Qiu Guanzhou
Qiu Guanzhou, born on February 2, 1949, Han nationality, from Dapu, Guangdong, has a doctorate in engineering and is a mineral engineer. Professor and doctoral supervisor at Central South University; member of the Standing Committee of the Party Committee of Central South University, Vice President of Central South University; academic leader of the National Natural Science Foundation of China Innovation Unit and chief scientist of the biometallurgy project of the National Key Basic Research Planning and Development Project (973 Project).
In 1978, Qiu Guanzhou graduated from Guangdong University of Technology with a bachelor's degree in engineering; from 1978 to 1987, he studied at Central South University of Technology and received his master's and doctoral degrees; in 1988, Qiu Guanzhou was promoted to professor; from 1987 to 1992 During this period, he served as deputy department director and department chair of Central South University; since 1992, he has served as vice president of Central South University of Technology and vice president of Central South University; in 2011, he was elected as an academician of the Chinese Academy of Engineering.
Qiu Guanzhou has long been committed to research on the processing and utilization of China's low-grade, complex and refractory metal mineral resources, and has made outstanding contributions in the biometallurgy of low-grade sulfide ores.
Chinese name: Qiu Guanzhou
Nationality: Chinese
Ethnicity: Han
Date of birth: February 2, 1949
Occupation: Educational and scientific researcher
Graduation institution: Central South University of Technology
Main achievements: Elected as an academician of the Chinese Academy of Engineering in 2011
Representative works : "Inter-particle interaction and fine particle flotation", "Direct reduction of cold solidified pellets"
Hometown: Dabu, Guangdong
Party: Communist Party of China
Character experience
On February 2, 1949, Qiu Guanzhou was born in Dapu, Guangdong.
From 1968 to 1970, Qiu Guanzhou worked as a teacher at Yinjiang Middle School in Dabu, Guangdong.
From 1970 to 1972, Qiu Guanzhou worked at the Dabaoshan Copper Smelting Plant in Guangdong.
From 1972 to 1976, Qiu Guanzhou studied mineral processing in the Mineral Engineering Department of Guangdong Institute of Mining and Metallurgy (the predecessor of Guangdong University of Technology).
From 1976 to 1978, Qiu Guanzhou served as technician, workshop director and factory director at Dabaoshan Mine in Guangdong.
From 1978 to 1981, Qiu Guanzhou graduated from the Department of Mineral Engineering, Zhongnan Institute of Mining and Metallurgy, with a master's degree.
From 1981 to 1992, Qiu Guanzhou was engaged in teaching and scientific research in the Department of Mineral Engineering of Central South University of Technology.
From 1981 to 1987, he graduated with a doctoral degree from the Department of Mineral Engineering of Central South University of Technology.
In 1987, Qiu Guanzhou served as deputy director of the Department of Central South University; in 1987, he was promoted to associate professor; in 1988, he was promoted to professor; from 1990 to 1992, he served as director of the department of Central South University.
In 1992, Qiu Guanzhou served as Vice President of Central South University of Technology.
In 1993, Qiu Guanzhou was rated as a doctoral supervisor.
In 2000, Qiu Guanzhou served as member of the Standing Committee of the Party Committee and Vice President of Central South University.
In 2011, Qiu Guanzhou was elected as an academician of the Chinese Academy of Engineering.
Main Achievements
Scientific Research Achievements
Qiu Guanzhou has long been committed to research on the processing and utilization of China's low-grade, complex and refractory metal mineral resources. It has made remarkable achievements in separation and direct reduction of iron ore, especially in the biometallurgy of low-grade sulfide ores.
Qiu Guanzhou has long been engaged in the theory and new technology of complex fine-grained mineral separation, deep processing of inorganic non-metallic mineral resources, biological extraction of mineral resources, ore leaching microbial breeding and genetic engineering, and principles of ore leaching molecular biology. , development and research work on biological treatment of industrial microorganisms and wastewater in extreme environments. A series of major innovations have been made to solve the technical problems of efficient, pollution-free and short-process processing and utilization of China's mineral resources. The scientific research results have been widely used in the processing fields of non-ferrous, ferrous and non-metallic minerals in my country.
Qiu Guanzhou has successively presided over and undertaken the National Key Basic Research Development Plan 973 Project, the National Science Foundation for Innovative Research Groups, the National Natural Science Foundation of China, and the national "Seventh Five-Year Plan", "Eighth Five-Year Plan", "Ninth Five-Year Plan", and " There are more than 30 key scientific and technological research projects in the Tenth Five-Year Plan and the Eleventh Five-Year Plan; 42 authorized national invention patents have been granted.
Qiu Guanzhou’s systematic research on the potential-controlled flotation of complex sulfide ores has enabled the development of sulfide ore flotation from two-dimensional control of pH value and reagents to a three-dimensional control technology of pH value-agent-potential, which has made my country's 1/3 of the lead and zinc mines have an annual revenue increase of 126.4 million yuan, which is recognized as an internationally leading level; based on the characteristics of my country's iron ore resources, a "new process of cold-solidified coal-based direct reduction of iron concentrate pellets" was developed, which is the first domestic and foreign A new technology with independent intellectual property rights, it was rated as one of the top ten scientific and technological advances in Chinese universities in 1998. It has invested 150 million yuan to build a factory and trial production; based on the characteristics of my country's fine mineral resources, it has proposed an academic study of "inter-particle interaction and fine particle flotation" This viewpoint was reviewed by Academician Forsberg, Chairman of the International Mineral Processing Academic Committee, and was used in fine particle flotation, achieving significant economic benefits. Based on the characteristics of low-grade copper ore, five types of leaching engineering bacteria were cultivated, and one type was transferred to obtain a net profit of 1,000 million, completed the bioheap leaching industrial test of Dabaoshan Mine, and was listed as a national high-tech demonstration project for transforming traditional industries. The research results were rated as one of the top ten scientific and technological advances in Chinese universities in 2003.
Published 5 monographs, 2 of which won the China Book Award, and published 1 English academic monograph abroad; published 97 papers as the first or corresponding author, and the papers were cited by SCI 732 times, the highest number for a single paper He has been cited 32 times, and the highest number of citations for a single work is 138.
Main papers
1. Research status and development prospects of molecular sieves. Comprehensive utilization of minerals, 1996, (5)
2. Sodium sulfide induced flotation Applied Research. China Mining, 1996, 5(3)
3. Mineral processing for the 21st century. Scientific Chinese, 1997, (5)
4. Ilmenite rich Review of collection methods. Comprehensive utilization of minerals, 1998, (5)
5. Breeding and industrial application of mineral leaching bacteria. Foreign metal ore dressing, 1998, 35(6)
6 .Influence of extracting organic phase ore-leaching bacteria. Journal of Central South University of Technology, 2001, 32(3)
7. Looking at the development prospects of resource and material integration from the industrialization of direct mineral extraction technology. Chinese Engineering Science, 2003, 5(4)
8. Research on process factors affecting the synthesis of nano-CeO2 precipitation method. Journal of Chinese Rare Earth Society, 2005, 23(3)
9. ZnO-doped nano-CeO2 Synthesis by boiling distillation method. Rare Metal Materials and Engineering, 2006, 35(A02)
10. Synthesis of new flotation agents and application research on copper sulfide ores. China Mining Engineering, 2006 , 35(2)
11. Influence of biological factors on the kinetics of heap leaching process of secondary copper sulfide ore. Journal of Chinese Nonferrous Metals Society, 2007, 17(2)
12. Analysis of precipitation differences synthesized by two different strains of iron-oxidizing bacteria. Chinese Journal of Nonferrous Metals, 2007, 17(3)
13. Preparation of high-purity nanometer tantalum oxide. Rare Metal Materials and Engineering, 2007, 36 (2)
14. Experimental study on the combined use of new flotation agent JT-235 and isopentyl xanthate. Mining Research and Development, 2007, 27(2)
Main Monograph
"Particle Interaction and Fine Particle Flotation" Central South University of Technology Press
"Direct Reduction of Cold Solidified Pellets" Central South University Press
Undertaking projects
1. Basic research on microbial metallurgy, National Key Basic Research and Development Program (973) Project
2. Basic research on microbial metallurgical process intensification, National Key Basic Research and Development Program (973) Topic
3. Bioleaching-extraction-electrowinning copper extraction process from low-grade copper ores, National Development and Reform Commission (NDRC 1160)
4. Bio-extraction of sulfide ores Basic research, National Natural Science Foundation Project
5. Biometallurgy College Innovation and Talent Introduction Base, Bureau of Foreign Experts Affairs, Ministry of Education 111 Program (B07043)
1. "Iron Concentrate" "New Process for Direct Reduction of Cold-Solid Pellets Coal-Based" won the Top Ten Scientific and Technological Advances in Chinese Universities (1998)
2. "Interfacial force theory of fine particle selective flocculation-dispersion and flotation control" won the award Second Prize for Scientific and Technological Progress Award from the Ministry of Education (1999)
3. "Experimental Research on the Industrialization of Bacterial Leaching of Copper from Dexing Low-Grade Copper Sulfide Mine" won the Second Prize for Scientific and Technological Progress Award from the National Nonferrous Metals Industry Bureau (1999)
4. "Theory and Practice of Potential Control of Sulfide Ore" won the first prize of the National Science and Technology Progress Award (2000)
5. "Low-grade copper ore and zinc ore composite catalyst and improvement "New Technology for Strain Bioleaching" won the first prize of Hunan Provincial Science and Technology Progress Award (2002)
6. "Screening and genetic improvement technology of exclusive strains for sulfide ore leaching" won the second prize of Science and Technology Progress Award of the National Nonferrous Metals Industry Bureau First Prize (2002)
7. "Breeding of Exclusive Bacteria for Bioextraction of Copper Mines in my country and Industrialized Application of Copper Extraction" won the Top Ten Scientific and Technological Advances in Chinese Universities (2002)
8. "New Technology for Fine Particle Flotation of Copper-Lead-Zinc-Tin Ore - Coarse-Particle Carrier-Intermediary-Coagulation Assistance" won the second prize of the National Science and Technology Progress Award (2004)
9. "Iron Concentrate "Direct reduction method of composite binder pellets" won the second prize of the National Technology Invention Award (2005)
10. "Biological Leaching Method of Sulfide Ore Based on Analysis of Microbial Gene Function and Community Structure" won the National Technology Invention Award
Second Prize (2008)
Honorary Commendation
Being hired as the chief scientist of the National 973 Project;
Selected as a doctor with outstanding contributions to the country;
Selected as one of the first batch of cross-century talents of the Ministry of Education;
Selected as a young and middle-aged expert with outstanding contributions to the country;
Selected as an academician of the Chinese Academy of Engineering;
Won the China Nonferrous Metals Industry Technology Outstanding Contribution Award;
Won the Baosteel Outstanding Teacher Award;
Won the Hunan Province “Guangzhao” Science and Technology Award.
Social employment
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