Institute of Flash Green Development and Recycling

Founded in May 2016, the Institute is the first pilot innovation platform of Jiangxi University of Science and Technology. In July 2017, it was approved to set up Ganzhou Engineering and Technology Research Center of "Green Recycling and High value Utilization of rare metal solid waste" and then was authorized to build the Jiangxi Provincial Key Laboratory of Flash Green Development and Recycling in October, 2019.

Under the leadership of Zhang Wenhai an academician of Chinese Academy of Engineering, we give full play to the domestic leading advantages of flash metallurgical industry and technology. With the development concept of "innovation, green, coordination and win-win", the institute gives full play to the domestic leading advantages of our province's flash metallurgy industry and our university's flash metallurgy technology. gathers talents from mining, metallurgy, chemical industry, materials and other disciplines and focus on the key common issues in the field of energy saving and environmental protection in iron and steel and non-ferrous metal industries by gathering the elements of scientific and technological innovation to carry out the basic theoretical research on the expansion and application of flash metallurgy and the new method of solid waste recycling, focus on the green technology theories such as flash smelting, thin gold solid waste recycling and thin powder preparation, we did a lot in the process of recycling rare gold solid waste and rare gold powder preparation. The institute hopes to make a series of major innovative achievements and to promote the transformation and upgrading of science and technology in the metallurgical industry of Jiangxi province and all over the country.

Relying on the National Engineering Technology Research and Development Center and Utilization of Ionic rare Earth Resources, the Ministry of Education Laboratory for the Development and Application of Ionic rare Earth Resources, the National Copper smelting and processing Engineering Technology Research Center, the Ministry of Education Engineering Research Center for efficient Development and Application of Tungsten Resources, the National Product quality Supervision and Inspection Center, Academician Workstation and a number of national scientific research platforms in Jiangxi University of Science and Technology. The institute has a relatively complete technical research and development system covering an area of about 1500 m², with a total equipment value of over 10 million RMB. Including self-developed high temperature suspension melting furnace, vertical rotary microwave roasting furnace, high vacuum microwave sintering furnace, high temperature microwave tunnel kiln plasma spectrum analyzer, field emission scanning electron microscope, transmission electron microscope, X-ray fluorescence spectrometer, etc.

The Institute attaches great importance to cooperation and exchange at home and abroad and has jointly built academician workstation, joint R&D center and experimental base with universities such as the University of Utah in the United States, Aalto University in Finland, Tsinghua University, Central South University and Chongqing University and enterprises like Jiangxi Copper Group, China Ruilin Engineering Technology Co., Ltd., Yunnan Metallurgical Group, Yunxi Copper Co., Ltd., Beijing Flash Iron Technology Co., Ltd., Ganzhou rare Earth Youli Science and Technology Development Co., Ltd., Lichang Technology (Ganzhou) Co., Ltd. Tec.

The institute has a strong research team with good quality, professional ability, and reasonable age, academic and educational structure including 25 full-time and part-time researchers. Among them, Zhang Wenhai is an academician of Chinese Academy of Engineering, one is young and middle-aged discipline leader of the province, one is young scientist awarded the provincial "Jinggang Star" and one candidate of the provincial "tens of millions of talents Project" and one of the first batch of Qingjiang top-notch talents in Jiangxi University of Science and Technology. The institute has trained two doctoral students, 26 master's degree students and 12 doctor's and master's degree students.

In the past five years, the institute has undertaken 35 national key plans supported by national science and technology and national funds, has published 57 academic papers in domestic and foreign core journals, 39 of which have been collected by SCI/EI, has applied for 25 national patents with 21 approved, and has granted 4 software copyrights. A number of technological achievements have been popularized and applied in enterprises and won 5 provincial and ministerial science and technology awards.

2. Research Directions

(1) Theoretical research on flash metallurgy technology.

(2) Theoretical research on green recycling technology of rare metal solid waste.

(3) Theoretical research on green preparation technology of rare metal powder.

(4) Theoretical research y on green development and high value utilization of lithium resources.

二、Scientific Research Achievements

1. Rewards

[1] Key technologies and industrialization of collaborative green extraction of rare and precious metals associated with copper anode slime, first prize for scientific and technological progress in Jiangxi Province, 2020.

[2] The first prize for scientific and technological progress in Gansu Province, the research and development and application of the new silver copper molten pool melting furnace (BYL-3), 2013.

[3] China Nonferrous Metals Industry Science and Technology second Prize, key Technology and Application of Green electrolysis and Comprehensive recovery of High impurity Copper anode, 2019.

[4] Jiangxi Science and Technology Progress Award, Technology and equipment Development of recycled Copper smelting system, 2016.

[5] The third prize of science and technology in Anhui Province, key technology and industrial application of high-yield "emergency flasher" copper smelting process, 2016.

[6] The third prize for scientific and technological progress in Jiangxi Province, R & D and industrialization of new technology and equipment for high efficiency mineral processing of fine tungsten slime, 2015.

[7] China Nonferrous Metals Industry Science and Technology first Prize, Research and Application of Integrated Technology of New Silver Copper melting Pool melting Furnace (BYL-3), 2012.

[8] Ganzhou Science and Technology Progress Award, research on new technology and equipment for high efficiency mineral processing of fine tungsten slime, 2016.

[9] The second prize for teaching achievements in Jiangxi Province, based on the local industry-oriented research and practice of training applied talents of mining and metallurgy "three real" engineering, 2013.

[10] Jiangxi Province second Prize for Teaching Achievement, Open Metallurgical process Simulation experiment Teaching platform (OMS), 2013.

[11] China second prize for scientific and technological papers on non-ferrous metals, 2016.

2. Research Projects

[1] Project of National Natural Science Foundation of China, "study on Chemical Evolution and pollution Prevention and Control Mechanism of Electronic waste Top blowing smelting process (51764018)", 2018.01-2021.12.

[2] Project of the National Natural Science Foundation of China, "basic Research on selective Separation of Gallium and Germanium in oxalic Acid system with High Silicon complex material (51804141)", 2019.01-2021.12.

[3] Project of the National Natural Science Foundation of China, "Migration, Transformation and reaction strengthening Mechanism of concentrate in non-equilibrium Multiphase reaction system of Flash lead smelting (51564018)", 2016.01-2019.12.

[4] National key R & D project, "key Technology of Coupling ironmaking-Coal Gasification-Building Materials Co-production process (2016YFB0601304)", 2016.07-2020.06.

[5] Finnish National postdoctoral Fund Project, "HYMAG PROJECT FOR Nd-Fe-B MAGNET (SL/84/04.03.00.0400/2017)", 2017.11-2019.11.

[6] Key projects of the National 863 Program, "Research on key Technologies and equipment for continuous lead smelting with Vortex column (2009AA064603)", 2010.01-2012.06.

[7] National "12th five-year Plan" Science and Technology support Project, "New Technology and demonstration of short process Flash smelting of Gold-bearing cyanide Slag (2013BAB03B05)", 2013.01-2017.12.

[8] Project of Beijing Municipal Science and Technology Commission, "Research on non-blast furnace flash ironmaking Carburizing technology (Z161100000716002)", 2016.07-2018.12.

[9] Young scientists in Jiangxi Province training object Program Project, "study on material Transformation Mechanism of High temperature Melt Multiphase reaction system in Flash melting (20133BCB23018)", 2013.1-2016.12.

[10] Project of Jiangxi Natural Science Foundation, "Digital Simulation of Direct lead smelting process in Flash smelting (2012ZBAB206002)", 2013.01-2015.12.

[11] Natural Science Foundation of Jiangxi Provincial Department of Education, "physical and chemical multi-effect mechanism and optimal regulation mechanism in the process of high current density copper electrolysis", 2017.01-2018.12.

[12] Natural Science Foundation of Jiangxi Provincial Department of Education, "Deep Separation of RE/Fe in the process of selective Transformation of NdFeB waste", 2018.01-2019.12.

[13] Science and Technology Project of Jiangxi Provincial Department of Education, "study on seepage-reaction Coupling Mechanism of leaching Agent in Ionic rare Earth Orebody" (GJJ150689), 2016.01-2017.12.

[14] Major R & D project of Jiangxi University of Technology, "key Technologies of Green Recycling of rare Gold solid waste", 2017.10-2018.12.

[15] Scientific research project commissioned by enterprises, "Research on Optimization of rare Earth recovery system", 2012.03-2012.06.

[16] Enterprises entrust scientific research projects, "demonstration Project of Cleaner production Technical Reform in rare Earth Separation and smelting", 2012.07-2012.12.

[17] A scientific research project commissioned by enterprises, "Experimental study on recovery and utilization of tin from copper anode slime", 2011.09-2013.06.

[18] Scientific research project commissioned by enterprises, "study on formation mechanism and prevention and control measures of electric furnace slag package", 2012.07-2014.06.

[19] Scientific research project commissioned by enterprises, "computer simulation of flash smelting process of jamesonite", 2013.09-2014.08.

[20] Scientific research project commissioned by enterprises, "Experimental study on Bismuth removal Technology from electrolyte", 2016.09-2017.12.

[21] A scientific research project commissioned by enterprises, "study on element Distribution behavior in Electronic waste smelting process", 2016.02-2018.02.

[22] The enterprise commissioned a scientific research project, "key Technology and Engineering Research on the preparation of Lithium Carbonate from lepidolite", 2017.07-2018.12, presided over.

[23] The enterprise commissioned a scientific research project, "Research on the Technology of extracting Rubidium and cesium from feldspar", 2017.11-2018.05, presided over.

[24] Scientific research project commissioned by enterprises, "Experimental study on expansion of non-blast furnace flash ironmaking Carburizing", 2017.11-2018.01.

[25] Scientific research project commissioned by enterprises, "Experimental study on reduction of non-blast furnace flash ironmaking", 2017.11-2018.01.

[26] Scientific research project commissioned by Chinese Society of Composite Materials, "performance Test of Thermal Insulation Cork Composites", 2019.1-2019.06

3. Academic Papers

[1]Jinliang Wang, Huazhou Hu, Kaiqi Wu.Extraction of lithium, rubidium and cesium from lithium porcelain stone[J].Hydrometallurgy, 2020, 191:105233.

[2]Jin-Liang Wang, Hua-Zhou Hu, Boren Ji. Selective extraction of Li, Rb, and Cs and precipitation of lithium carbonate directly from lithium porcelain stone[J]Russian Journal of Non-Ferrous Metals, 2020, 61(2):143–152.

[3]Jinliang Wang, Houqing Wang, Changren Tong, Wenhai Zhang, Chuangfu Zhang. Simulation of Frozen Slag inside Brickless Reaction Shaft of Flash Smelting Furnace. Metallurgical and Materials Transactions B, 2013, 44(6): 1572-1579.

[4]Jin-Liang Wang, Hua-Zhou Hu. The Use of Antimony Trioxide in Copper Electro-lyte Purification and Its Subsequent Regeneration: An Experimental and Mechanistic Study Russian Journal of Non-Ferrous Metals, 2018, 59(3): 237–249.

[5]WANG Jin-liang, WEN Xiao-chun, ZHANG Chuan-fu. Thermodynamic model of lead oxide activity in PbO-CaO-SiO2-FeO-Fe2O3 slag system. Transactions of Nonferrous Metals Society of China, 2015, 25(5): 1633−1639.

[6]WANG Jin-liang, ZHANG Wen-hai, ZHANG Chuan-fu. Furnace structure analysis for copper flash continuous smelting based on numerical simulation. Transactions of Nonferrous Metals Society of China, 2013, 23(12): 3799-3807.

[7]HE SM, WANG JK, XU ZF, WANG JL, GAN L. Removal of Copper and Enrichment of Precious Metals by Pressure Leaching Pretreatment of Copper Anode Slime in Sulfuric Acid Medium. Precious Metals, 2014, 35(4): 48-53.

[8]Liu Fupeng, Liu Zhihong, Li Yuhu, Liu Zhiyong, Li Qihou, Zeng Li. Extraction of gallium and germanium from zinc refinery residues by pressure acid leaching. Hydrometallurgy, 2016,164: 313-320.

[9]Liu Fupeng, Liu Zhihong, Li Yuhu, Benjamin P. Wilson, Mari Lundström. Recovery and separation of gallium(III) and germanium(IV) from zinc refinery residues: Part I: Leaching and iron(III) removal. Hydrometallurgy, 2017,169: 526-527.

[10]Liu Fupeng, Liu Zhihong, Li Yuhu, Benjamin P. Wilson, Zeng Li, Liu Zhiyong, Mari Lundström. Recovery and separation of gallium(III) and germanium(IV) from zinc refinery residues. PartⅡ: Solvent extraction. Hydrometallurgy, 2017,171:149 -156

[11]Liu Fupeng, Liu Zhihong, Li Yuhu, Benjamin P. Wilson, Mari Lundström. Extraction of Ga and Ge from zinc refinery residues in H2C2O4 solutions containing H2O2. International journal of mineral processing. 2017, 163: 14-23.

[12]Liu Fupeng, Liu Zhihong, Li Yuhu, Benjamin P. Wilson, Mari Lundström. Behaviors of gallium and germanium associated with zinc sulfide concentrate in oxygen pressure leaching. Physicochemical Problems of Mineral Processing, 2017, 53(2): 1047-1060.

[13]Liu Fupeng, Wang Jinliang, Peng Chao, Liu Zhihong, Benjamin P. Wilson, Mari Lundström. Recovery and separation of silver and mercury from hazardous zinc refinery residues produced by zinc oxygen pressure leaching. Hydrometallurgy, 0304-386X, 2019.01, 186: 38-45.

[14]Chao Peng, Fupeng Liu*, Zulin Wang, Benjamin P. Wilson, Mari Lundström. Selective extraction of lithium (Li) and preparation of battery grade lithium carbonate (Li2CO3) from spent Li-ion batteries in nitrate system, Journal of Power Sources, 0378-7753, 2019.01, 415: 179-188.

[15]Zhiqian Zhang, Junteng Qu, Shu Zhang, Qiuping Miao, Yixian Wu. Ethylene/propylene copolymerization catalyzed by half-titanocenes containing monodentate anionic nitrogen ligands: effect of ligands on catalytic behaviour and structure of copolymers. Polymer chemistry, 2018, 9: 48-59.

[16]Xiang Lei, Zhantong Ye, Feifei Lei, Nan Zhao, Hua Yang. Fabrication, structure and magnetic properties of γ′-Fe4N/Fe3C, χ-Fe5C2and θ-Fe3C by a simple route for applied in electrochemical catalysts. Chemistry-A European Journal. 2017, 23(69):17592–17597.

[17]Xiang Lei , Wei Wang, Zhantong Ye, Nan Zhao, Hua Yang. High saturation magnetization of Fe3C nanoparticles synthesized by a simple route. Dyes and Pigments. 2017, 139:448-452.

[18]Xiang Lei , Peng Zhang, Xiaobai Wang, Wei Wang, Hua Yang. (Fe1-xNix)3N nanoparticles: the structure, magnetic and photocatalytic properties for water splitting. RSC Advances. 2016, 6(50): 44641-44645.

[19]Li Mingzhou, Zhou JM, Tong CR. Zhang WH,CHEN Z, Wang J L. Thermodynamic modeling and optimization of the copper flash converting process using the equilibrium constant method[J]. Metallurgical & Materials Transactions B, 2018,(49B):1-14.

4. Patents

[1] Patent for invention. A method for comprehensive recovery of valuable metals from silver residue of copper anode slime, 201410221705.6. Authorization.

[2] Patent for invention. A method of all-wet pretreatment of copper anode slime,201410221865.0 Authorization.

[3] Patent for invention. A method of impurity removal by precipitation of copperelectrolyte, 201710372637.7 Authorization.

[4] Patent for invention. A method for removing impurities from copper electrolyte and chlorination regeneration of precipitant, 201710372522.8. Authorization.

[5] Patent for invention. A method for recovering valuable metals from copper anode casting slag, 201410221758.8.Authorization.

[6] Patent for invention. A method for preparing sodium Stannate from silver residue from copper anode slime, 201410221892.8. Authorization.

[7] Patent for invention. A method for preparing lead-tin alloy from silver residue of copper anode slime, 201410221685.2. Authorization.

[8] Patent for invention. The invention relates to a method for preparing flake silver-coated copper powder. CN201410200972.5. Authorization.

[9] Patent for invention. The invention relates to a method for preparing flake copper powder in an aqueous system. CN201410200955.1. Authorization.

[10] Patent for invention. A method for selective leaching of rare earths from NdFeB sludge, 201711413499.9. Authorization.

[11] Patent for invention. A method for selectively recovering lithium from waste lithium batteries and preparing lithium carbonate, 201810353215.X. Application.

[12] Patent for invention. A method of synergistic recovery of valuable metals from waste lithium batteries and Ni-MH batteries, 201810353418.9. Application.

[13] Patent for invention. A method for flash rich roasting of NdFeB waste. 201811232089.9. Authorization.

[14] Patent for invention. A comprehensive recovery method of NdFeB waste by flash controlled oxygen roasting, 201811232095.4. Authorization.

[15] Patent for invention. An one-step comprehensive recovery method of NdFeB waste by flash roasting, 201811232098.8. Authorization.

[16] Patent for invention. A method for flash roasting of supergravity slag from NdFeB waste, 201811231887.X. Authorization.

[17] Patent for invention. A method for comprehensive recovery of NdFeB waste with emergency flasher, 201811231848.X. Authorization.

[18] Patent for invention. A method for direct comprehensive recovery of NdFeB waste with emergency flasher, 201811231888.4. Authorization.

[19] Patent for invention. A method for comprehensive financial recovery of NdFeB waste emergency flasher hypergravity slag, 201811231886.5. Authorization.

[20] Patent for invention. A method for comprehensive recovery of NdFeB waste acid leaching residue by flash reduction, 201811232637.8. Authorization.

[21] Patent for invention. A method for one-step comprehensive recovery of NdFeB waste acid leaching residue by flash reduction, 201811232639.7. Authorization.

[22] Patent for invention. A method for comprehensive financial recovery of supergravity slag by flash reduction of NdFeB waste acid leaching residue, 201811232627.4. Authorization.

[23]Invention patent: smelting device and method of antimony, 2013100410340.

[24] Software copyright. Computer Simulation system of Vortex column continuous lead smelting process, 2012SR063608. Authorization.

[25] Software copyright. Digital simulation system for migration and transformation of lead concentrate, 2017SR730378. Authorization

三、Members Profile

Zhang Wenhai, Academician of Chinese Academy of Engineering

Academician of the Chinese Academy of Engineering (Department of Chemical Engineering, Metallurgy and Materials), graduated from Central South University, majored in non-ferrous metallurgy, national engineering design master, national model worker, in 2009, he was named one of the 30 most influential figures in China's non-ferrous metals industry. In 2019, the CPC Central Committee, the State Council and the Central military Commission awarded the commemoration medal of the 70th anniversary of the founding of the Republic.

Successive chief designers of Jiangxi Copper Industry, Anhui Jinlong and other national key projects successfully presided over the technological innovation of "cold air flash metallurgy", which put an end to the history of "hot air flash metallurgy" in the world, and developed the digital model of nickel metallurgy in Jinchuan, Gansu Province. the computer on-line control system of the world's first nickel flash furnace has been built.

A quantitative mathematical description method for the cyclic accumulation of volatile elements is put forward, and the software achievements are applied in many major projects at home and abroad, and presided over the scheme demonstration of Shandong Xiangguang project, which started a new metallurgical pattern of "emergency flasher" in our country. the new concepts of "non-contact vortex column metallurgy" and "non-blast furnace flash ironmaking" have won invention patents at home and abroad.

As the first finisher, he won the first prize of National Science and Technology Progress Award, the National excellent Engineering Design Gold Award, the National excellent computer Engineering Software Gold Award, the State Nonferrous Bureau Science and Technology Progress Award, the National Renewable Resources Strategic Alliance Special contribution Award, the Jiangxi Provincial people's Government Science and Technology Special contribution Award and the Hong Kong Liu Yongling Award.

Important work has been done to establish the advanced pattern of strengthening metallurgy and cleaner production in China's non-ferrous metals industry and to promote "cross-discipline integration".

Zhan Xiaoqing researcher / Academician Assistant

She graduated from Jiangxi Institute of Metallurgy (now Jiangxi University of Technology), majored in Mineral processing, former Director of Science and Technology Department of Nanchang Nonferrous Metallurgical Design and Research Institute, now researcher of Jiangxi University of Technology and Academician Zhang Wenhai.

She has been the project leader of two national 863 projects and the person in charge of provincial key scientific research projects, and has won the first prize for scientific and technological progress in Jiangxi Province, the national gold award for excellent computer software and the first prize for excellent computer software in Jiangxi Province. is participating in the national 13.5 science and technology key project "non-blast furnace flash ironmaking" research work, as deputy leader.

She has the qualifications of "National registered Consulting engineer", "National registered Mining processing engineer" and "National registered Auditor of ISO9000 Standard". She has served as a member of the quality Management Committee of "China Engineering Consulting Association".

Professor Wang Jinliang / Phd candidate supervisor

He was born in December, 1976, got doctor degree from Central South University majored in non-ferrous metal metallurgy. He is a postdoctor Ruilin in China, a visiting scholar at the University of Utah in the United States,  one of the tens of millions of talents in Jiangxi Province, one of the young and middle-aged discipline leaders in colleges and universities in Jiangxi Province, one of the "Jinggang Star" young scientists in Jiangxi Province, one of the first batch of Qingjiang top-notch talents, and a member of the heavy Metallurgical Committee of China Nonferrous Metals Society and Metallurgical solid waste Utilization Committee of China Metal Society.

He is currently the director of Jiangxi Provincial Key Laboratory of Flash Green Development and Recycling, the Secretary of the General Party Branch of the Institute of Metallurgical Engineering and the Vice President of the Engineering Research Institute.

He has successively presided over 25 projects such as the National 863 key Plan, the National Science and Technology support Plan, the National Nature Fund, etc., published 42 papers, 28 of which were included by SCI/EI, published 1 monograph, applied for 23 invention patents, authorized 19, and obtained 2 software copyrights.

Technologies such as "low-grade lithium mica green preparation of lithium carbonate with low consumption", "high impurity copper electrolysis and green extraction of rare and precious metals associated with anode mud" have been popularized and applied in enterprises, and have won 3 first prize and 1 second prize for scientific and technological achievements at the provincial and ministerial level.

Lecturer Chen Zaoming

He was graduated from Nanchang University with a master's degree in chemical engineering. He is currently the deputy director of Jiangxi Flash Green Development and Recycling key Laboratory and the director of the Comprehensive Office of Engineering Research Institute of Jiangxi University of Technology.

He has successively presided over 6 projects such as Jiangxi Natural Science Foundation Project, Jiangxi Education Department Science and Technology Landing Plan Project, Jiangxi Education Department Science and Technology Project, horizontal Project, etc., published 8 papers, and was included in 2 by SCI/EI; applied for 4 invention patents, authorized 2; and won 1 second prize in China Nonferrous Metals Industry.

Lecturer Liu Fupeng / Master Director

Born in May 1987, he is a member of the Communist Party of China, graduated from Central South University, majored in Nonferrous Metallurgy, postdoctoral fellow of Aalto University in Finland, excellent talents of Boxin Program in Shandong Province, and outstanding talents in Qingjiang.

He is engaged in the comprehensive recovery of rare and precious metal secondary resources, has successively presided over 6 domestic and international projects, such as the National Natural Science Foundation of China, the HYMAG Regional Fund of Finland, and the postdoctoral Fund of China, participated in 5 EU international projects, published more than 20 SCI/EI academic papers, including 4 SCI papers with impact factors above 7.0 in one area, 15 patent applications and 10 authorizations.

He also has established a long-term cooperative relationship with Aalto University in Finland and won the 2018 Scientific Research contribution Award of Aalto University in Finland and one second prize for scientific and technological achievements at the provincial and ministerial level.

He was born in January, 1984 and he graduated from Kunming University of Science and Technology with a doctor's degree in nonferrous metallurgy.

Mainly engaged in flash smelting metallurgical technology theoretical research, He has successively presided over 3 projects such as Jiangxi Education Department Science and Technology Project, horizontal Project, etc., published 7 papers; applied for 6 invention patents, authorized 3; and won 1 second prize in China Nonferrous Metals Industry.

Lecturer Lei Xiang

He was born in November 1990 and graduated from Jilin University majoring in physical chemistry.

He is engaged in flash green synthesis and application of powder materials, presided over and participated in 2 projects of provincial education department, and published 21 SCI articles in international magazines such as Chemistry-An European Journal,Dyes and Pigments and RSCAdvances.

Lecturer Zhang Zhiqian

He was born in December 1987, graduated from Beijing University of Chemical Technology, majoring in chemistry.

He was engaged in the research of safety engineering materials and rare earth-based functional composites under the polyurethane base and published 3 papers in domestic and foreign academic journals and formed 8 invention patents.

At present, the developed underground safety engineering material technology is being transformed in the field of tunnel and coal mine safety engineering, and good application results have been achieved.

Hu Huazhou experimenter

Born in August 1992, he is a member of the Communist Party of China, graduated with a master's degree in Metallurgical Engineering from Jiangxi University of Technology.

He successively participated in 1 National Natural Science Foundation, 5 scientific research projects commissioned by enterprises, published 6 papers, 3 were included by SCI, applied for 4 invention patents, authorized 4, and won 1 second prize for scientific and technological achievements at the provincial and ministerial level.