| |||||
Name: | Zhang Qiang |
| |||
Academic Title: | Associate professor | ||||
Advisor Type: | Master Supervisor | ||||
Department: | State Key Laboratory of Heavy Oil | ||||
Research Interests: | Preparation of materials and catalysts in catalytic cracking and related fields; The desulfurization and denitration catalyst; Methanol reforming catalyst. | ||||
E-Mail: | XYZ@upc.edu.cn | ||||
Telephone: | 15165283035/0532-86981260 | ||||
|
|
| |||
◎Educational Background | |||||
1998-2002, Master of Engineering in chemical technology, College of chemistry and chemical engineering, University of Petroleum (East China) 2003-2008, Doctoral candidate, major in chemical engineering and technology, China University of Petroleum (East China) | |||||
|
|
|
| ||
◎Work Experience | |||||
2008-2010, Lecturer, Department of chemical engineering, School of chemical engineering, China University of Petroleum (East China) 2011 to present, Associate Professor, College of chemistry and chemical engineering, China University of Petroleum (East China) | |||||
|
|
|
| ||
◎Research Direction | |||||
[1] Molecular Sieve Synthesis [2]Additive for increasing propylene production in catalytic cracking [3]FCC flue gas desulfurization additives [4] Methanol conversion process [5]Alkane cracking [6]Crude oil cracking | |||||
|
|
|
| ||
◎Research Project | |||||
[1] 2009-2012, Shandong Youth Fund, synthesis of ZSM-5 core-shell composite molecular sieve, presided over; [2] 2011-2013, Independent innovation of scientific research projects in the school, cubic phase type solid solution research of flue gas desulfurization agent, presided over; [3] 2012-2014, China national petroleum corporation project, high methanol gasoline production range of propylene selectivity catalyst test technology research, presided over; [4] 2013-2015, Qingdao people's livelihood projects, flue gas desulfurization technology in the refinery catalytic unit, presided over; [5] 2015-2017, Youth fund of national natural fund, macromolecular pre cracking theory research - proton heavy oil cracking and the effect of acid a soft hard, presided over; [6] 2018, China national petroleum co., LTD., urumqi petrochemical company, methanol gasoline selective production combined catalyst for propylene and complete set technology development, presided over.
| |||||
|
|
|
| ||
◎Representative Papers and Patents | |||||
1. Paper Published more than 30 papers, representative papers are as follows: [1] Zhang Qiang, Li Chunyi, Shan Honghong, Yang Chaohe. Two-stage crystallization synthesis of composite molecular sieves,Journal of Chemistry in Colleges and Universities,2009,37(6):722-727. [2] Zhang Qiang, Li Chunyi, Shan Honghong, Yang Chaohe. Effects of Seed Crystals and Solvents on the Formation of Composite Molecular Sieves,Journal of Fuel Chemistry, 2011, 39(10):787-791. [3] Zhang Qiang, Li Chunyi, Shan Honghong, Yang Chaohe. Synthesis of ZSM-5/SAPO-5 Composite Molecular Sieve by Preloading Raw Materials, Journal of Chemistry in Colleges and Universities, 2011,32(12):2721-2726. [4] Qiang Zhang, Chunyi Li, Shaojun Xu, Honghong Shan,Chaohe Yang.Synthesis of a ZSM-5(core)/SAPO-5(shell) composite and its application in FCC, J Porous Mater, 2013, 20(1) : 171-176. [5] Zhang Qiang, Xu Shaojun, Meng Xiaojing, Yang Wenhui, Li Chunyi, Shan Honghong, Yang Chaohe. Influence of Preparation Process of Preloaded Raw Materials on the Formation of Composite Molecular Sieves, Journal of Chemistry in Colleges and Universities, 2013, 34(4):782-787. [6] Qiang Zhang, Jie Yang, Ya-nan Gao, Chun-yi Li, Li Sun. The preparation of Mg–Al spinels through the method of using templates. Appl Petrochem Res. 2015 5:247–253. [7] Wen-Hui Yang, Qiang Zhang, Chun-Yi Li, Hong-Hong Shan, Chao-He Yang. Studies on the Regeneration Mechanism of Mg-Al-Ce-Fe Mixed Spinel De-SOx Additives,Industrial & Engineering chemistry research, 2012, 51, 13085−13091. [8] Shaojun Xu, QiangZhang, Zhaoxuan Feng,Xiaojing Meng Tongyu Zhao, Chunyi Li, Chaohe Yang, Honghong Shan. A high-surface-area silicoaluminophosphate material rich in Brönsted acid sites as a matrix in catalytic cracking. Journal of Natural Gas Chemistry2012, 21:685–693. [9] Qingjun Yu, Chaoyue Cui, Qiang Zhang, Jing Chen, Yang Li, Jinpeng Sun, Chunyi Li, Qiukai Cui, Chaohe Yang, Honghong Shan. Hierarchical ZSM-11 with intergrowth structures: Synthesis, characterization and catalytic properties, Journal of Energy Chemistry,2013,22(5):761-768. [10] Qingjun Yu, Qiang Zhang, Jianwei Liu, Chunyi Li. Inductive effect of various seeds on the organic template-free synthesis of zeolite ZSM-5, CrystEngComm, 2013,15: 7680-7687. [11] Wang B., Han C., Zhang Q., Li C., Yang C., Shan H. Studies on the Preliminary Cracking of Heavy Oils: The Effect of Matrix Acidity and a Proposal of a New Reaction Route, Energy & Fuels,2015, 29(9): 5701-5713. [12] Meng X., Yu Q., Gao Y., Zhang Q., Li C., Cui Q. Enhanced propene/ethene selectivity for methanol conversion over pure silica zeolite: Role of hydrogen-bonded silanol groups, Catalysis Communications, 2015, 61: 67-71. [13] Huang Hui-wen, Zhu Hui, Zhang Shan-he, Zhang Qiang, Li Chun-yi. Effect of silicon to aluminum ratio on the selectivity to propene in methanol conversion over H-ZSM-5 zeolites. Journal of Fuel Chemistry and Technology. 2019, 47(1):74-84. [14] Yan-Hong Chen, Dong-Min Han , Hong-Xia Cui, Qiang Zhang. Synthesis of ZSM-5 via organotemplate-free and dry gel conversion method: Investigating the effects of experimental parameters, Journal of Solid State Chemistry, 2019,279:120969-120977. [15] Huiwen Huang, Mengyun Yu, Qiang Zhang, Chunyi Li. Mechanistic study on the effect of ZnO on methanol conversion over SAPO-34 zeolite, Catalysis Communications, 2020, 137:105932-105937. 2. Patent The first inventor authorized 10 invention patents. [1]2013,A kind of preparation method of molecular sieve primary structural unit pillared magnesia saponite, ZL201210248362.3; [2] 2014,A kind of preparation method of pillared magnesia saponite type catalytic cracking flue gas sulfur transfer agent, ZL201210248238.7; [3]2015,A kind of preparation method of large specific surface area catalytic cracking flue gas sulfur transfer agent,ZL201210247794.2; [4]2016,A catalyst for converting methanol into gasoline and taking into account the yield of propylene and preparation method thereof, ZL201310218415.1; [5]2016,Mixed crystal phase catalytic cracking flue gas sulfur transfer agent prepared by secondary growth method and its application, ZL201410105073.7; [6]2016,Mixed crystal phase catalytic cracking flue gas sulfur transfer agent and its preparation method and application, ZL201410104909.1; [7]2019,A kind of magnesium-aluminum spinel composite material wrapped with silicon-phosphorus-aluminum layer and its application, ZL201611085064.1; [8] 2019,A kind of low silicon SAPO-34 molecular sieve and its preparation method and application,ZL201611085063.7; [9] 2019,A kind of low silicon-aluminum ratio SAPO-34 molecular sieve and its preparation method and application, ZL201611092836.4. [10] 2021,Molecular sieve catalyst with modified magnesium aluminum spinel as carrier and preparation method,ZL201811399040.2. | |||||
|
|
|
| ||
◎Representative Works | |||||
None | |||||
|
|
|
| ||
◎Awards and Honors | |||||
[1] 2008, Won the first prize of scientific and technological progress of China Petroleum and Chemical Industry Association: project name research and development of new catalytic cracking catalyst/additives for increasing propylene production; [2] 2011, One third prize of Tianjin Binhai New Area Science and Technology Award: project name development and industrial experimental research of sulfur transfer agent in FCC flue gas; [3] 2015, Won the second prize of the technological invention award of the Ministry of Education: project name new technology of catalytic cracking of coker gas oil to produce propylene and high octane gasoline; [4] 2015, Won the second prize of Shandong Technological Invention Award: project name new technology of heavy oil catalytic cracking to produce more propylene and high octane gasoline. | |||||
|
|
|
| ||
◎Courses Offered | |||||
Undergraduate:None Postgraduate:None | |||||
|
|
|
| ||
◎Student Training | |||||
1. Supervise Postgraduate Students Guide four academic postgraduates and three professional postgraduates. There are four graduate students, including one working in Haike petrochemical and another working in state-owned enterprises. 2. Admissions Instructions Chemical process and technology, chemical engineering
| |||||
|
|
|
| ||
◎Part-time Academic Job | |||||
None | |||||
+86 86981731
66 Changjiang West Road, Huangdao District,Qingdao City, Shandong Province
weimengji@upc.edu.cn
On-campus links
Copyright © China University of Petroleum (East China) College of Chemical Engineering
Technical Support: 9.3 Studio