According to the official ** of the Chinese Academy of Engineering in December 2023, there are 65 senior academicians in the Department of Energy and Mining Engineering of the Chinese Academy of Engineering.
An Jigang, male, Han nationality, born in Shanghai on January 18, 1938, from Wuqing County, Tianjin, academician of the Chinese Academy of Engineering, expert in nuclear technology application, director of the Institute of Applied Nuclear Technology, Institute of Nuclear Energy and New Energy Technology, Tsinghua University, researcher and doctoral supervisor.
In 1954, An Jigang was admitted to the Department of Engineering Physics of Tsinghua UniversityFrom 1958 to 1970, he worked in the 210 teaching and research group of the Department of Engineering and Physics, Tsinghua UniversityFrom 1961 to 1966, he studied at the Department of Engineering Physics, Tsinghua UniversityFrom 1970 to 1978, he worked in Room 5, Institute of Nuclear Research, Tsinghua UniversityFrom 1978 to 1983, he served as the deputy director of Room 5, Institute of Nuclear Research, Tsinghua UniversityFrom 1983 to 1985, he served as the director of Room 5, Institute of Nuclear Research, Tsinghua UniversityIn 1985, he was a visiting scholar at the Fermi Institute of the University of ChicagoFrom 1987 to April 1990, he served as the director of Room 5, Institute of Nuclear Research, Tsinghua UniversityFrom 1990 to 1993, he worked in Room 501, Institute of Nuclear Research, Tsinghua UniversityFrom 1993 to 1999, he served as a doctoral supervisor in Room 501, Institute of Nuclear Research, Tsinghua UniversityIn 1999, he served as the director of the Institute of Applied Nuclear Technology, Institute of Nuclear Research, Tsinghua UniversityIn 2005, he was elected as an academician of the Chinese Academy of Engineering.
An Jigang's main research interests are ionizing radiation detection and radiation imaging detection technology. In 1985 and 1987, he studied the performance and mechanism of "self-extinguishing streamer chamber" at the Fermi Institute in the United States, which effectively corrected many commonly believed but erroneous concepts. During the "Eighth Five-Year Plan" period, An Jigang presided over the overall technology, invented the gas array detection device, and successfully developed China's first accelerator container detection system, and during the "Ninth Five-Year Plan" period, An Jigang invented the cobalt-60 container detection system, which reached the international frontier in the same field, and was specially used to equip the customs and wharves for container detection. During the "Tenth Five-Year Plan" period, An Jigang presided over the invention of the cobalt-60 container CT detection system to provide more effective detection methods for public safety.
Chen Qingquan, born on January 14, 1937 in Majilang City, Indonesia, native of Zhangzhou, Fujian Province, is an expert in electric vehicles, electric drives and smart energy, an academician of the Hong Kong Academy of Engineering Sciences, an academician of the Royal Academy of Engineering of the United Kingdom, an academician of the National Academy of Engineering of Ukraine, an academician of the Chinese Academy of Engineering, an academician of Churchill College, Cambridge University, the dean of the School of Information and Electrical Engineering of China University of Mining and Technology, and the vice president of the Hong Kong Academy of Engineering Sciences.
Chen Qingquan graduated from Beijing Institute of Mining and Technology in 1957From 1957 to 1971, he taught at Beijing Institute of Mining and TechnologyHe graduated from Tsinghua University in 1959In 1971, he worked in Shanghai Pioneer Motor FactoryIn 1976, he was appointed as a research engineer of the Hongkong Electric CompanyFrom 1976 to 1980, he taught at the Hong Kong PolytechnicHe received his Ph.D. degree from the University of Hong Kong in 1982 and joined the Department of Electrical and Electronic Engineering at the University of Hong Kong in the same yearFrom 1994 to 2000, he was the Head of the Department of Electrical and Electronic Engineering at the University of Hong KongHe was elected a Fellow of the Hong Kong Academy of Engineering Sciences in 1996In 1997, he was elected as an academician of the Chinese Academy of Engineering, the Royal Academy of Engineering of the United Kingdom, and the National Academy of Engineering of UkraineIn 2001, he was elected a Fellow of Churchill College, Cambridge UniversityIn 2002, he was appointed Vice-President of the Hong Kong Academy of Engineering SciencesIn December 2010, he was appointed as the Dean of the School of Information and Electrical Engineering, China University of Mining and Technology.
Chen Qingquan is mainly engaged in research in the fields of electric vehicles, electric drives, smart energy, and four-network and four-stream integration. He put forward the core and overall guiding ideology of electric vehicle research, organically combined automotive technology, motor technology, electric drive technology, power electronics technology and modern control theory, laid the foundation for modern electric vehicle science, and formed a complete system from theory to practice in modern electric vehicle science. He put forward the engineering philosophy of electric vehicles, revealed the system integration and optimization design laws of electric vehicles, invented a variety of special motors and control devices for electric vehicles, and developed a number of different types of electric vehiclesIts main inventions include high-performance motors, special motors, electric vehicle system optimization, electric vehicle electric drive system, intelligent mapping system, battery intelligent management system, energy intelligent management system, motor magnetic field analysis and optimization, etc. In 2002, he founded the International Institute for Advanced Study.
Cai Meifeng, male, born on May 18, 1943, from Rudong County, Jiangsu Province, is an expert in rock mechanics and mining engineering, an academician of the Chinese Academy of Engineering, a professor and doctoral supervisor of the University of Science and Technology Beijing.
Cai Meifeng graduated from Shanghai Jiao Tong University in 1968 with a major in engineering mechanicsIn 1968, he served as the head of the professional group of the 710th Research Institute of the National Defense Science and Technology Commission[5] In 1981, he obtained a master's degree in mining engineering from Beijing Iron and Steel Institute[4] In 1990, he received a Ph.D. degree in Mine Rock Mechanics from the University of New South Wales, AustraliaIn 1992, he was appointed as the deputy head of the Department of Mining, University of Science and Technology BeijingFrom 1994 to 2005, he served as the Dean of the School of Civil and Environmental Engineering, University of Science and Technology BeijingIn 2013, he was elected as an academician of the Chinese Academy of Engineering.
Cai Meifeng has been engaged in research on in-situ stress measurement and scientific mining for a long time. He established the theory of in-situ stress measurement and analysis in line with the characteristics of engineering rock mass, invented a high-precision in-situ stress measurement method and device, and as of May 2021, Cai Meifeng has completed 15 in-situ stress sites for mines and underground projects. In view of the characteristics that the formation process and mining stability of metal deposits are controlled by in-situ stress, this paper proposes a metal ore mining optimization theory that takes in-situ stress as the starting point, selects the most reasonable mining method through scientific quantitative calculation and analysis, and determines the best mining overall layout, stope structure parameters, mining sequence and support reinforcement measures, which has been successfully applied in practical engineering.
Cen Kefa, born on January 15, 1935 in Nanhai, Guangdong Province, is an engineering thermophysicist, an expert in energy and environmental engineering, an academician of the Chinese Academy of Engineering, the dean, professor and doctoral supervisor of the School of Mechanical and Energy Engineering of Zhejiang University, and the director of the Institute of Thermal Engineering of Zhejiang University.
In 1956, after graduating from the Power Department of Huazhong Institute of Technology, Cen Kefa went to Zhejiang University to teach. In 1958, he was sent to study at Bauman Moscow State Technical University, and returned to China in 1962 after receiving his Ph.D. degree. In 1984, he became the head of the Department of Thermophysical Engineering at Zhejiang University. In 1992, he served as the director of the Institute of Combustion Technology of Zhejiang University, National Coal Water Slurry Engineering Technology Research Center. In 1995, he was elected as an academician of the Chinese Academy of Engineering. [2] In 1999, he won the Ho Leung Ho Lee Science and Technology Award. In 1999, he served as the dean of the School of Mechanical and Energy Engineering, Zhejiang University. In 2006, he served as the director of the Academic Committee of the State Key Laboratory of Clean Energy Utilization.
The main research contents of Cen Kefa are coal grading and utilization, polygeneration, clean coal combustion and gasification, coal-water slurry combustion, fluidized bed combustion power generation, efficient and clean utilization of fossil fuels and biomass energy, waste resource energy utilization, and collaborative removal of various pollutants in the process of energy utilization. He has made pioneering achievements in the fields of efficient and clean utilization of fossil fuels, polygeneration of coal grading and utilization, resource and energy utilization of low-grade energy, hydrogen production technology, collaborative removal technology of various pollutants in the process of energy utilization, engineering gas-solid multiphase reacting flow calculation and laser diagnosis technology. And put forward a unique "mentor group" talent training model.
Chang Yinfo, born on July 6, 1931 in Taixing, Jiangsu, is a mineral deposit geologist, an expert in mineral geological exploration, a member (academician) of the Chinese Academy of Sciences, an academician of the Chinese Academy of Engineering, and a chief engineer and senior supervisor of the Anhui Provincial Geological Bureau.
Chang Yinfo graduated from the Department of Geology of Tsinghua University in 1952, and in the same year, he was assigned to the Tongling 321 Geological TeamIn 1960, he served as the chief engineer of Tongling 321 Geological TeamIn 1978, he was appointed as the deputy chief engineer of Anhui Provincial Bureau of GeologyIn 1980, he was appointed deputy director of the Anhui Provincial Bureau of GeologyIn 1982, he was appointed as the chief engineer of Anhui Provincial Geological BureauIn 1988, he was appointed as a senior inspector of Anhui Provincial Bureau of Geology and MiningIn 1991, he was elected as a member (academician) of the Chinese Academy of SciencesIn 1994, he was elected as an academician of the Chinese Academy of EngineeringIn 2002, he was appointed Dean of the School of Earth and Space Sciences at the University of Science and Technology of China.
Changyinfo has long been committed to the teaching and research of mineral geological exploration. He has in-depth knowledge and research on several major copper ore types in different metallogenic environments around the world. In the field of regional metallology, the near-east-west hidden basement fault zone of Tongling was discovered, and a systematic theoretical understanding of the tectonic background, geological environment, metallogenic characteristics and enrichment law of the intracontinental metallogenic belt was proposed, which enriched the theory of intracontinental metallogenic and guided the prospecting. In the field of ore deposits, the proposal and classification of "stratigraphy-controlled (formulaic) skarn-type" deposits, as well as the corresponding metallogenic models established, developed the theory of skarn mineralization, and guided the prospecting practice of searching for skarn-type copper deposits. In the field of prospecting and exploration, the survey of solid minerals in China is divided into three historical evolution stages, and the suggestions of the second round of survey, deep exploration and three-dimensional mapping are proposed. In the practice of prospecting, it provides mineral resources for the development of Tongling nonferrous smelting base.
Chen Senyu, born on December 2, 1939 in Xianyou County, Fujian Province, is an accelerator physicist, an academician of the Chinese Academy of Engineering, and a researcher at the Institute of High Energy Physics of the Chinese Academy of Sciences.
Chen Senyu graduated from Tsinghua University in 1964From 1964 to 1974, he served as the head of the research group of the Institute of Atomic Energy, Chinese Academy of SciencesFrom 1975 to 1988, he served as the deputy director and associate researcher of the Institute of High Energy Physics, Chinese Academy of SciencesFrom 1978 to 1980, he worked at the Fermi National Accelerator Laboratory and the Brookhaven National Laboratory in the United StatesFrom 1983 to 1984, he worked at the Stanford Linear Accelerator Center in the United StatesFrom 1988 to 1991, he served as the deputy director of the Institute of High Energy Physics, Chinese Academy of SciencesFrom 1991 to 1994, he served as the deputy head of the Superconducting Giant Collider Laboratory in the United StatesFrom 1995 to 2001, he served as the general manager of SSRF Engineering of the National Shanghai Synchrotron Radiation CenterIn 2001, he was elected as an academician of the Chinese Academy of Engineering.
Chen Senyu was responsible for and innovatively completed the theoretical design of the storage ring of the Beijing Positron Collider (BEPC) and presided over the construction of the BEPC storage ring. He presided over and was able to break through the international prevailing theoretical guidance and regulation at that time, and in a short period of time, he realized that the main performance of BEPC was in the leading position in the world in the Cang physical energy zone, so that China occupied a place in the international field of high-energy physics. Responsible for setting up the engineering research and development team, proposing and determining the design objectives and design ideas of SSRF, presiding over the completion of the feasibility study, prefabricated study and preliminary design of the project, and guiding the construction of the project. Since 2002, he has been recommending and promoting the prefabricated research and project establishment of hard X-ray free electron laser devices and high-energy synchrotron radiation light sources in China.
Chen Yuchuan, male, Han nationality, born on December 7, 1934 in Zhapu Town, Pinghu City, Zhejiang Province, originally from Ningbo, mineral deposit geologist, academician of the Chinese Academy of Engineering, director of the Science and Technology Committee of the Chinese Academy of Geological Sciences, researcher, doctoral supervisor.
In 1952, Chen Yuchuan studied at the Department of Geography of Nanjing UniversityIn 1959, he graduated from the Department of Geological Exploration of the University of Technology in the former Soviet UnionFrom 1959 to 1963, he served as the head of the research group of the Institute of Geology, Ministry of GeologyFrom 1963 to 1969, he successively served as the head of the research team, the deputy instructor of the research office, and the deputy leader of the research team in the Institute of Mineral Deposit Geology of the Ministry of GeologyFrom 1969 to 1978, he successively served as the leader of the research team and the director of the research office of the Institute of Geology and Mineral Resources of the Geological Bureau (General Administration) of the State Planning CommissionFrom 1978 to 1983, he successively served as the director and director of the Research Office of the Institute of Deposit Geology of the Ministry of Geology (Ministry of Geology and Mineral Resources).From 1983 to 1990, he successively served as Deputy Director and Director of the Department of Geology and Mineral Resources of the Ministry of Geology and Mineral ResourcesFrom 1985 to 1990, he successively served as the executive deputy leader and the director of the office of the National Gold Mine Geology Leading GroupFrom 1986 to 1997, he served as President of the Chinese Academy of Geological Sciences, Ministry of Geology and Mineral ResourcesFrom 1986 to 1998, he served as a member of the Party Leadership Group of the Ministry of Geology and MiningFrom 1995 to 1998, he served as Director of the Geological Survey of the Ministry of Geology and Mineral ResourcesIn 1997, he was elected as an academician of the Chinese Academy of EngineeringFrom 2000 to 2006, he served as a member of the Standing Committee, Deputy Director and Director of the Department of Energy and Mining Engineering of the Chinese Academy of Engineering.
Chen Yuchuan has long been engaged in the geology, geochemistry, regional metallogenic law, metallogenic research and mineral exploration of mineral deposits, and has made a series of important contributions.
Du Xiangwan, born in Nanyang City, Henan Province in 1938, originally from Kaifeng, is an academician of the Chinese Academy of Engineering, a foreign academician of the Russian Federal Academy of Engineering, and an expert in applied nuclear physics, strong laser technology and energy strategyVice President of the Chinese Academy of Engineering, Deputy Director of the National Energy Advisory Expert Committee, Researcher and Doctoral Supervisor of the China Academy of Engineering Physics.
Du Xiangwan has presided over systematic and innovative research on the theory of nuclear test diagnosis and nuclear neutronsHe used to be the chief scientist of the laser expert group of the "863 Project", led the expert group to formulate the development strategy and plan of strong laser, and obtained important results in the research of relevant physical laws and key technologiesHe proposed and successfully presided over comprehensive experimental research and solved a number of engineering and technical problems, so that China's new high-intensity laser technology entered the world's advanced ranks. Its scientific and technological achievements have won the first prize, the second prize and the special prize of the National Science and Technology Progress Award.
He also presided over and participated in the consulting and research work on China's energy development strategy and climate change response, and served as the deputy director of the National Energy Expert Advisory Committee and the chairman of the National Climate Change Expert Committee.
To be continued) List of high-quality authors