Comrade Min Enze has served as director, deputy chief engineer, chief engineer and vice president, chief engineer and director of academic committee of the Institute, and is now a senior consultant of the Institute. 1978 was awarded the title of "advanced worker who made great contributions to China's scientific and technological work" at the National Science Conference, and 1980 was elected as an academician of China Academy of Sciences. He used to be a member of the Presidium of the Department and deputy director of the Department of Chemistry. 1983, 1989 won the "Outstanding Alumni Award" of Ohio State University, 1989, 1995 won the title of "National Advanced Worker" in the State Council, and 199 1 received special government allowance. 1993 was elected as an academician of the Third World Academy of Sciences, and 1994 was elected as the first batch of academicians of China Academy of Engineering. 1997 was awarded the honorary title of "National Excellent Scientific and Technological Worker" by China Association for Science and Technology, 1994 won the first ho leung ho lee foundation Technical Science Award, 1998 won the Gao Qiao Award, the first China Catalytic Achievement Award in 2006 and the highest national science and technology award in 2008. Deputies to the Third to Eighth National People's Congress.
Academician Min Enze is the founder of the applied science of refining catalysis in China, the pioneer of independent innovation in petrochemical technology and the pioneer of green chemistry, and enjoys a high reputation in the petrochemical industry at home and abroad.
In the early 1960s, he participated in and guided the digestion, absorption, re-innovation and industrialization of the preparation technologies of moving bed catalytic cracking microsphere silica-alumina catalyst, fluidized bed catalytic cracking microsphere silica-alumina catalyst, platinum reforming catalyst and fixed bed olefin superimposed diatomite phosphate catalyst, which broke the technical blockade of foreign countries, met the urgent needs of the country and laid the foundation for the manufacturing technology of oil refining catalysts in China. In 1970s, he directed the development of Y-7 low-cost semi-synthetic molecular sieve catalyst and won the second prize of 1985 National Science and Technology Progress Award. He also successfully developed residue catalytic cracking catalyst and its important active components, namely ultra-stable Y zeolite, rare earth Y zeolite and molybdenum-nickel-phosphorus hydrofining catalyst, which made China's oil refining catalyst catch up with the world's advanced level, and promoted its application in many industrial units, realizing the leap-forward development of China's oil refining catalyst. Since 1980s, he has attached great importance to basic research strategically, and personally organized and directed a number of guiding basic research works, such as new catalytic materials, new reaction engineering and new reactions. He is a pioneer of technological innovation in China's petrochemical industry. After more than 20 years of efforts, major breakthroughs have been made in some fields. Among them, ZRP molecular sieve which he directed to develop successfully was rated as one of the top ten scientific and technological achievements in China 1995, which supported the successful development of "New Process for Producing Low-carbon Olefins (DCC) from Heavy Oil Cracking" and met the needs of China's oil refining industry development and oil upgrading. The project of "Environment-friendly Petrochemical Catalytic Chemistry and Reaction Engineering" which he presided over promoted the extensive development of green chemistry research in China. "Innovation and integration of amorphous alloy catalyst and magnetically stabilized bed reaction process" was applied to industry for the first time in the world, and won the first prize of National Technological Invention Award in 2005.
In the past two decades, Academician Min Enze has applied for 205 invention patents at home and abroad, published 6 monographs and 233 papers, and won 8 national science and technology awards successively. Academician Min Enze is a respected and famous expert, who has trained a large number of scientific and technological talents for China's petrochemical industry and condensed the scientific and technological innovation team combined with Industry-University-Research, and still works in the front line of scientific research. Lu Wanzhen, an expert in analytical chemistry and petrochemistry. Female, born on September 29th, 1924, from Chuansha County, Shanghai, Han nationality. 1946 graduated from the Department of Chemical Engineering of Chongqing Central University, 195 1 obtained a master's degree from the Department of Chemistry of the University of Illinois and a doctorate from the Department of Chemistry of Ohio State University, 1952- 1953 engaged in postdoctoral research in the Department of Chemistry of Northwest University. 1955 After returning to China, he worked in the Institute of Petrochemical Technology.
Comrade Lu Wanzhen has served as director, deputy chief engineer, chief engineer and deputy director of the Technical and Economic Committee of the Petrochemical Research Institute. 1988 was awarded the title of outstanding science, technology and management expert by China Petrochemical Group Company. 1990 was rated as one thousand experts with outstanding contributions in China. 199 1 received special government allowance and was elected as an academician of China Academy of Sciences in the same year. 1983 and 1989 won the title of national "March 8th" red flag bearer twice. 1983- 1985, deputy and executive member of the Fifth National Congress of Women in China.
Comrade Lu Wanzhen has long been engaged in and led the chemical and instrumental analysis in the field of petroleum and petrochemical. He presided over the systematic evaluation of China crude oil properties and published "China crude oil evaluation" (* * * eight volumes), which provided a scientific basis for the rational processing of crude oil; In order to cooperate with production, he edited handbooks such as Analytical Methods of Reforming Process and Compilation of Analytical Methods of Petrochemical Industry. An analysis and research center was established, which provided a large amount of data for scientific research and production, among which "Study on Corrosion Mechanism of Nickel-Chromium Alloy during Hydrocarbon Fuel Combustion" won the National Natural Science Award; A set of composition analysis methods from natural gas to residual oil were established and innovated. Initially, the elastic timely capillary was successfully developed in China and won the sinopec group Science and Technology Progress Award. A new type of packed capillary chromatography for rapid analysis of refinery gas was successfully developed and won the national invention patent; A new porous layer capillary chromatography was established to analyze the composition of hydrocarbons with different carbon numbers in gasoline. Organize and lead the research, evaluation, quality control and industrial application of FCC metal passivator and cooling water treatment agent.
Academician Lu Wanzhen is knowledgeable and fruitful. He has published many monographs and papers, instructed 5 postdoctoral students, 65,438 doctoral students and 30 master students. Li Dadong, an expert in petroleum refining catalyst and technology. Male, born on February 24th, 1938, native of Dezhou, Shandong Province, Han nationality, party member. 1962 graduated from the chemistry department of Peking University in July.
Comrade Li Dadong has served as an engineer, senior engineer, professor-level senior engineer, chief engineer, director and deputy chief engineer of China Academy of Engineering, vice president and dean of the Institute of Petrochemical Technology, and director of the Department of Chemical Engineering, Metallurgy and Materials Engineering. He is currently the director of academic committee, professor-level senior engineer, doctoral supervisor, executive director of China Petroleum Institute and director of refining branch. 1990 was rated as a young and middle-aged expert with outstanding contributions in the country; 199 1, enjoying special government allowance; 1994 was elected as the first academician of China Academy of Engineering. Deputies to the Ninth and Tenth National People's Congresses and the 14th National Congress of China Producers' Party.
Comrade Li Dadong has been engaged in the research of petrochemical catalysts and processes for nearly 50 years and has achieved fruitful scientific research results. He is directly responsible for or organized and led the development of a series of hydrogenation technologies and hydrogenation catalysts with international advanced level. Up to now, 55 kinds of industrial catalysts with 12 series have been industrialized, which have been widely used in 232 sets of industrial devices at home and abroad, creating huge economic and social benefits. For example, its successfully developed low-pressure and high-activity hydrodenitrogenation catalyst and process (RN- 1) won the China Invention Patent Gold Award (one of the top ten national gold awards) 1989 and the National Invention Expo Gold Award 1990 jointly issued by China Patent Office and World Intellectual Property Organization. 1990 and 199 1 won the first prize of China Petrochemical and National Science and Technology Progress respectively. Directed the development of clean fuel hydrofining catalyst and industrial application technology, and won the second prize of national scientific and technological progress 2001; He wrote Hydrotreating Technology and Engineering (monograph) and won the first prize of scientific and technological progress of China Petrochemical Group in 2006.
Academician Li Dadong is knowledgeable and fruitful. He has won more than 30 national and provincial awards, applied for more than 50 invention patents1at home and abroad, published more than 30 papers1at home and abroad, and trained a large number of scientific research backbones and more than 30 post-doctors, doctors and masters. Wang Xieqing, an expert in petroleum refining catalysis and analysis. Male, born in February, 1933+0 1, party member, Han nationality. 1953 Graduated from the Department of Refinery, Beijing Petroleum Institute, 196 1 Ph.D., Institute of Chemical Engineering, German Democratic Republic.
Comrade Wang Xieqing has successively served as petrochemical research engineer, senior engineer, professor-level senior engineer, director of research office, vice president and chief engineer. At present, he is the director of Degree Committee of Institute of Petrochemical Technology, professor-level senior engineer, doctoral supervisor, deputy director of Refinery Branch of China Petroleum Institute, member of China National Committee of World Petroleum Congress, and deputy director of Chemical Metallurgy and Materials Department of China Academy of Engineering. 199 1 received special government allowance, and 1995 was elected as an academician of China Academy of Engineering.
Comrade Wang Xieqing has been engaged in the research of petroleum refining technology and analytical chemistry for nearly fifty years. Before 1990s, he mainly engaged in analyzing the composition of hydrocarbon and non-hydrocarbon compounds in petroleum by using modern physical instruments, and established quality control analysis methods such as "determination of bicyclic aromatic hydrocarbons in jet fuel by picric acid method". Biomarkers in crude oil from Daqing and other major oil areas were analyzed by GC/MS and microanalysis. The elastic time-sensitive capillary and new capillary chromatographic column have been successfully developed, and the corresponding analytical methods have been established, which can quickly analyze the hydrocarbon composition with different carbon numbers in refinery gas and gasoline. To find out the composition of the water in the coffin of the ancient body of Mawangdui Han Tomb in Changsha, and won the 78 th National Science Conference Award. After 1990s, he presided over the research on catalytic cracking technology (DDC), catalytic cracking technology for producing more liquefied gas and gasoline (MGG), catalytic cracking technology for producing more isomeric olefins (MIO) and catalytic thermal cracking technology for producing more ethylene and propylene (CPP). Successfully developed an original new technology for producing low-carbon olefins and high-quality gasoline from heavy raw materials, which has been widely used and won the national patent gold medal; The new process of DCC-ⅱ and the complete set of industrial technologies of MGG with atmospheric residue as raw materials have been successfully studied, and a series of catalysts meeting the requirements of DCC and MGG processes have been successfully studied and industrialized. Guide the successful development and industrial application of titanium silicalite molecular sieve as oxidation catalyst.
Academician Wang Xieqing is knowledgeable and fruitful. * * * won nearly 20 national and provincial awards, applied for more than 90 invention patents/kloc-0 at home and abroad, published more than 60 papers/kloc-0, and trained a large number of scientific research backbones and more than 30 post-doctors, doctors and masters. He mingyuan, an expert in petrochemical catalytic materials. Male,1born on February 8, 940, native of Suzhou, Jiangsu, Han nationality, party member. 196 1 graduated from Shanghai East China Institute of Textile Technology, majoring in applied chemistry. 1980 ~ 1984 went to the chemistry department of Northwestern University and the University of Texas at Austin as visiting scholars for cooperative research.
Comrade He Mingyuan has successively served as an engineer, senior engineer, professor-level senior engineer, director of research office, director of basic research department, deputy chief engineer and chief engineer. He used to be the editor of the international academic journal ".. APPI. IED Catalyzes A:GENERAL "and Chairman of the 6th World Petroleum Congress/KLOC-0". At present, he is the deputy director of the Academic Committee of the Institute of Petrochemical Technology, a professor-level senior engineer and doctoral supervisor, the director of the Catalyst and Molecular Sieve Professional Committee of China Institute of Petroleum Refining and Chemical Engineering, the executive director and member of the Catalyst Professional Committee of Chinese Chemical Society, and the deputy director of the Chemistry Department of China Academy of Sciences. 1990 won outstanding contributions from returned overseas students, 1992 received special government allowance, 1995 was elected as an academician of China Academy of Sciences, and was appointed as the chief scientist of the project "Green Chemistry of Petroleum Refining and Synthesis of Basic Organic Chemicals" by the Ministry of Science and Technology in 2000, and won the "ho leung ho lee foundation Technical Science Award" in 2000/kloc-0.
Comrade He Mingyuan has been engaged in the research of petrochemical catalytic materials for more than forty years, and has accumulated rich experience and achieved fruitful results. He presided over the hydrothermal chemical study of Y-type molecular sieve deposited by oxide, and found the different behaviors of hydroxyl rare earth ions in the crystal in three valence states, as well as the conditions for realizing the speed balance between skeleton dealumination and solid silicon replenishment. Obtained three patents for preparing high hydrothermal stability and high silicon Y molecular sieve by solid-phase silicon supplementation, and won the Excellent Patent Award of China Patent Office and the China Petrochemical Science and Technology Invention Award; Based on the basic research on the micro-chemical environment of colloidal particles, a new process for synthesizing Y zeolite with high efficiency and low consumption was developed. The local chemical environment factors in molecular sieve synthesis system were studied, and it was found that the surface concentration of liquid-solid interface could form a local chemical environment conducive to synthesis, and many patents for molecular sieve synthesis methods were applied. In order to produce clean gasoline, the catalytic environment for bimolecular reaction and monomolecular reaction in catalytic cracking process and its relationship with gasoline hydrocarbon composition were studied, and a series of cracking catalysts for reducing gasoline olefin content were developed and widely used.
Academician He Mingyuan is knowledgeable and fruitful. He has won more than 30 national and provincial awards, applied for more than 270 invention patents at home and abroad, published more than 40 papers/kloc-0, and trained a large number of scientific research backbones and more than 30 post-doctors, doctors and masters. Shu Xingtian, an expert in petrochemical catalytic materials. Male, born in Shanghai on April 2 1940. 1964 graduated from East China Institute of Chemical Technology, majoring in petroleum processing.
Comrade Shu Xingtian has successively served as an engineer, a senior engineer and a professor-level senior engineer in the Institute of Petrochemical Technology, and served as the chief engineer, deputy director, director and deputy chief engineer of the 22nd Institute. He is currently the deputy director of the academic Committee of the institute and a doctoral supervisor. 1993 was granted special government allowance, 1998 won the China engineering science and technology award, and 1999 was elected as an academician of China Academy of Engineering. Member of the 10th and 11th sessions of China People's Political Consultative Conference.
Comrade Shu Xingtian has been engaged in molecular sieve research and development for more than 40 years, and has accumulated rich knowledge and experience from laboratory to pilot scale-up, as well as industrial production, industrial use and promotion. Responsible for developing high-silicon ZRP molecular sieve with phosphorus-containing rare earth five-membered ring structure and secondary pores, and preparing SRNY molecular sieve by a unique modification method of hydrothermal reaction of deposited silicon and rare earth oxides with Y-type molecular sieve; Successfully developed a new generation of ultra-stable y molecular sieve PSY molecular sieve; β molecular sieve enriched on solid surface by template method combined with fractional crystallization and HTS molecular sieve synthesized by rearrangement method were developed. Among them, ZRP- 1 Molecular Sieve Development won 1995 National Top Ten Scientific and Technological Achievement Award (the first person to complete it); The CHZ cracking catalyst prepared with SRNY molecular sieve won the China Patent Excellence Award 1993 and the National Invention Second Prize 1995 (the first inventor). Comrade Shu Xingtian's invention in the preparation technology of molecular sieve and catalytic cracking catalyst has been successfully applied to the industrial production of various molecular sieves and catalyst varieties, and the products have achieved remarkable economic benefits in batch export.
Academician Shu Xingtian is knowledgeable and fruitful. * * * won more than 30 national and provincial awards, applied for 490 invention patents at home and abroad, published more than 50 papers, and trained a large number of scientific research backbones.