Aijun GUO（Professor）

  Name：

Aijun GUO

Academic Title：

Professor

Advisor Type：

Doctoral advisor, master advisor

  Department：

Department of Applied Chemistry/State Key Laboratory of Heavy Oil

Research Interests：

Energy chemical industry

  E-Mail：

ajguo@upc.edu.cn

  Telephone：

0532-86980607, 15154290256

◎Educational Background

1991-1995, Department of Refining, University of Petroleum (East China), Bachelor of Science

1997-2000, Department of Refining, University of Petroleum (East China), Master of Engineering

2003-2009, State Key Laboratory of Heavy Oils, School of Chemistry and Chemical Engineering, China University of Petroleum (East China), Ph. D. candidate

2014-2014, Visiting Scholar, Department of Petroleum and Chemical Engineering, University of Calgary, Canada

◎Work Experience

1995-2000, Teaching Assistant, Refining Department, University of Petroleum (East China)

2000-2005, Lecturer, Department of Applied Chemistry, School of Chemistry and Chemical Engineering, University of Petroleum (East China)

2005-2014, Associate Professor, Department of Applied Chemistry, School of Chemistry and Chemical Engineering, China University of Petroleum (East China)

2014-present, Professor, School of Chemistry and Chemical Engineering, China University of Petroleum (East China)

◎Research Direction

[1] New technology of low carbon and green upgrading of inferior heavy oil

[2] Innovation of thermal and catalytic conversion of heavy oils

[3] Synthesis and high quality utilization of heavy-oil-based carbon materials, such as upgrading, solids removal and polymerization of secondary residues like catalytic oil slurry and ethylene heavy oil, and performances of related product materials

[4] New energy research, including the preparation, storage and utilization of hydrogen

◎Research Project

² National Natural Science Foundation of China (NSFC) : Study on coupling of mild hydrogenation of slurry oil in the presence of self-dispersing nanocluster quantum dot catalysts with distillation for solids removal

² Shandong Provincial Key RD Program: Research and development of efficient solids-removal technology for slurry oil by slurry bed hydro-stabilization and distillation

² Major Innovation Project of Shandong Province: Development and industrialization of key technology for preparation of petroleum needle coke of low CTE value for ultra-high power electrodes

² Natural Science Foundation of Shandong Province, Doctoral Fund Project: Enrichment mechanism of new hydrogen from CO hydrothermal transformation with polycyclic aromatic hydrocarbons and synergistic regulation of heavy oil upgrading

² State Key Laboratory of Heavy Oil Research Project: Deep removal of solids of catalytic oil slurry and preparation of needle coke materials

² CNPC Key Project: Development of slurry de-solid and needle coke production technology

² Enterprise Cooperation Project: Development of slurry electrostatic de-solid technology

² Enterprise Cooperation Project: Coking trend of coker super heavy oil raw materials

² National Natural Science Foundation of China Project: Study on colloid stability of heated inferior heavy oil by combining the solvation and hydrogen shuttle properties of resins

² CNPC Key Project: Pilot and laboratory study of oil sands asphalt delayed coking

² CNPC Key Project: Investigation and analysis of operation status of delayed coking unit

² CNPC Key Project: Research on technology of deep cutting of inferior heavy oil to improve the yield of delayed coking liquid products

² CNPC Key Project: Research on H-donor thermal cracking technology of Canadian oil sands bitumen

² Shandong Natural Science Foundation Project: Study on colloid stabilization mechanism in heavy oil processing

² CNPC Key Project: Foaming mechanism and suppression technology of inferior residue

² Basic Research Project supported by the Central Universities: Study on the co-carbonization of catalytic slurry and coking wax oil

² CNPC Key Project: Research on viscosity reduction technology of super heavy Oil and pour-point reduction technology of high pour-point Oil

² CNPC Key Project: Venezuelan ultra-heavy oil coking industrial test (the industrial test operation in Liaohe Petrochemical Company successfully completed, Oct to Nov 2011)

² CNPC Key Project: Karamay super heavy oil viscosity reduction and coking industrial test

² CNPC Key Project: Basic research on viscosity reduction of Venezuelan superheavy oil (hydrogen-supplied thermal cracking)

² CNPC Key Project: Study on thermal reaction performance and flow heat transfer simulation of inferior heavy oil

² CNPC Key Project: HRDC hydrogen donor coking

² CNPC Key Project: Daqing Petrochemical to expand the compatibility of coking raw materials

² CNPC Key Project: Research on new technology and industrialization to improve coking liquid yield and product distribution

² CNPC Key Project: Study on delayed coking and blending scheme of super heavy oil

² CNPC Key Project: Research on preventing delayed coking projectile coke formation of super heavy oil and improving liquid recovery

² Sinochem Project: Capella Colombia heavy oil modification research and development

² International Petroleum Company Cooperation Project: Using existing refining units to process biomass

◎Representative Papers and Patents

1. Paper

² He Liu, Shouhui Jiao, Wenchao Liu, Bernard Wiafe Biney, Feng Wang, Kun Chen, Aijun Guo, Zongxian Wang. Effects of decompressing carbonization on the preparation of needle coke from FCC decant oil. Journal of Analytical and Applied Pyrolysis, 2022, 162, 105454.

² Weining Li, Kun Chen, Bernard Wiafe Biney, Aijun Guo, He Liu, Dong Liu. Hydrophobic and dispersible Cu(I) desulfurization adsorbent prepared from Pistia stratiotes for efficient desulfurization. Science of the Total Environment, 2022, 819, 153056.

² Weining Li, Kun Chen, Bernard Wiafe Biney, Zhuo Li, Aijun Guo, He Liu, Dong Liu. Preparation of desulfurization adsorbents with highly dispersed metal active sites by enriching Ni from water with Pistia Stratiotes. Journal of Cleaner Production, 2022, 333, 130068.

² Shouhui Jiao, Zeliang Li, Jingxin Hu, Bernard Wiafe Biney, Feng Wang, He Liu, Kun Chen, Aijun Guo, Lanyi Sun, Zongxian Wang. Mild hydrogenation pretreatment of FCC slurry oil for high-value-added utilization: Exploitable high-boiling components and carbonization discrepancy. Journal of Analytical and Applied Pyrolysis, 2022, 161, 105411.

² Chengyu Sun, Kun Chen, Bernard Wiafe Biney, Kunyin Wang, He Liu, Aijun Guo, Wei Xia. Switchable wettability of grain-stacked filter layers from polyurethane plastic waste for oil/water separation. Journal of Colloid and Interface Science, 2022, 610, 970-981.

² Shouhui Jiao, Feng Wang, Lili Wang, Bernard Wiafe Biney, He Liu, Kun Chen, Aijun Guo, Lanyi Sun, Zongxian Wang. Systematic identification and distribution analysis of olefins in FCC slurry oil. Energy, 2022, 239, Part A, 121959.

² Feng Wang, Shouhui Jiao, Wenchao Liu, Bernard Wiafe Biney, Aijun Guo, Kun Chen, He Liu, Dong Liu, Daohong Xia, Zongxian Wang. Preparation of mesophase carbon microbeads from fluidized catalytic cracking residue oil: The effect of active structures on their coalescence. Journal of Analytical and Applied Pyrolysis, 2021, 156, 105166.

² Zhuo Li, Kun Chen, Zhou Chen, Weining Li, Bernard Wiafe Biney, Aijun Guo, Dong Liu. Removal of malachite green dye from aqueous solution by adsorbents derived from polyurethane plastic waste. Journal of Environmental Chemical Engineering, 2021, 9(1), 104704.

² Shouhui Jiao, Aijun Guo, Feng Wang, Yangyang Yu, Bernard Wiafe Biney, He Liu, Kun Chen, Dong Liu, Zongxian Wang, Lanyi Sun. Sequential pretreatments of an FCC slurry oil sample for preparation of feedstocks for high-value solid carbon materials. Fuel, 2021, 285, 119169.

² Aijun Guo, Feng Wang, Shouhui Jiao, Ummul-Khairi Ibrahim, Dong Liu, He Liu, Kun Chen, Zongxian Wang. Preparation of mesocarbon microbeads as anode material for lithium-ion battery by thermal polymerization of a distillate fraction from an FCC slurry oil after hydrofining with suspended catalyst. Fuel, 2020, 276: 118037.

² Shouhui Jiao, Aijun Guo, Feng Wang, Kun Chen, He Liu, Ummul-Khairi Ibrahim, Zongxian Wang, Lanyi Sun. Effects of olefins on mesophase pitch prepared from fluidized catalytic cracking decant oil. Fuel, 2020, 262: 116671.

² Aijun Guo, Feng Wang, Shouhui Jiao, Ummul-Khairi Ibrahim, He Liu, Kun Chen, Zongxian Wang. Mesophase pitch production from FCC slurry oil: Optimizing compositions and properties of the carbonization feedstock by slurry-bed hydrotreating coupled with distillation. Fuel, 2020, 262: 116639.

² Aijun Guo, Zhengzheng Jin, Liming Gong, He Liu, Kun Chen, Baoquan Mu, Zongxian Wang. Centrifugal and electrostatic combined desolid process of catalytic cracking slurry assisted by additives. Chem Ind Engin Progr, 2019, 38(7): 3126-3135.

² Kun Chen, Haoran Zhang, Ummul-Khairi Ibrahim, WangyangXue, HeLiu, Aijun Guo. The quantitative assessment of coke morphology based on the Raman spectroscopic characterization of serial petroleum cokes. Fuel, 2019, 246: 60-68.

² Guo Aijun, Pan Huihui, Zheng Wenlin, Jiao Shouhui, Wang Feng, JIN Zhengzheng, Liu He, Chen Kun, Wang Zongxian. Synthesis of dispersed molybdenum disulfide nano-catalysts and their performance in the hydrogenation of simulated oil slurry. J Fuel Chem Technol, 2019, 47(5): 629-640.

² Kun Chen, Di Zhang, Yang Dai, He Liu, Zongxian Wang, Ummul-Khairi Ibrahim, Aijun Guo. Chemical and structural characterization of problematic suspended particles enriched from fluidized catalytic cracking slurry oil. Chemical Engineering Research and Design, 2019, 143: 36-46.

² Qiang Chen, Lei Guo, Aijun Guo, Zongxian Wang. Influence of coker-derived liquids on coking performance of Venezuelan heavy oil residue. Petroleum Science and Technology, 2019, 37(1): 50-55.

² Cunhui Lin, Juncai Sang, Shuoyi Chen, Jingqi Wang, Zongxian Wang, He Liu, Kun Chen, Aijun Guo. Thermal treatment of FCC slurry oil under hydrogen: Correlation of hydrogen transfer ability with carbonization performance of the fractions. Fuel, 2018, 233: 805-815.

² Hua He, Shan Li, Xinjian Shi, Xiaojuan Wang, Xu Liu, Qian Wang, Aijun Guo, Baosheng Ge, Naseer Ullah Khan, Fang Huang. Quantitative nanoscopy of small blinking graphene nanocarriers in drug delivery. Bioconjugate Chemistry, 2018, 29(11): 3658-3666.

² Cunhui Lin, Jingqi Wang, Shuoyi Chen, Zongxian Wang, He Liu, Kun Chen, Aijun Guo. Thermal treatment of fluid catalytic cracking slurry oil: Determination of the thermal stability and its correlation with the quality of derived cokes. Journal of Analytical and Applied Pyrolysis, 2018, 135: 406-414.

² Xianni Song, Dong Liu, Bin Lou, Zhiheng Li, Aijun Guo, Dongming Zhang, Luhai Wang. Removal of catalyst particles from fluid catalytic cracking slurry oil by the simultaneous addition of a flocculants and a weighting agent. Chemical Engineering Research and Design, 2018, 132: 686-696.

² Kun Chen, Haoran Zhang, Dong Liu, He Liu, Aijun Guo, Zongxian Wang. Investigation of the coking behavior of serial petroleum residues derived from deep-vacuum distillation of Venezuela extra-heavy oil in laboratory-scale coking. Fuel, 2018, 219: 159-165.

² GONG Xu, XUE Peng, LIU He, CHEN Kun, GUO Aijun, WANG Zongxian. Progress on the use of hydrogen donors for upgrading of heavy oil. Chem Ind Engin Progr, 2018, 37(4): 1374-1380.

² Aijun Guo, Wenlin Zheng, Shouhui Jiao, Kun Chen, He Liu, Zongxian Wang, Ziho Wang. Study on olefin distribution of catalytic cracking slurry. J Fuel Chem Technol, 2018, 46(4): 413-418.

² He Liu, Zhaoxian Liu, Aijun Guo, Kun Chen, Shengnan Sun, Zongxian Wang. Peptizing effect of the native heavy resin fraction on asphaltenes. Energy & Fuels, 2018, 32(3): 3380-3390.

² He Liu, Zongxian Wang, Xiangkun Zhao, Yuxing Li, Kun Chen, Aijun Guo. Partial upgrading of vacuum residue from Canadian oil sand bitumen under CO/H2-H2O. J Fuel Chem Technol, 2018, 46(1): 45-53.

² Cunhui Lin, Jingqi Wang, Zongxian Wang, He Liu, Kun Chen, Aijun Guo, Tianping Xia. Flocculation of particulates in fluid catalytic cracking slurry oil: Characterization of the particulates and the effect of thermal treatment on their flocculation. Energy & Fuels, 2017, 31(12): 13282-13290.

² GUO Aijun, GONG Liming, ZHAO Na, CHEN Kun, LIU He, WANG Zongxian, HUANG Jinju, SUN Meng, YUAN Juncong. The influence of additive modification on electrostatic separation of FCC slurry oil. Chem Ind Engin Progr, 2017, 36(9): 3266-3272.

² Xin Zhao, Z Wang, Wen Liu, Kun Chen, Aijun Guo. Commercial application of hydrocarbon circulation technology in delayed coking unit. Petrol Refin Engin, 2017, 47(4): 19-23.

² Jiao Shouhui, Lin Xiangqin, Guo Aijun, Chen Kun, Wang Zongxian, Tong Jiajun, Geng Yuxuan, Li Ruomeng, Liu Qinghao. Effect of characteristics of inferior residues on thermal coke induction periods. J Fuel Chem Technol, 2017, 45(2): 165-171.

² Peng Xue, Shiguang Fan, Xuebing Wang, Kun Chen, He Liu, Wei Xia, Aijun Guo, Zongxian Wang. Characterization of petroleum residues with varying cutting depth and corresponding vacuum distillates derived from laboratory deep-vacuum fractionation of unconventional heavy oil for an instructive utilization guideline. Energy Fuels, 2017, 31(2): 1259-1268.

² He Liu, Shiguang Fan, Zongxian Wang, Kun Chen, Aijun Guo. Temperature and pressure effects on the catalytic performance of metalloporphyrins during hydrogenation of naphthalene. ChemistrySelect, 2017, 2(4): 1613-1619.

² LIN Cunhui, CHEN Kun, GUO Aijun, WANG Zongxian. Study on determination methods of solids content in catalytic cracking slurry oil. Chem Ind Engin Progr, 2016, 35(9): 2699-2706.

² Aijun Guo, Chongchong Wu, Peng He, Yingqi Luan, Lulu Zhao, Wenpo Shan, Wei Cheng, Hua Song. Low-temperature and low-pressure non-oxidative activation of methane for upgrading heavy oil. Catalysis Science & Technology, 2016, 6 (4), 1201-1213.

² He Liu, Jun Mu, Zongxian Wang, Aijun Guo, Kun Chen. Transformation of petroporphyrins-enriched subfractions from atmospheric residue during noncatalytic thermal process under hydrogen by positive-ion electrospray ionization FT-ICR mass spectrometry. Energy Fuels, 2016, 30(3): 1997–2004.

² Liu Zhaoxian, Guo Aijun, Chen Kun, Wang Zongxian, Chu Jun, Chen Jiantao. Changes in chemical structure and solvation of heavy oil components during thermal upgrading of a vacuum residue. J Fuel Chem Technol, 2016, 44(3): 366-374.

² Zhao Na, Yu Chuanrui, Zhao Bo, Chen Kun, Guo Aijun, Wang Zongxian. Removing solid particles in fluid catalytic cracking slurry by electrostatic separation and their composition. Petrochem Technol, 2015, 44(10): 1218-1223.

² YU Chuanrui, ZHAO Na, GUO Aijun, WANG Zongxian. Research progress in the removal of quinoline insolubles in coal tar. Chem Ind Engin Progr, 2015, 34(9): 3262-3266.

² He Liu, Jun Mu, Zongxian Wang, Shunfeng Ji, Quan Shi, Aijun Guo, Kun Chen, Jincheng Lu. Characterization of vanadyl and nickel porphyrins enriched from heavy residues by positive-ion electrospray ionization FT-ICR mass spectrometry. Energy & Fuels, 2015, 29(8): 4803-4813.

² He Liu, Shunfeng Ji, Zongxian Wang, Aijun Guo, Kun Chen. The catalytic performance of metalloporphyrins during hydrogenation of anthracene. Energy Technology, 2015, 3(2): 145-154.

² Zongxian Wang, Peng Xue, Kun Chen, Aijun Guo, Cunhui Lin, Dehui Kong, Zhengda Song, and Yawen Bo. Correlation of temperature-programmed oxidation with microscopy for quantitative morphological characterization of thermal cokes produced from pilot and commercial delayed cokers. Energy Fuels, 2015, 29 (2), 659–665.

² Aijun Guo, Zhongxun Wei, Bo Zhao, Kun Chen, Dong Liu, Zongxian Wang, Hua Song. Separation of toluene-insoluble solids in the slurry oil from a residual fluidized catalytic cracking unit: Determination of the solid content and sequential selective separation of solid components. Energy & Fuels, 2014, 28 (5), 3053–3065.

² Aijun Guo, Ying Zhou, Kun Chen, Zhenxi Xue, Zongxian Wang, Hua Song. Co-processing of vacuum residue/fraction oil blends: Effect of fraction oils recycle on the stability of coking feedstock. Journal of Analytical and Applied Pyrolysis, 2014, 109 (1), 109-115.

² Aijun Guo, Yiran Geng, Lili Zhao, Jun Li, Dong Liu, Peng Li. Preparation of cationic polyacrylamide micro-sphere emulsion and its performance for permeability reduction. Petroleum Science, 2014, 11 (3), 408-416.

² Qi Wang, Zongxian Wang, Shicheng Zhuang, Fengxu Li, Lei Guo, Aijun Guo. Thermal upgrading of inferior residue without or with hydrogen donor. Acta Petrolei Sinica (Petroleum Processing Section), 2014, 30 (3), 439-445. (in Chinese)

² Chen, Q., Gao, Y., Wang, Z.X., Guo, A.J. Application of coker gas oil used as industrial hydrogen donors in visbreaking. Petroleum Science and Technology, 2014, 32 (20), 2506-2511.

² Lei Guo, Qi Wang, Fengxu Li, He Liu, Zongxian Wang, Aijun Guo. Heavy oil hydrogen-donated visbreaking upgrading process. Chem Ind Engin Progr, 2014, 33 (A01), 128-132. (in Chinese)

² Aijun Guo, Yanqi Zhang, He Liu, et al. Effect of heavy metals on characteristics of coke formation during thermal conversion of heavy oils. J Fuel Chem Technol, 2013, 41(6): 685-690. (in Chinese)

² Aijun Guo, Xiangqin Lin, Dong Liu, et al. Investigation on shot-coke-forming propensity and controlling of coke morphology during heavy oil coking. Fuel Processing Technology, 2012, 104: 332-342.

² Aijun Guo, Zhiqing Wang, Huijun Zhang, et al. Hydrogen transfer and coking propensity of petroleum residues under thermal processing. Energy & Fuels, 2010, 24(5): 3093-3100.

² Aijun Guo, Xuejun Zhang, Huijun Zhang, et al. Aromatization of naphthenic ring structures and relationships between feed composition and coke formation during heavy oil carbonization. Energy & Fuels, 2010, 24(1): 525-532.

² Aijun Guo, Xiangqin Lin, Yuanyuan Wang, et al. Experimental study on shot coke formation in delayed coking process. J Fuel Chem Technol, 2012, 40(8): 958-966. (in Chinese)

² Aijun Guo, Xuejun Zhang, Zongxian Wang. Simulated delayed coking characteristics of petroleum residues and fractions by thermogravimetry. Fuel Processing Technology, 2008, 89(7): 643-650.

² Shunfeng Ji, Zongxian Wang, Aijun Guo, Ying Zhou, and Kun Chen. Determination of Hydrogen Solubility in Heavy Fractions of Crude Oils by a Modified Direct Method. J. Chem. Eng. Data, 2013, 58 (12): 3453–3457.

² Dong Liu, Zhongtao Li, Yue Fu, Aijun Guo, Ting Hou, and Kaiyuan Zheng. Nitrogen Compound Conversion and Distribution in Liaohe Atmospheric Residue during Slurry-Bed Hydrocracking. Energy Fuels, 2014, 28 (1): 510–515.

² Kun Chen, He Liu, Zhenxi Xue, Hongyan Li, Aijun Guo, Zongxian Wang. Co-carbonization of petroleum residue asphaltenes with maltene fractions: Influence on the structure and reactivity of resultant cokes. Journal of Analytical and Applied Pyrolysis, 2013, 102: 131-136.

² Kun Chen, Zongxian Wang, He Liu, Yujiao Ruan, Aijun Guo. Thermodynamic and thermokinetic study on pyrolysis process of heavy oils. Journal of Thermal Analysis and Calorimetry, 2013, 112(3): 1423-1431.

² Kun Chen, He Liu, Aijun Guo, et al. Study of the thermal performance and interaction of petroleum residue fractions during the coking process. Energy & Fuels, 2012, 26(10): 6343-6351.

² Kun Chen, Zongxian Wang, He Liu, Aijun Guo. Study on thermal performance of heavy oils by using differential scanning calorimetry. Fuel Processing Technology, 2012, 99: 82-89.

² Qi Wang, Lei Guo, Zongxian Wang, Baoquan Mu, Aijun Guo, He Liu. Hydrogen donor visbreaking of Venezuelan vacuum residue. J Fuel Chem Technol, 2012, 40(11): 1317-1322.

² Qi Wang, Zongxian Wang, Baoquan Mu, Aijun Guo, Kaili Guo. Hydrogen donor visbreaking of Venezuelan atmospheric residue. J Fuel Chem Technol, 2012, 40(10): 1200-1205. (in Chinese)

² Xuejun Zhang, Aijun Guo, Fucun Wang, et al. Directly producing clean and low softening point diesel using integrated hydrotreating and hydroisomerizing catalysts. Energy & Fuels, 2010, 24(7): 3772-3777.

² Zongxian Wang, Yaping Geng, Aijun Guo, et al. Experimental study on the effect of fractions circulation on the coking of furnace tube in delayed coking unit. Petroleum Processing and Petrochemicals, 2010, 41(9): 65-69. (in Chinese)

2. Patent

² Guo Aijun, Jin Zhengzheng, Jiao Shouhui, Wang Feng, Wang Lili, Pan Huihui, Liu Wenchao, Yang Zheng, Umu Kaili · Abrahim, Chen Kun, Liu He, Mu Baoquan, Liu Dong, Wang Zongxian, A method of removing solid particles from oil slurry by heat treatment centrifugal sedimentation and electrostatic process, Authorized patent number ZL201911207347.2

² Aijun Guo, Shouhui Jiao, He Liu, Kun Chen, Baoquan Mu, Dong Liu, Zongxian Wang, Wenlin Zheng, Cunhui Lin, Shiguang Fan, Jianli Ren, A FCC slurry defixation process, Equipment and application, patent No. ZL201810088777.6

² Guo Aijun, Sun Shengnan, Liu He, Chen Kun, Mu Baoquan, Liu Dong, Wang Zongxian, Zheng Wenlin, Fan Shiguang, Lin Cunhui, Umu Kaili Ibrahimi, A extraction device and method for automatic separation of petroleum components, patent No. ZL201711465060.0

² Chen Kun, Dai Yang, Li Zhuo, Xia Wei, Wu Pingping, Liu He, Guo Aijun, Liu Dong, A method for improving carbon formation rate of ethylene tar by atmospheric pyrolysis and its application, Patent No. ZL202010476847.2

² Liu He, Wang Zongxian, Fan Shiguang, Lin Cunhui, Zhao Xiangkun, Gong Xu, Liu Hao, Guo Aijun, Chen Kun, A Hydrothermal reduction and viscosity enhancement method for heavy oil, ZL201710547946.3

² Guo Aijun, BI Zhiguo, Wang Zongxian, Xie Chongliang, Mu Baoquan, Liu Dong, Sun Hanhua, Ye Hong, Chen Kun, Li Xiaona, Zhou Hong, Chi Zhiming, Yue Zhao, Li Shi, Duan Fei, Suppression of foam layer in coking tower, patent No. ZL201510311850.8

² Guo Aijun, Zhao Bo, Zhang Yanqi, Wei Zhongxun, Ji Shunfeng, Chen Kun, Mu Baoquan, Wang Zongxian, A purification equipment and purification method for catalytic cracking slurry, patent No. ZL201310456765.1

² Guo Aijun, Wang Zongxian, Chen Kun, Mu Baoquan, Liu Dong, Yang Pujiang, Wang Qi, Zhuang Shicheng, Lin Aiguo, Fu Xingguo, Hou Jingwei, Zhang Yanmei, Liu Yindong, A simulation system for oil storage tank, Patent No. ZL201210150096.0

² Zongxian Wang, Aijun Guo, Dong Liu, Baoquan Mu, Leilei Zhang, Xingguo Fu, Zhimin Yu, Jingwei Hou, Guanghui Zhao, A Method for determining the stability of heavy residue, Patent No. ZL201110231630.6

² Aijun Guo, Zongxian Wang, Zhihui Ren, Lingyan Tian, Hongtao Zhao, Combined process of needle coke and light oil, patent No. ZL200810017111.8

² Aijun Guo, Zongxian Wang, An improved method for delayed coking process, Patent No. ZL200810017112.2

² Aijun Guo, Zongxian Wang, Preparation of needle coke, Patent No. ZL200810017110.3

◎Representative Works

[1] Participated in the translation of English monograph Future Refinery (Petroleum Industry Press/April 2016)

[2] Participated in the compilation of Delayed coking Process and Engineering (China Petrochemical Press/January 2018)

[3] Participated in the compilation of Inferior Heavy Oil Processing Technology (Petroleum Industry Press/January 2022)

◎Awards and Honors

² Complete set of production technology of oil-based mesophase asphalt and high-modulus asphalt based carbon fiber, Second Rank of Prize on Scientific and Technological Invention awarded by China Petroleum and Chemical Industry Federation in 2021

² Research and development and industrial application of complete sets of technology for upgrading inferior heavy oil and processing, Special Rank of Prize on Science and Technology Progress of China National Petroleum Corporation in 2017

² Development and industrial application of new HLDC technology for High Liquid Recovery, First Rank of Prize on Science and Technology Progress of China National Petroleum Corporation in 2016

² The combined process of hydrogen supply and viscosity reduction of inferior heavy oil and deep pyrolysis, Second Rank of Prize on Natural Science of Shandong Province in 2016

² Development and application of petroleum-based environment-friendly rubber softening functional materials, Third Rank of Prize on Science and Technology Progress awarded by China Petroleum and Chemical Industry Federation in 2016

² The combined process of hydrogen supply and viscosity reduction of inferior heavy oil and deep pyrolysis, First Rank of Prize on Science and Technology Progress of Qingdao Municipal People's Government in 2015

² Development and industrial application of inferior heavy Oil hydrogen-supplied thermal cracking and viscosity reduction technology, First Rank of Prize on Science and Technology Progress of China National Petroleum Corporation in 2013

² The combined process of hydrogen supply and viscosity reduction of vacuum residue and delayed coking, First Rank of Prize on Science and Technology Progress awarded by China Petroleum and Chemical Industry Federation in 2012

² Coke generation and coke suppression mechanism during thermal or hydrogenation conversion of petroleum residue, Third Rank of Prize on Natural Science in Shandong Province in 2003

² Improving the coker liquid yield and reducing the sulfur content in coke, Second Rank of Prize of Science and Technology of China University of Petroleum (East China) in 2005

² Third Rank of Prize on Shandong Provincial Invention and Innovation in 2013

² Excellent Master's Dissertation of Shandong Province in 2001

² Excellent undergraduate thesis instructor of the university

◎Courses Offered

Undergraduate: Petroleum Chemistry, Lube Oil Chemistry and Technology

Heavy Oil Chemistry, Professional Foreign Language Guide

Production Practice

◎Student Training

1. Supervise Postgraduate Students

Supervise 3 doctoral students, 32 academic master students, 14 professional master students, and assisted in supervising more than 10 graduate students. There are 35 graduate students, among whom 6 work for Sinopec, 10 work for CNPC, 8 work for CNOOC and 11 work for local enterprises/institutions or pursuing higher degree.

2. Typical student：

Chen Jiantao, a 2010 graduate, works in Beihai Beibu Gulf Economic Zone Planning and Construction Management Office Project Management Section as section chief;

Zhuang Shicheng, a 2012 graduate, successively served as the Director of Design and Management Department of Project Management Department of Shandong High-speed Materials Group Corporation and Deputy Chief Engineer of Shandong Branch of Hebei Zhengrun Environmental Technology Co., LTD. (formerly Hebei Environmental Science Institute).

Zhao Bo, a 2014 graduate, works as a reserve cadre in Lutai Holding Group.

Jiao Shouhui, class of 2018, is a PhD student majoring in chemical engineering and technology of this university.

3. Admissions Instructions：

Doctoral candidates: Chemical Engineering and Technology (academic degree), Chemical Engineering (professional degree)

Master candidates: Chemical Engineering and Technology (academic degree), Materials and Chemical Engineering (professional degree)

Requirements: sensitive, studious, diligent, self-discipline

Welcoming interested candidates to apply for postgraduate study; please contact me directly by email!

◎Part-time Academic Job

[1] Special issue of Heavy Oil Chemistry and Processing Technology in Processes, Guest Editor

[2] American Journal of Applied Chemistry, Editorial Board 2018~2021

[3] Reviewer of academic journals such as Energy&Fuels, Fuel Processing Technology, Fuel, Ceramics International, Petroleum Science, RSC Advances, Analytical Chemistry, Applied Petrochemical Research, Separation and Purification Technology, Journal of Fuel Chemistry and Technology, and Journal of China University of Petroleum (Natural Science Edition)

[4] Science and technology review experts of Ministry of Education and many provinces/ cities