampling period and small control period, and strong nonlinearity, intelligent control such as fuzzy control and neural network is combined with adaptive control. More than 20 control algorithms suitable for complex industrial processes, such as random adaptation, feedforward adaptation, robust adaptation, fault-tolerant adaptation, reasoning adaptation, self-tuning PID and nonlinear adaptation, are creatively proposed, and the stability and convergence analysis of the algorithms are established. The above achievements won the first prize of scientific and technological progress of the State Education Commission1991(Class A). He led the research team to carry out industrial research combined with complex industrial processes, combined adaptive control with intelligent control, and proposed adaptive control technology suitable for complex industrial processes. Combining with the construction project of new steelmaking-refining-continuous casting-continuous rolling process production line in Fugang, he put forward key automation technologies such as looper decoupling control technology with nonlinear adaptive compensation, which ensured the safe, reliable and efficient operation of the first alloy steel bar production line in China and achieved remarkable economic benefits.

Thirty-eight papers published in the research results were retrieved by SCI, 170 by EI, and 76 papers published in important international conferences were retrieved by ISTP, winning 2 second prizes for national scientific and technological progress, 8 provincial and ministerial prizes and 1 first prize 1. The research results were highly praised by international experts, and they were invited to give lectures in more than 20 foreign universities and hosted international conferences for 6 times. Northeastern University Automation Research Center was established and became a national engineering technology research center. A number of postdoctoral, doctoral and master students have been trained, among which * * * 9 postdoctoral students have left the station, more than 40 doctoral students have obtained doctoral degrees, and 100 master students have obtained master degrees. A young R&D team has been trained and built, some of which have become the academic backbone of the automation research center, and some have become the technical backbone of Dongda Automation Company. Dongda Automation Company, which he led, was awarded the National 863 High-tech Plan Industrialization Base and the Top Ten School-run Enterprises in Liaoning Province.

He is rigorous in his studies, decent in style, good at cooperation and brave in innovation, and has made outstanding contributions to the development of control theory and control engineering and the cause of industrial automation in China. In 2002, he won the Science and Technology Progress Award of He Liang Heli Fund and the Science and Technology Meritorious Award of Liaoning Province in 2003. He also won the honorary titles of National May 1st Labor Medal Winner, National Excellent Teacher and Special Model Worker in Liaoning Province.

Academician of Wang Guodong China Engineering Institute

Wang Guodong, male, born in June, 1942, was born in Dalian, Liaoning. He is currently the deputy director of the Academic Committee of the State Key Laboratory of Rolling Technology and Continuous Rolling Automation of Northeastern University. He used to be the director of the State Key Laboratory of Rolling Technology and Continuous Rolling Automation.

Academician Wang Guodong is mainly engaged in the research of rolling theory, technology and automation, and has made a series of innovative achievements in shape theory and shape control, prediction and control of microstructure and properties of hot rolled strip, plastic processing theory and finite element method, artificial intelligence optimization of rolling process and new product development of strip, which has had a great impact on the development of rolling theory and technology.

Undertake major national basic research and planning projects (973), national high-tech projects (863), national key projects and major natural science foundation projects. Published papers have been included by SCI and EI for more than 200 times, with 4 monographs and 4 translations. Won the first prize of the National Science and Technology Progress Award 1, the second prize 1, and the provincial and ministerial science and technology progress award 15. He used to be the vice chairman of the Rolling Society of China Metallurgical Society, the director of the Academic Committee of Rolling Theory and New Technology Development of China Metallurgical Society, and the director of the fourth Council of China Materials Research Society.

Major academic achievements of Academician Wang Guodong;

In the research of super steel, academic ideas such as moderate grain refinement and compound strengthening were put forward, which solved the two key problems of improving the tensile strength of materials, reducing the yield ratio and producing super steel on the existing rolling mill, and completed the systematic research work such as making the production process of plates, bars and wires, developing raw steel, rolling hot-rolled super steel and industrial application of products. Super steel is mass-produced in a batch of hot-rolled strip mills and bar and wire mills, and is widely used in automobile and construction departments. The related achievement "Ultra-fine grain toughening and control technology of low-carbon ferrite/pearlite steel" won the first prize of national scientific and technological progress.

Undertake major national technical equipment development projects, and integrate and develop technologies such as rolling control and cooling control of large-scale medium and heavy plate mill, prediction and control of microstructure and properties of medium and heavy plate rolled products, and automatic control of medium and heavy plate production line. A complete set of plate core rolling technology with independent intellectual property rights in China has been formed, which has created a new road for the localization of large-scale medium and heavy plate mills. Relevant achievements have been applied in the construction and transformation of medium and heavy plate mills such as Shougang and Nangang. The related achievement "Research on Core Rolling Technology and Key Equipment of Shougang 3500mm Plate Mill" won the first prize of metallurgical science and technology progress.

Using artificial intelligence, microstructure and properties prediction, finite element method and other methods, the mathematical model development tool and model parameter optimization tool for continuous rolling process are established, and the rolling process and mathematical model optimization are carried out by using the massive information obtained in the rolling process. An innovative idea of integrating deformation parameter optimization, microstructure and performance parameter optimization and artificial intelligence optimization to optimize rolling process is put forward, and a unique theoretical system and practical method of intelligent optimization of rolling process are formed. The application of the above theoretical results in Baosteel, Fugang and Benxi Steel has improved the product quality and reduced the production cost. The related achievement "Intelligent Optimization of Plate and Strip Rolling Process and Optimization of Mathematical Model" won the second prize of National Science and Technology Progress Award.

Academician Wang Guodong is rigorous in his studies, correct in his style of study, brave in pioneering and in-depth in his practice. Loyal to the party's education, teaching and educating people, training 36 doctors and 34 masters. During his tenure as the director of the State Key Laboratory from 65438 to 0996 to 2004, he correctly grasped the development direction of the laboratory, strengthened the construction of the research platform, led the laboratory to face the main battlefield of the national economy, and formed the laboratory characteristics of rallying teams, going deep into the field, assiduously practicing internal skills and striving for first-class achievements, and became a new force to promote the development of rolling technology and the progress of iron and steel industry in China, with a good academic reputation and influence in the field of rolling in China.