郭爱军(教授)

发布时间:2017-03-02发布人:魏孟吉浏览次数:12218

»姓名: 郭爱军

»职称:教授/博


系属:应用化学系/重质油国家重点实验室

»最高学位:博士

»学科:化学工程与技术

»所学专业:化学工程与技术、应用化学

»电子邮箱:ajguo@upc.edu.cn

»联系电话:15154290256/0532-86980607

»地址邮编:山东省青岛市黄岛区长江西路66号中国石油大学(华东)化学工程学院,266580

»个人主页:http://cce.upc.edu.cn/s/47/t/187/f5/5c/info128348.htm

学习与工作经历

120144月—20149月作为访问学者在加拿大Calgary大学石油和化学工程系开展学术交流,重点从事油砂沥青催化改质研究

220039月—20091月在中国石油大学(华东)攻读并取得化学工程与技术专业工学博士学位,从事重质油化学与加工研究

319979月—20006月在石油大学(华东)攻读并取得应用化学专业工学硕士学位,从事石油有机化学研究

419957月至今在中国石油大学(华东)应用化学系和重质油国家重点实验室从事教学科研工作

519919月—19956月在石油大学(华东)攻读并取得应用化学专业理学学士学位


研究方向
重质油化学和加工技术,主要包括:

1)劣质油改质

2)重油的热转化和催化转化

3)重油高值利用,包括催化油浆改质、脱固与针状焦制备

4)新能源研究,包括氢的制备、储存和利用


学术兼职

学术刊物审稿人:《Energy&Fuels》、《Fuel Processing Technology》、《Fuel》、《Ceramics International》、《Petroleum Science》、《RSC Advances》、《Analytical Chemistry》、《Applied Petrochemical Research》、《Separation and Purification Technology》、《燃料化学学报》、《中国石油大学学报(自然科学版)》等期刊;教育部及多个省市科技评审专家。


主讲课程
《石油化学》、《润滑油化学与工艺》、《重质油化学》、《生产实习》、《专业外语导读》


指导研究生
在读全日制研究生9人左右(每年招收~3人),包括化学工程与技术专业研究生(学术硕士)、化学工程专业研究生(专业硕士)。另外根据企业的人才培养需求,指导化学工程领域的在职工程硕士若干名。


承担科研课题
近年承担的研究课题以来自国家和省自然基金自助项目以及中石油资助的攻关项目为主。

  1. 催化油浆在自分散型纳米团簇量子点催化剂存在下缓和加氢稳定化反应耦合蒸馏脱固研究,国家自然科学基金项目,主持,在研(2017年立项)

  2. 催化油浆浆态床缓和加氢稳定协同蒸馏的高效脱固技术研究与开发,山东省重点研发计划,主持,在研(2017年立项)

  3. 深度脱除催化油浆固含物和针焦炭材料制备研究,重质油国家重点实验室自主研发课题,主持,在研(2017年立项)

  4. 催化油浆脱固及针状焦生产技术开发,中石油攻关项目,主持,在研(2017年立项)

  5. 催化油浆静电脱固技术开发,企业合作项目,主持,在研

  6. 超稠油减渣焦化原料生焦趋势的研究,企业合作项目,主持,结题

  7. 协同胶质的溶剂化和氢梭特性研究受热劣质重油的胶体稳定性,国家自然科学基金项目,主持,结题

  8. 油砂沥青延迟焦化实验室小试及中试研究,中石油攻关项目,主持,在研

  9. 延迟焦化装置操作状况调研与分析,中石油攻关项目,位次3/29,在研

  10. 劣质重油深度切割提高延迟焦化液体产品收率技术研究,中石油攻关项目,位次5/39,在研

  11. 加拿大油砂沥青供氢热裂化改质技术研究,中石油攻关项目,位次7/29,在研

  12. 重质油加工过程中胶体稳定作用机制研究,山东省自然科学基金项目,主持,完成

  13. 劣质渣油起泡机制与抑泡技术,中石油攻关项目,主持,完成

  14. 催化油浆与焦化蜡油共炭化研究,中央高校基础研究资助项目,主持,完成

  15. 超重油降粘技术和高凝油降凝技术研究,中石油攻关项目,位次2/5,完成

  16. 委内瑞拉超重油焦化工业试验,中石油攻关项目,位次2/20201110-11月在辽河石化公司圆满完成了工业试验),完成

  17. 克拉玛依超稠油减粘和焦化工业试验,中石油攻关项目,位次2/20,完成

  18. 委内瑞拉超重油减粘基础研究(供氢热裂化),中石油攻关项目,位次3/20,完成

  19. 劣质重油热反应性能及流动传热模拟研究,中石油攻关项目,位次3/20,完成

  20. HRDC供氢焦化,中石油攻关项目2/18,完成

  21. 大庆石化拓宽焦化原料配伍性研究,中石油攻关项,位次2/16,完成

  22. 提高焦化液收改善产品分布新技术及工业化研究,中石油,位次3/15,完成

  23. 超重油延迟焦化与调和方案研究,中石油攻关项目,位次2/17,完成

  24. 防止超稠油延迟焦化弹丸焦生成及提高液收研究,中石油,位次2/15,完成

  25. 哥伦比亚Capella重油改质研究与开发,中化攻关项目,位次3/20,完成

  26. 利用现有炼油装置加工生物质,国际石油公司合作项目,位次6/18,完成


获奖情况

  1. 劣质重油改质、加工成套技术研究开发及工业应用,2017年中国石油天然气集团公司科技进步特等奖

  2. 高液收的延迟焦化(HLDC)新技术开发与工业应用,2016年中国石油天然气集团公司科技进步一等奖

  3. 劣质重油供氢减粘-深度热解组合工艺,2016年山东省自然科学奖二等奖

  4. 石油基环保型橡胶软化功能材料开发与应用,2016 年中国石油和化学工业联合会科技进步三等奖

  5. 劣质重油供氢减粘-深度热裂解组合工艺,2015年青岛市人民政府科技进步一等奖

  6. 减压渣油供氢减粘—延迟焦化组合工艺,2012年度中国石油和化学工业联合会科技进步一等奖

  7. 石油渣油热转化或加氢转化过程中的生焦与抑焦机制,2003年度山东省自然科学三等奖

  8. 提高焦化液收降低焦中硫含量,2005年度中国石油大学(华东)科学与技术二等奖

  9. 2013年度山东省发明创业奖三等奖

  10. 2001年度山东省优秀硕士学位论文


荣誉称号
校优本科论文指导教师


著作
参与翻译英文专著《未来炼厂》(石油工业出版社 / 20164月出版)


论文

期刊论文:

  1. 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.
  3. 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.

  4. 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.

  5. 郭爱军, 靳正正, 龚黎明, 刘贺, 陈坤, 沐宝泉, 王宗贤. 助剂辅助催化裂化油浆离心-静电组合脱固工艺. 化工进展, 2019, 38(7): 3126-3135.

  6. 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.

  7. 郭爱军, 潘会会, 郑文林, 焦守辉, 王峰, 靳正正, 刘贺, 陈坤, 王宗贤. 分散型纳米二硫化钼的制备及其对模拟油浆的加氢处理催化性能. 燃料化学学报, 2019, 47(5): 629-640.

  8. 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.

  9. 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.

  10. 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.

  11. 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.

  12. 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.

  13. 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.

  14. 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.

  15. 龚旭, 薛鹏, 刘贺, 陈坤, 郭爱军, 王宗贤. 供氢剂辅助重油热改质技术研究进展. 化工进展, 2018, 37(4): 1374-1380.

  16. 郭爱军, 郑文林, 焦守辉, 陈坤, 刘贺, 王宗贤, 王子豪. 催化裂化油浆中烯烃分布研究. 燃料化学学报, 2018, 46(4): 413-418.

  17. 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.

  18. 刘贺, 王宗贤, 赵翔鵾, 李玉星, 陈坤, 郭爱军. 加拿大油砂沥青减压渣油在CO/H2-H2O作用下的热改质特性研究. 燃料化学学报, 2018, 46(1): 45-53.

  19. 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.

  20. 郭爱军, 龚黎明, 赵娜, 陈坤, 刘贺, 王宗贤, 黄金菊, 孙梦, 袁俊聪. 添加剂改性对FCC油浆静电分离的影响. 化工进展, 2017, 36(9): 3266-3272.

  21. 赵欣, 王宗贤, 柳文, 陈坤, 郭爱军. HRDC烃循环技术在延迟焦化装置的工业应用. 炼油技术与工程, 2017, 47(4): 19-23.

  22. 焦守辉, 林祥钦, 郭爱军, 陈坤, 王宗贤, 佟佳俊, 耿羽轩, 李若萌, 刘晴昊. 劣质渣油性质对受热生焦趋势影响的研究. 燃料化学学报, 2017, 45(2): 165-171(英文版由爱思唯尔通过 ScienceDirect 在全球出版发行).

  23. 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.

  24. 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.

  25. 林存辉, 陈坤, 郭爱军, 王宗贤. 催化裂化油浆固含量测定方法的研究. 化工进展, 2016, 35(9): 2699-2706.

  26. 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.

  27. 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.

  28. 刘朝仙, 郭爱军, 陈坤, 王宗贤, 储浚, 陈建涛. 热改质过程中渣油结构及其重组分溶剂化变化规律研究. 燃料化学学报, 2016, 44(3): 366-374.

  29. 赵娜, 于传瑞, 赵波, 陈坤, 郭爱军, 王宗贤. 静电分离催化裂化油浆中固体颗粒及其组成的研究. 石油化工, 2015, 44(10): 1218-1223.

  30. 于传瑞, 赵娜, 郭爱军, 王宗贤. 煤焦油中脱除喹啉不溶物技术的研究进展. 化工进展, 2015, 34(9): 3262-3266.

  31. 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.

  32. 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.

  33. 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.

  34. 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.

  35. 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.

  36. 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.

  37. 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)

  38. 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.

  39. Lei Guo, Qi Wang, Fengxu Li, He Liu, Zongxian Wang, Aijun Guo. Heavy oil hydrogen-donated visbreaking upgrading process. Chemical Industry and Engineering Progress, 2014, 33 (A01), 128-132. (in Chinese)

  40. Aijun Guo, Yanqi Zhang, He Liu, et al. Effect of heavy metals on characteristics of coke formation during thermal conversion of heavy oils. Journal of Fuel Chemistry and Technology, 2013, 41(6): 685-690. (in Chinese)

  41. 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.

  42. 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.

  43. 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.

  44. Aijun Guo, Xiangqin Lin, Yuanyuan Wang, et al. Experimental study on shot coke formation in delayed coking process. Journal of Fuel Chemistry and Technology, 2012, 40(8): 958-966. (in Chinese)

  45. Aijun Guo, Cuihua Feng, Xuejun Zhang, et al. Hydrogen-accepting ability of fractions from petroleum residue under thermal treatment. Journal of China University of Petroleum (Edition of Natural Science), 2009, 33(1): 136-140. (in Chinese)

  46. 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.

  47. Aijun Guo, Zhihui Ren, Lingyan Tian, et al. Characterization of molecular change of heavy oil under mild thermal processing using FT-IR spectroscopy. Journal of Fuel Chemistry and Technology, 2007, 35(2): 169-175.

  48. Aijun Guo, Zongxian Wang, Huijun Zhang, et al. Fundamental study on mild thermal cracking of vacuum residue with industrial hydrogen donors. Journal of Fuel Chemistry and Technology, 2007, 35(6): 667-672. (in Chinese)

  49. Aijun Guo, Hongyu Zhang, Baoquan Mu, et al. Characterization of coking feedstocks and their delayed coking performance. Journal of Petrochemical Universities, 2003, 16(1): 14-19. (in Chinese)

  50. Aijun Guo, Zongxian Wang, Guohe Que. Invertigation on thermal treatment mechanism of petroleum residue using H-donor as a probe. Journal of Fuel Chemistry and Technology, 2002, 30(1): 1-5.

  51. 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.

  52. 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.

  53. 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.

  54. 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.

  55. 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.

  56. 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.

  57. Qi Wang, Lei Guo, Zongxian Wang, Baoquan Mu, Aijun Guo, He Liu. Hydrogen donor visbreaking of Venezuelan vacuum residue. Journal of Fuel Chemistry and Technology, 2012, 40(11): 1317-1322.

  58. Qi Wang, Zongxian Wang, Baoquan Mu, Aijun Guo, Kaili Guo. Hydrogen donor visbreaking of Venezuelan atmospheric residue. Journal of Fuel Chemistry and Technology, 2012, 40(10): 1200-1205. (in Chinese)

  59. 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.

  60. 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)

  61. Xuejun Zhang, Zongxian Wang, Aijun Guo, et al. Modification of zeolite Y for preparation of the maxinizing middle distillates hydrocracking catalyst. Journal of Fuel Chemistry and Technology, 2008, 36(5): 606-609. (in Chinese)

  62. Rui Ren, Zongxian Wang, Cuishi Guan, Aijun Guo, Guohe Que. Study on the sulfurization of water-soluble catalysts for slurry-bed hydroprocessing of residueⅠ Effect of sulfurization conditions on the species and dispersity of the sulfurized catalysts. Journal of Fuel Chemistry and Technology, 2005, 33(3): 293-298. (in Chinese)

  63. Rui Ren, Zongxian Wang, Cuishi Guan, Aijun Guo, Guohe Que. Study on the sulfurization of water-soluble catalysts for slurry-bed hydroprocessing of residue Ⅱ XPS analysis of sulfurized product of molybdate. Journal of Fuel Chemistry and Technology, 2005, 33(3): 299-303. (in Chinese)

  64. Cuishi Guan, Zongxian Wang, Aijun Guo. Study on pre-sulfurization of water-soluble unsupported multi-metals catalysts. Journal of the University of Petroleum, China (Edition of Natural Science), 2005, 29(6): 106-109. (in Chinese)

  65. Cuishi Guan, Zongxian Wang, Aijun Guo, et al. Sulfurization of water-soluble catalyst for suspended bed hydrocracking of residue. Acta Petrolei SinicaPetroleum Processing Section, 2004, 20(2): 75-80. (in Chinese)

  66. Zhiqing Wang, Zongxian Wang, Aijun Guo, et al. Molecular size and micellar particle size of asphaltene in vacuum residues. Journal of Fuel Chemistry and Technology, 2004, 32(4): 429-434. (in Chinese)

  67. Cuishi Guan, Zongxian Wang, Aijun Guo, et al. Study on slurry catalyst for kelamayi residue hydrocracking. Journal of Fuel Chemistry and Technology, 2003, 31(5): 434-438. (in Chinese)

  68. Daoyong Yu, Baoquan Mu, Aijun Guo. Delayed coking of slurry-bed hydrocracked residue from atmospheric residue of heavy oil. Journal of the University of Petroleum, China, 2002, 26(1): 83-84. (in Chinese)

    会议论文:

  1. Shouhui Jiao, Feng Wang, Aijun Guo*, Kun Chen, He Liu, Lanyi Sun, Zongxian Wang. Effect of Solid Content on Mesophase Pitch Prepared from FCC Slurry Oil. 2019 National Oil Refining and Chemical Technology Conference, Qingdao, China, November 14-16, 2019.

  2. Feng Wang, Shouhui Jiao, Aijun Guo*, Kun Chen, He Liu, Zongxian Wang. Optimizing the Formation of Mesophase Pitch from FCC Slurry by Slurry-bed Hydrotreating coupled with Distillation. 2019 National Oil Refining and Chemical Technology Conference, Qingdao, China, November 14-16, 2019.

  3. Wenchao Liu, Aijun Guo*, Lingyan Tian, He Liu, Kun Chen, Zongxian Wang. Study on Needle Coke from Co-carbonization of FCCDO and HCGO. 2019 National Oil Refining and Chemical Technology Conference, Qingdao, China, November 14-16, 2019.

  4. Zheng Yang, Aijun Guo*, Shouhui Jiao, Kun Chen, He Liu, Zongxian Wang. Investigation on Thermal Treatment of Coker Heavy Gatch to Produce Needle Coke. 2019 National Oil Refining and Chemical Technology Conference, Qingdao, China, November 14-16, 2019.

  5. Renwei Dai, Weining Li, Kun Chen*, Aijun Guo, He Liu, Zongxian Wang. Joint production of Industrial-grade Inorganic Chemicals and Heat Supply from Integrated Upcycling of Waste Sulfuric Acids and Spent Catalyst. 2019 National Oil Refining and Chemical Technology Conference, Qingdao, China, November 14-16, 2019.

  6. Weining Li, Feng Wang, Yingchun Yan, Kun Chen*, Aijun Guo, He Liu, Zongxian Wang. Study on Stagewise Carbonization of FCC Slurry after Solid Removal.2019 National Oil Refining and Chemical Technology Conference, Qingdao, China, November 14-16, 2019.

  7. Kun Chen, Zhenxi Xue, He Liu, Aijun Guo, Zongxian Wang. Calorimetric probing of interactions of asphaltenes with saturates, aromatics, and resins in petroleum residue. Abstracts of Papers of the American Chemical Society, 2013, 245.

  8. He Liu, Kun Chen, Zongxian Wang, Aijun Guo. Estimation of donatable hydrogen content in heavy oils during mild thermal upgrading by H-1-NMR. Abstracts of Papers of the American Chemical Society, 2013, 245.

  9. Qi Wang, Shicheng Zhuang, Fengxu Li, Aijun Guo, Zongxian Wang. Thermal upgrading of a Venezuelan vacuum residue with hydrogen donor. Abstracts of Papers of the American Chemical Society, 2013, 245.

  10. Aijun Guo, Xuejun Zhang, Zongxian Wang. PETR 60-Study on hydrogen-abstraction behavior during residuum thermal processing. Abstracts of Papers of the American Chemical Society, 2008, 236.

  11. Aijun Guo, Zongxian Wang. PETR 101-Hydrogen-abstracting ability of residuum group fractions during thermal processing. Abstracts of Papers of the American Chemical Society, 2008, 235.

  12. Dong Liu, Aijun Guo, Jichang Zhang, et al. PETR 87-Study on sulfurization of water-soluble Fe catalyst during slurry bed hydrocracking of residue. Abstracts of Papers of the American Chemical Society, 2006, 232.


专利

  1. 沐宝泉, 王宗贤, 杨顺辉, 侯绪田, 郭爱军, 牛成成, 陈坤, 何青水, 豆宁辉, 赵向阳. 一种用作堵漏剂的可自固化组合物及其应用. 中国专利, ZL2015101700956, 签发日: 2019.10.8.

  2. 林存辉, 陈坤, 王婧淇, 王宗贤, 范士广, 刘朝仙, 陈烁屹, 倪鹏, 刘浩, 张帝, 龚黎明, 孙胜男, 郭爱军, 沐宝泉. 一种催化裂化油浆固含量的测定方法. 中国专利, ZL2016101624980, 签发日: 2019.5.14.

  3. 郭爱军, 毕治国, 王宗贤, 谢崇亮, 沐宝泉, 刘东, 孙汉华, 叶虹, 陈坤, 李小娜, 周鸿, 迟志明, 岳昭, 李实, 段斐. 焦化塔内泡沫层的抑制方法. 中国专利, ZL2015103118508, 签发日: 2019.2.15.

  4. 陈坤, 范士广, 夏薇, 刘贺, 吴萍

  5. , 倪鹏, 孔德辉, 龚旭, 刘朝仙, 张帝, 王俊杰, 赵翔鵾, 王宗贤, 郭爱军, 沐宝泉, 苏立新, 房克昌, 杜聪慧, 孙梦, 黄金菊, 郭佳, 佟佳俊, 刘晴昊. 一种测定含固重质原料受热生焦趋势的装置及方法. 中国专利, ZL2016103977775, 签发日: 2019.2.5.

  6. 王宗贤, 杨顺辉, 沐宝泉, 郭爱军, 肖超, 王成, 何青水, 豆宁辉, 牛成成. 一种用于固化稠油的处理剂. 中国专利, ZL2014101088787, 签发日: 2018.12.18.

  7. 刘贺, 王宗贤, 范士广, 林存辉, 赵翔鹍, 龚旭, 刘浩, 郭爱军, 陈坤. 一种稠油水热降黏改质强化方法. 中国专利, ZL2017105479463, 签发日: 2018.10.2.

  8. 刘东, 陈艳锋, 杨远兮, 吴中华, 郭爱军, 殷长龙, 陈坤, 夏薇, 吴萍

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  10. 刘东, 娄斌, 陈朋, 杨远兮, 吴中华, 郭爱军, 殷长龙, 陈坤, 吴萍

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  12. 陈坤, 娄斌, 孔德辉, 夏薇, 刘贺, 黄兴毅, 宋政逹, 王宗贤, 郭爱军, 刘东, 于冉. 一种用于重质油热反应过程中黏度的测定装置及其测定方法. 中国专利, ZL2015106083483, 签发日: 2018.06.26.

  13. 陈坤, 桑骏才, 夏薇, 吴萍

  14. , 刘贺, 王宗贤, 郭爱军, 孔德辉, 宋政逹, 石彦, 龚旭, 范士广, 倪鹏. 一种测量炭质大分子等温热反应过程中热效应的装置及方法. 中国专利, ZL2015106072900, 签发日: 2018.06.26.

  15. 郭爱军, 王宗贤, 陈坤, 沐宝泉, 刘东, 杨普江, 王齐, 庄士成, 蔺爱国, 付兴国, 侯经纬, 张艳梅, 刘银东. 一种油品储罐的模拟方法和系统. 中国专利, ZL2012101500960, 签发日: 2016.5.11.

  16. 郭爱军, 王宗贤. 一种针状焦的制备方法. 中国专利, ZL200810017110.3, 签发日: 2012.9.26.

  17. 郭爱军, 王宗贤. 一种延迟焦化工艺改进方法. 中国专利, ZL200810017112.2, 签发日: 2012.6.27.

  18. 郭爱军, 王宗贤, 任志惠, 田凌燕, 赵红涛. 联产针状焦和轻质油品的组合工艺. 中国专利, ZL200810017111.8, 签发日: 2011.5.18.

  19. 王宗贤, 郭爱军, 刘东, 沐宝泉, 张蕾蕾, 付兴国, 于志敏, 侯经纬, 赵广辉. 一种检测重质渣油稳定性的方法. 中国专利, ZL 201110231630.6, 签发日: 2013.7.31.

  20. 王宗贤, 付兴国, 高飞, 沐宝泉, 郭爱军, 王齐, 张艳梅, 侯经纬, 刘银东. 一种供氢热裂化方法. 中国专利, ZL 201110369458.0, 2014.4.2.

  21. 王宗贤, 陈坤, 刘东, 郭爱军, 付兴国, 高飞, 刘银东. 一种重油供氢减粘-焦化组合工艺方法. 中国专利, CN 201110277274.1, 2011.9.19.

  22. 郭爱军, 王宗贤, 陈坤, 沐宝泉, 刘东, 杨普江, 王齐, 庄士成, 蔺爱国, 付兴国, 侯经纬, 张艳梅, 刘银东. 一种油品储罐的模拟方法和系统. 中国专利, ZL 201210150096.0, 2016.5.11.

  23. 王宗贤, 陈坤, 刘东, 郭爱军, 付兴国, 高飞, 刘银东. 一种优选延迟焦化加热炉出口温度的方法. 中国专利, CN 201110277535.X, 2011.9.19.

  24. 魏忠勋, 郭爱军, 赵波, 郑尊建, 沐宝泉, 王宗贤. 一种催化裂化油浆固含量的测定方法. 中国专利, ZL 201310148256.2, 2015.8.19.

  25. 王宗贤, 蔺爱国, 邢颖春, 秦本记, 郭爱军, 谢崇亮, 付兴国, 杨普江, 陈坤, 王齐, 吴丽萍, 郭凯黎, 张蕾蕾, 高永. 一种渣油中添加焦化馏分油供氢焦化的方法. 中国专利, CN 201210152634.X, 2012.5.15.

  26. 郭爱军, 赵波, 张艳琦, 魏忠勋, . 一种净化催化裂化油浆的净化设备及净化方法. 中国专利, ZL 201310456765.1, 2015.5.27.

  27. 陈坤, 周莹, 刘进东, 林存辉, 汤一强, 王宗贤, 郭爱军. 一种热分析试验过程中样品消泡的方法. 中国专利, ZL 201310303051.7, 2014.11.26.

  28. 陈坤, 陈烁屹, 孔德辉, 张帝, 刘贺, 夏薇, 林存辉, 李振芳, 刘朝仙, 范士广, 龚旭, 王宗贤, 郭爱军, 沐宝泉, 夏天平, 吉冬珂, 刘金盾, 司慧敏, 吴昊, 韩旭, 李迅, 肖羽科, 李志浩. 模拟炭质大分子延迟焦化过程快速焦化制备成焦的装置.中国专利,  ZL2016205642447, 2017.01.04.

  29. 李振芳, 赵翔鵾, 陈坤, 王宗贤, 沐宝泉, 郭爱军, 沐俊, 王俊杰, 范士广, 林存辉. 稠油临水煤气热改质的模拟装置. 中国专利, ZL2016202482253, 2016.11.09

  30. 陈坤, 陈烁屹, 孔德辉, 夏薇, 刘浩, 刘贺, 刘朝仙, 李振芳, 范士广, 龚旭, 王宗贤, 郭爱军, 沐宝泉, 苏立新, 房克昌, 杜聪慧, 孙梦, 黄金菊, 郭佳, 佟佳俊, 刘晴昊. 一种测定含固重质原料受热生焦趋势的装置. 中国专利, ZL2016205606065, 2016.10.26.

  31. 李振芳, 赵翔鵾, 陈坤, 王宗贤, 沐宝泉, 郭爱军, 沐俊, 周莹, 刘进东. 劣质重油供氢减粘裂化模拟装置. 中国专利, ZL2016202482319, 2016.08.03.

  32. 陈坤, 龚旭, 范士广, 夏薇, 刘贺, 于传瑞, 孔德辉, 宋政逹, 王宗贤, 郭爱军, 沐宝泉, 冯双庆, 刘朝仙, 沐俊, 焦守辉, 赵娜, 汤一强, 赵翔鵾, 李振芳, 王俊杰, 李道易, 刘宏伟, 范玉玲, 吴畏, 邵帅. 一种用于重质油热反应过程中黏度的测定装置. 中国专利, ZL2015207387706, 2016.01.20.

  33. 陈坤, 赵翔鵾, 刘贺, 夏薇, 王宗贤, 郭爱军, 沐宝泉, 宋政逹, 孔德辉, 林存辉, 汤一强, 李振芳, 刘朝仙, 范士广, 沐俊, 赵娜, 焦守辉, 龚旭, 石彦, 张君磊, 汪新坤, 林子杨. 一种测量炭质大分子等温热反应过程中热效应的装置. 中国专利, ZL2015207383743, 2016.01.20.

  34. 赵波, 张艳琦, 郭爱军, 王宗贤. 一种固液分离沉降装置. 中国专利, ZL2013202193122,2014.04.02.

  35. 陈坤, 周莹, 李红艳, 金兆迪, 张艳琦, 杨评, 王宗贤, 郭爱军. 一种用于焦化反应腔室的内衬管件. 中国专利, ZL2013204302482, 2014.03.19.

  36. 魏忠勋, 赵波, 郭爱军, 郑尊建, 沐宝泉, 王宗贤. 一种高压静电固液分离试验装置. 中国专利, ZL201320216589X, 2013.09.11.

  37. 王宗贤, 郭爱军, 蔺爱国, 林祥钦, 杨普江, 沐宝泉, 付兴国, 高飞, 薛鹏, 高永, 王圆圆, 庄士成, 王嘉玮, 谢宾先. 一种延迟焦化模拟装置. 中国专利, ZL2012202559914, 2013.02.13.

  38. 王宗贤, 郭爱军, 蔺爱国, 陈坤, 王齐, 于志敏, 闫灿灿, 杨普江, 刘东, 沐宝泉, 付兴国, 张艳梅, 薛鹏. 一种评价重质油混合稳定性及相关助剂效能的装置. 中国专利, ZL2012202563089, 2013.02.13.

  39. 郭爱军, 王宗贤, 陈坤, 沐宝泉, 刘东, 杨普江, 王齐, 庄士成, 蔺爱国, 付兴国, 侯经纬, 张艳梅, 刘银东. 一种油品储罐的模拟系统. 中国专利, ZL2012202183643, 2012.12.12.

  40. 王宗贤, 沐宝泉, 郭爱军, 郭凯黎, 张艳梅, 刘银东, 于志敏, 赵广辉. 一种评价稠油焦化起泡性能及相关助剂效能的装置. 中国专利, ZL2011204858066, 2012.08.15.



【作者:   审核:】