Zhang Jinhong（Associate Professor）

  Name：

Zhang Jinhong

Academic Title：

Associate Professor

Advisor Type：

Master Instructor

  Department：

State Key Laboratory of Heavy Oil Processing

Research Interests：

Energy Chemical Engineering

  E-Mail：

zhangjh@upc.edu.cn

  Telephone：

15153242081

◎Educational Background

2004-2008, School of Chemistry and Chemical Engineering, China University of Petroleum (East China), Bachelor of Engineering

2008-2011, School of Chemistry and Chemical Engineering, China University of Petroleum (East China), Master of Engineering

2011-2014, School of Chemistry and Chemical Engineering, China University of Petroleum (East China), Ph.D.

◎Work Experience

2014-2016, School of Chemistry and Chemical Engineering, China University of Petroleum (East China), Postdoctoral Fellow

2016-2017, State Key Laboratory of Heavy Oil Processing, School of Chemistry and Chemical Engineering, China University of Petroleum (East China), Lecturer

2018-present, State Key Laboratory of Heavy Oil Processing, School of Chemistry and Chemical Engineering, China University of Petroleum (East China), Associate Professor

◎Research Direction

[1] Oil and natural gas processing direction (new technologies for clean conversion and high-value utilization of heavy oil/crude oil, chemistry for fast catalytic conversion of heavy oil, oil shale/oil sand pyrolysis technology, natural gas purification, etc.)

[2] Biorefinery direction (biomass catalytic pyrolysis, biomass catalytic gasification, bio-oil utilization, etc.)

[3] Waste recycling direction (pyrolysis and gasification of domestic waste, recycling of waste plastics, sludge treatment, etc.)

[4] Coal chemical industry direction (coal pyrolysis, coal gasification, coal tar processing and utilization, etc.)

[5] Numerical simulation direction (CFD numerical simulation of fluidized bed reactor)

◎Research Project

[1] Presided over the general project of the National Natural Science Foundation of China, the applied basic research on the production of light olefins by millisecond graded acid-base coupled catalytic cracking of heavy crude oil;

[2] Presided over the National Natural Science Foundation of China Youth Science Fund Project, the research on the reaction chemistry of solid base-catalyzed high-temperature fast cracking of inferior heavy oil;

[3] Presided over the special project of the Key Scientific Research Platform Fund of the State Key Laboratory of Heavy Oil Processing, the research on the production of olefins from heavy crude oil by staged catalytic cracking;

[4] Presided over the Shandong Natural Science Foundation Youth Fund Project, the basic research on solid base catalytic conversion reaction of inferior heavy oil;

[5] Presided over the research award fund for outstanding young and middle-aged scientists in Shandong Province, research on the rapid pyrolysis law and reaction kinetics of vacuum residue;

[6] Presided over the first-class funding of China Postdoctoral Science Foundation, the research on high temperature and rapid thermal transformation behavior of heavy oil;

[7] Presided over the funding of applied research projects for postdoctoral researchers in Qingdao;

[8] Presided over the independent innovation scientific research project of China University of Petroleum (East China), 18CX02117A;

[9] In charge of China University of Petroleum (East China) independent innovation scientific research project, 15CX02020A;

[10] Participated in the general project of the National Natural Science Foundation of China, the applied basic research on the preparation of low-carbon olefins by millisecond staged gas-phase catalytic cracking of inferior heavy oil;

[11] Participated in the major scientific and technological innovation projects in Shandong Province, the rapid improvement of saline soil biological liquid humic acid and the research and development and application of soil fertility products;

[12] Participated in the Qingdao Citizens' Living Science and Technology Project, research and industrial demonstration of efficient and clean energy application of kitchen waste;

[13] Participated in the National Natural Science Foundation of China Petrochemical Joint Fund Key Project, Molecular Management Engineering Foundation in Heavy Oil Hydrotreating and Catalytic Cracking;

[14] Participated in the general project of the National Natural Science Foundation of China, basic research on catalytic conversion of high aromatics and high nitrogen heavy oil;

[15] Participated in the general project of the National Natural Science Foundation of China, the basic research on the coupling technology of millisecond high-temperature pyrolysis-gasification regeneration of low-quality heavy oil double-reaction tubes;

[16] Participated in the general project of the National Natural Science Foundation of China, the applied basic research of biomass rapid pyrolysis of oil and gas relay-type alkaline catalytic upgrading;

[17] Participated in the key R&D project of Shandong Province, the industrialization demonstration research of low-quality heavy oil double-tube millisecond catalytic pyrolysis-gasification coupling technology;

[18] Participated in the cooperation project of Xinjiang Design Branch of China Petroleum Engineering and Construction Corporation, and the development of 30,000 m³/day wellhead natural gas deacidification gas, dehydrocarbon process package technology development.

◎Representative Papers and Patents

1. Paper

[1] Zhang Jinhong*, Niwamanya Noah, Gao Chunxiao, Takyi Sekyere Daniel, Barigye Andrew, Tian Yuanyu*, Structure and millisecond pyrolysis behavior of heavy oil and its eight group-fractions on solid base catalyst, Fuel, 318 (2022) 123483. (SCI一区TOP)

[2] Zhang Jinhong*, Sekyere Daniel T., Niwamanya Noah, Huang Yansheng,  Barigye Andrew, Tian Yuanyu*, Study on the Staged and Direct Fast Pyrolysis Behavior of Waste Pine Sawdust Using High Heating Rate TG-FTIR and Py-GC/MS, ACS Omega, 7 (2022) 4245-4256. (SCI三区)

[3] Junhui Hao, Peijie Zong, Yuanyu Tian*, Jinhong Zhang*, Yingyun Qiao. Distribution and chemical structure characteristic of the fast thermal-cracking products of Buton oil sand bitumen by Py–GC/TOF–MS and a fluidized bed reactor. Energy Conversion and Management, 2019, 183: 485-499. (SCI一区Top)

[4] Junhui Hao, Wen Feng, Yingyun Qiao, Yuanyu Tian*, Jinhong Zhang*, Yuanjun Che, Thermal cracking behaviors and products distribution of oil sand bitumen by TG-FTIR and Py-GC/TOF-MS. Energy Conversion and Management, 2017, 151: 227-239 (SCI一区Top)

[5] Yuanjun Che, Meng Yuan, Yingyun Qiao, Qin Liu, Jinhong Zhang*, Yuanyu Tian*. Fundamental study of hierarchical millisecond gas-phase catalytic cracking process for enhancing the production of light olefins from vacuum residue. Fuel, 2019, 237:1-9. (SCI二区Top)

[6] Yuanjun Che, Junhui Hao, Jinhong Zhang*, Yingyun Qiao, Dawei Li, Yuanyu Tian*, Vacuum Residue Thermal Cracking: Product Yield Determination and Characterization Using Thermogravimetry–Fourier Transform Infrared Spectrometry and a Fluidized Bed Reactor, Energy & Fuels, 2018, 32 (2): 1348-1357. (SCI二区Top)

[7] Yuanjun Che, Ze Yang, Yingyun Qiao, Jinhong Zhang*, Yuanyu, Tian*. Study on pyrolysis characteristics and kinetics of vacuum residue and its eight group-fractions by TG-FTIR. Thermochim. Acta, 2018, 669: 149-155. (SCI三区)

[8] Zhang Jinhong*, Tian Yuanyu*, Qiao Yingyun, Yang Chaohe, Shan Honghong, Structure and Reactivity of Iranian Vacuum Residue and Its Eight Group-Fractions. Energy & Fuels, 2017, 31 (8), 8072-8086. (SCI二区Top)

[9] Zhang Jinhong, Che Yuanjun, Wang Zhenbo, Qiao Yingyun*, Tian Yuanyu*, Coupling Process of Heavy Oil Millisecond Pyrolysis and Coke Gasification: A Fundamental Study, Energy & Fuels, 2016, 30 (8): 6698-6708. (SCI二区Top)

[10] Zhang Jinhong, Wang Zhenbo, Zhao Hui, Tian Yuanyu, Shan Honghong, Yang Chaohe, Multi-scale CFD simulation of hydrodynamics and cracking reactions in fixed fluidized bed reactors, Applied Petrochemical Research, 2015, 5 (4): 255-261 (EI)

[11] Zhang Jinhong, Shan Honghong, Chen Xiaobo*, Liu Wenjing, Yang Chaohe*, Synergistic Process for High Nitrogen Content Feedstocks Catalytic Cracking: A Case Study of Controlling the Reactions of Nitrogen Compounds in Situ, Industrial & Engineering Chemistry Research, 2014, 53 (14): 5718-5727. (SCI二区Top)

[12] Zhang, Jinhong, Shan, Honghong*, Chen, Xiaobo, Liu, Wenjing, Yang, Chaohe*. Fluid Catalytic Cracking Study of Coker Gas Oil: Effects of Processing Parameters on Sulfur and Nitrogen Distributions[J]. Energy & Fuels, 2014, 28 (2): 1362-1371. (SCI二区Top)

[13] Zhang, Jinhong, Shan, Honghong, Chen, Xiaobo, Li, Chunyi, Yang, Chaohe*. In Situ Upgrading of Light Fluid Catalytic Cracking Naphtha for Minimum Loss. Industrial & Engineering Chemistry Research, 2013, 52 (19): 6366-6376. (SCI二区Top)

[14] Zhang, Jinhong, Shan, Honghong, Liu, Wenjing, Chen, Xiaobo, Li, Chunyi*, Yang, Chaohe*. Synergistic Process for Coker Gas Oil Catalytic Cracking and Gasoline Reformation. Energy & Fuels, 2013, 27 (2): 654-665. (SCI二区Top)

[15] Zhang, Jinhong, Shan, Honghong, Chen, Xiaobo, Li, Chunyi*, Yang, Chaohe*. Multifunctional Two-Stage Riser Catalytic Cracking of Heavy Oil. Industrial & Engineering Chemistry Research, 2013, 52 (2): 658-668. (SCI二区Top)

[16] Zhang, Jinhong, Shan, Honghong, Chen, Xiaobo, Li, Chunyi, Yang, Chaohe*. Multifunctional two-stage riser fluid catalytic cracking process, Applied Petrochemical Research, 2014, 4 (4), 395-400. (EI)

[17] Jinhong Zhang, Honghong Shan, Chaohe Yang, Xiaobo Chen, Chunyi Li. Catalytic cracking of coker gas oil at high reaction temperature and catalyst to oil ratio[J]. Advanced Materials Research, 2013, 724-725, 1112-1115. (EI)

[18] Zhang, J. H., Che, Y. J., Tian, Y. Y., Qiao, Y. Y., Wang, Z. B., High temperature millisecond pyrolysis of residue, International Conference on Civil, Transportation and Environment (ICCTE 2016), 1222-1225.

2. Patent

[1] Device and method for catalytic cracking and hydrogenation to produce clean gasoline and increase propylene production, ZL201310423606.1

[2] Device and method for the joint production of clean gasoline by catalytic cracking and hydrotreating, ZL201310423263.9

[3] Combined process of heavy petroleum hydrocarbon catalytic cracking and light petroleum hydrocarbon steam cracking, ZL201510710907.1

[4] Skid-mounted device and process for natural gas de-liquidation, slag and acid gas removal, ZL201510698016.9

[5] Clean and efficient treatment device for leachate in domestic waste gasification process, ZL201610281413.0

[6] Leachate Treatment Process of Domestic Waste Heat Treatment Process, ZL201610281411.1

[7] Combined power generation process with clean integrated gasification cycle for domestic waste, ZL201610280036.9

[8] Millisecond staged gas-phase catalytic cracking of heavy oil to produce light olefins, ZL201810341227.0

[9] A micro-evaluation device and method for catalytic cracking performance of heavy oil, ZL201710317273.2

[10] A micro-evaluation device and method for thermal cracking performance of heavy oil, ZL201710308081.5

[11] Alkaline millisecond catalytic cracking and gasification coupling process of low-quality heavy oil double-reaction tube, ZL201810341347.0

[12] Millisecond pyrolysis process of heavy oil solid heat carrier based on activation of small molecular hydrocarbons, ZL201810341305.7

[13] Millisecond pyrolysis-gasification coupling process of heavy oil double reaction tube semi-coke circulating bed, ZL201810341313.1

[14] Combined millisecond staged gas-phase catalytic cracking and hydrogenation of crude oil to maximize the production of chemical raw materials, ZL201810341186.5

[15] STEPWISE SOLIDUS SYNTHESIS METHOD FOR A MICRO-MESOPOROUS CALCIUM ALUMINATE CATALYST, US10668461

[16] Gasification co-generation process of coal powder in a Y-type entrained flow bed, 2020.07.14, US10711209

[17] Integrated device for millisecond-level gas phase catalytic cracking reaction and separation, 2020.11.03, US10822554

[18] METHOD FOR PRODUCING CHEMICALS FROM CRUDE OIL BY DOUBLE-TUBE PARALLEL MULTI-ZONE CATALYTIC CONVERSION, 2021.09.29, 2021/05378

◎Representative Works

◎Awards and Honors

1. Awards

[1] The first prize of Qingdao Science and Technology Progress Award, China University of Petroleum (East China) Low Carbon Energy Chemical Innovation Team (Innovation Team Project)

[2] Golden Bridge Award of China Technology Market Association, Key Technology for Large-scale Recycling and Efficient Comprehensive Utilization of Agricultural and Forestry Waste

[3] The first prize of National Commercial Science and Technology Progress Award, biomass twin-tube coupled millisecond pyrolysis liquefaction technology and its application

[4] The first prize of Science and Technology Progress Award of China Petroleum and Chemical Industry Federation, research and development of new high-efficiency, super-large processing capacity NS composite tray technology and its industrial application

[5] Excellent Doctoral Dissertation of China University of Petroleum (East China)

2. Honors

[1] Introduce high-level talents from outside the West Coast New Area of Qingdao (in short supply)

[2] China University of Petroleum (East China) Top 100 Excellent class teacher

[3] China University of Petroleum (East China) Eighth Academic Top Ten

◎Courses Offered

Undergraduate：《Basic Chemical Equipment and Selection》《Fluidization Technology and Application》《Energy and Chemical Process Simulation Training》《Professional Experiment》《Production Practice》

Postgraduate：《Petroleum Chemistry》

◎Student Training

1. Supervise Postgraduate Students

Supervise 2 doctoral students, 10 academic students, and 2 professional master students

2. Admissions Instructions：

Recruiting chemical engineering and technology academic master students, materials and chemical engineering master students

Postgraduate training direction: oil and natural gas processing, biorefinery, waste recycling, coal chemical industry, numerical simulation

◎Part-time Academic Job

[1] Member of the American Chemical Society (ACS)

[2] Member of Chinese Chemical Society

[3] Reviewers of top academic journals such as Energy Conversion and Management, Fuel, Fuel Processing Technology, and Energy & Fuels