当前位置: 油气田化学研究所
宫厚健
作者: 发布者:于梦飞 发布时间:2024-04-19 访问次数:11768

职称:副教授

单位:油气田化学研究所

最高学历/学位:研究生/博士

学科:油气田开发工程学科,石油与天然气工程

所学专业:胶体与界面化学

电子邮箱:gonghoujian@upc.edu.cn; ghj_upc@163.com

联系电话:+86 15265265400

地址邮编:山东省青岛市黄岛区长江西路66号石油工程学院,266580

  • 个人主页
  • 学习与工作经历
    2019.06 至 2020.06 加拿大卡尔加里大学石油与化工系 访问学者
    2013.12 至今 beplay安装 油田化学系 副教授
    2011.07 至 2013.11 beplay安装 油田化学系 讲师
    2006.09 至 2011.06 山东大学 胶体与界面化学专业 理学博士
    2001.09 至 2006.06 山东大学 化学化工双学位专业 理、工双学士
  • 研究方向
    页岩油气流动理论与提高采收率方法、超临界CO2驱油体系、化学驱提高采收率、三次采油、胶体与界面化学等
  • 招生方向
  • 主讲课程
    油田化学、提高采收率原理、胶体界面化学、油田污水处理、油气田环境保护、油田污水处理与防腐防垢技术等
  • 学术兼职
    担任 Chemical Engineering Journal, Fuel, Industrial & Engineering Chemistry Research, Energy & Fuels, Journal of Applied Polymer Science, Carbohydrate Polymers, Langmuir, Journal of Petroleum Science and Engineering, Colloids and Surfaces A, Journal of Chemical Engineering Science等期刊审稿人。



  • 指导研究生
    2011级硕士生:张青茹(协助指导),周广卿(协助指导)
    2012级硕士生:任亭亭(协助指导)
    2014级硕士生:李康宁(协助指导)
    2015级硕士生:尚胜祥(协助指导)
    2016级硕士生:张浩,邹洪俊(协助指导)
    2017级硕士生:邱喆,李子靳(协助指导)
    2018级硕士生:桂文宇,仇志伟,吕威(协助指导),SAED ALI BODHLE,ABDIFATAH NOOR ISSA
    2019级硕士生:王卫东,李子岩,ZAKARIYE ALI BARISE
    2020级硕士生:孙君腾,杨志鸿,刘森,张明明,ABDULLAHI AHMED NOOR
    2021级硕士生:张泽轲,孙卓伟
    2022级硕士生:吕纪葳,吴尚林,高苗苗
    2023级硕士生:张欢,何欣彦,MOHAMED MUQTAR BISHAR
  • 承担科研课题
    1) 2022.01-2025.12 CO2活性体系提高陆相富有机质页岩油采收率机理研究(52174049),国家自然科学基金面上项目,负责人
    2) 2019.07-2022.06超临界CO2与表面活性剂在提高页岩油采收率中的协同增效作用机理研究(ZR2019MEE058)山东省自然科学基金面上项目,负责人
    3) 2017.01-2019.12页岩储层压裂用超临界CO2稠化体系的构筑及机理研究(17CX05005),中央高校基本科研业务费科技专项资金,负责人
    4) 2017.03-2019.03 PVAc在超临界CO2中的溶解和增粘特性研究(17-1-1-27-jch), 青岛市源头创新计划,负责人
    5) 2021.01-2025.12 陆相页岩油流动机理与有效开发方式(42090024),国家自然科学基金重大项目课题,参与
    6) 2021.07-2021.12吉木萨尔致密储层滑溜水压裂采油的渗流机理研究和开发方案优化(HX20210507),中国石油新疆油田分公司(勘探开发研究院)横向课题,参与
    7) 2018.09-2019.08 鄂南页岩油可动资源量评价参数研究(G5800-18-ZS-KFNY006)科研机构开放基金项目,参与
    8) 2017.01-2018.12 鄂南长7页岩油流动机理及数值模拟技术研究(2017ZX05049-006-003),国家重大专项,参与
  • 获奖情况
  • 荣誉称号
  • 著作
  • 论文
    1) Huan Zhang, Houjian Gong*, Xinyan He, Junru Wu, Hai Sun, Long Xu, Mingzhe Dong,Simultaneous adjustment on the CO2/oil and CO2/water interface tensions using hydrophilic, lipophilic and CO2-philic surfactants during CO2 flooding to enhance shale oil recovery after hydraulic fracturing, Chemical Engineering Journal, 2024, 486, 150244
    2) Huan Zhang, Houjian Gong*, Zeke Zhang, Zhuowei Sun, Jiwei Lv, Miaomiao Gao, Influence of the adsorption and absorption performance of oil in the nanoporous kerogen particles of shale rock on the oil movability, Energy & Fuels, 2024,
    3) Wei Lv, Houjian Gong*, Mingzhe Dong, Yajun Li, Hai Sun, Zhuowei Sun, Houshun Jiang*,Potential of nonionic polyether surfactant-assisted CO2 huff-n-puff for enhanced oil recovery and CO2 storage in ultra-low permeability unconventional reservoirs, Fuel, 2024, 359, 130474
    4) Houjian Gong*, Wei Lv, Huan Zhang, Mingming Zhang, Hai Sun, Long Xu, Mingzhe Dong, The influence and mechanism of alkyl block polyethers on the interfacial tension and minimum miscibility pressure of CO2 and shale oil, Fuel, 2024, 356, 129568
    5) 张 欢,宫厚健*,孙君腾,张明明,吕 威,杨小珂,醚类助溶剂在超临界二氧化碳中的浊点压力及对二氧化碳-C16 混相压力的影响,油田化学.
    6) Wei Lv, Mingzhe Dong, Hemanta Sarma, Yajun Li, Zijin Li, Junteng Sun, Houjian Gong*, Effects of CO2-philic nonionic polyether surfactants on miscibility behaviors of CO2–hydrocarbon systems: Experimental and simulation approach, Chemical Engineering Journal, 2023, 464, 142701
    7) Houjian Gong*, Xuejie Qin, Jun Pu, Wei Lv, Long Xu,Nuclear magnetic resonance study on enhanced shale oil recovery by CO2 injection: A case study, Energy Sources, Part A: Recovery, Utilization, And Environmental Effects, 2023, 45, 1, 678–689
    8) Long Xu*,Xu Liu,Hongyu Ding,Huan Zhang,Lei Liu,Jinghui Li, Houjian Gong, Mingzhe Dong,Temperature/salt tolerance and oil recovery of xanthan gum solution enhanced by surface-modified nanosilicas, Petroleum Science, 2023, 20, 577-589
    9) Long Xu*, Xu Liu, Ziqing Liu, Pengcheng Li, Hongyu Ding, Houjian Gong, Mingzhe Dong , Extensional rheology of hydrophobically associating polyacrylamide solution used in chemical flooding: Effects of temperature, NaCl and surfactant, Chemical Engineering Science, 2023, 273, 118644
    10) Wei Lv, Houjian Gong*, Yajun Li, Zijin Li, Mingzhe Dong*,The potential and mechanism of nonionic polyether surfactants dissolved in CO2 to improve the miscibility of CO2–hydrocarbon systems,Fuel,2022,326,125012
    11) Houjian Gong*, Huan Zhang, Wei Lv, Long Xu, Zijin Li, Mingzhe Dong, Effects of kerogen on the flow and EOR performance of oil in shale cores during CO2 flooding process investigated by NMR technology, SPE Journal, 2022, 1–13, SPE-209581-PA.
    12) Mingzhe Dong*,Houjian Gong,Qian Sang,XinyiZhao,ChaofanZhu,Review of CO2-kerogen interaction and its effects on enhanced oil recovery and carbon sequestration in shale oil reservoirs,Resources Chemicals and Materials,2022, 1, 93-113
    13) Teng Zhu, Yuming Li, Houjian Gong*, Mingzhe Dong, Phase equilibrium and density of CO2 + acetic acid systems from 308.15 to 338.15 K and 15 to 45 MPa, ACS Omega, 2021, 6, 10, 6663–6673
    14) Zhiwei Qiu,Yitong Xue,Jiyong Li,Yunzhi Zhang,Xinyi Liang,Congying Wen,Houjian Gong*,JingbinZeng*,Highly sensitive colorimetric detection of NH3 based on Au@Ag@AgCl core-shell nanoparticles,Chinese Chemical Letters,2021,32,2807-2811
    15) Long Xu*,Sen Liu, Zhe Qiu,Houjian Gong,Haiming Fan*,Teng Zhu,Huan Zhang,Mingzhe Dong, Hydrophobic effect further improves the rheological behaviors and oil recovery of polyacrylamide/nanosilica hybrids at high salinity,Chemical Engineering Science ,2021,116369
    16) Chaofan Zhu, Wei Guo*, Yajun Li, Houjian Gong, J.J. Sheng, Mingzhe Dong, Effect of occurrence states of fluid and pore structures on shale oil movability, Fuel, 2021,288, 119847
    17) Teng Zhu, Houjian Gong*, Mingzhe Dong, Density and viscosity of CO2 + ethyl acetate binary systems from 308.15 to 338.15 K and 15 to 45 MPa, Fluid Phase Equilibria, 2021, 537, 112988.
    18) Chaofan Zhu, Wei Guo, Youping Wang, Yajun Li,·Houjian Gong, Long Xu, Mingzhe Dong*, Experimental study of enhanced oil recovery by CO2 huff‑n‑puff in shales and tight sandstones with fractures, Petroleum Science, 2021, 18,852-869
    19) Houjian Gong*, Chaofan Zhu, Yinglin Zhang, Zijin Li, Qian San, Long Xu, Yajun Li, Mingzhe Dong, Hassan Hassanzadeh, Experimental evaluation on the oil saturation and movability in the organic and inorganic matter of shale,Energy & Fuels, 2020, 34, 8063−8073.
    20) Houjian Gong*, Wenyu Gui, Hao Zhang, Wei Lv, Long Xu, Yajun Li, Mingzhe Dong, Molecular dynamics study on the dissolution behaviors of poly(vinyl acetate)-polyether block copolymers in supercritical CO2, Journal of Applied Polymer Science, 2020, 138, 50151.
    21) Wei Lv, Houjian Gong*, Yajun Li, Qian San, Long Xu, Mingzhe Dong*,Dissolution behaviors of alkyl block polyethers in CO2: Experimental measurements and molecular dynamics simulations,Chemical Engineering Science, 2020, 228, 115953.
    22) Teng Zhu, Houjian Gong*, Mingzhe Dong, Density and viscosity of CO2 + ethanol binary systems measured by a capillary viscometer from 308.15 to 338.15 K and 15 to 45 MPa, Journal of Chemical & Engineering Data, 2020, 65, 8, 3820–3833.
    23) Long Xu, Sen Liu, Zhe Qiu, Houjian Gong, Haiming Fan, Teng Zhu, Huan Zhang, Mingzhe Dong, Hydrophobic effect further improves the rheological behaviors and oil recovery of polyacrylamide/nanosilica hybrids at high salinity, Chemical Engineering Science, 2020, 116369
    24) Houjian Gong*, Xuejie Qin, Shengxiang Shang, Chaofan Zhu, Long Xu, Qian San, Yajun Li, Mingzhe Dong, Enhanced shale oil recovery by the huff and puff method using CO2 and cosolvent mixed fluids, Energy & Fuels, 2020, 34, 1438−1446.
    25) Chaofan Zhu, J. J. Sheng, Amin Ettehadtavakkol, Yajun Li, Houjian Gong, Zijin Li, Mingzhe Dong*, Numerical and experimental study of enhanced shale-oil recovery by CO2 miscible displacement with NMR, Energy & Fuels, 2020, 34, 2, 1524-1536.
    26) Houjian Gong*, Hao Zhang, Long Xu, Yajun Li, Mingzhe Dong, Effects of cosolvent on dissolution behaviors of PVAc in supercritical CO2: A molecular dynamics study, Chemical Engineering Science, 2019, 206, 22–30.
    27) Houjian Gong,Long Xu,Guiying Xu*,Teng Zhu,Mingzhe Dong, Effects of sodium benzoate and sodium chloride on the aggregation behaviors of PEO-PPO-ph-PPO-PEO and PPO-PEO-ph-PEO-PPO at the air/water interface,Journal of Surfactants and Detergents, 2019, 22, 217-228.
    28) Long Xu*, Zhe Qiu, Houjian Gong*, Chaofan Zhu, Zijin Li, Yajun Li, Mingzhe Dong, Rheological behaviors of microbial polysaccharides with different substituents in aqueous solutions: Effects of concentration, temperature, inorganic salt and surfactant, Carbohydrate Polymers, 2019, 219, 162–171.
    29) Chaofan Zhu, Xuejie Qin, Yajun Li, Houjian Gong*, Zijin Li, Long Xu, Mingzhe Dong*, Adsorption and dissolution behaviors of CO2 and n-alkane mixtures in shale: Effects of the alkane type, shale properties and temperature, Fuel, 2019, 253, 1361–1370.
    30) Long Xu*, Zhe Qiu, Houjian Gong*, Chaofan Zhu, Qian Sang, Yajun Li, Mingzhe Dong, Synergy of microbial polysaccharides and branched-preformed particle gel on thickening and enhanced oil recovery, Chemical Engineering Science, 2019, 208, 115138.
    31) Long Long*, Yajun Li, Houjian Gong, Mingzhe Dong, A numerical study of initiation and migration of trapped oil in capillaries with noncircular cross sections, Geofluids, 2019, 6343519, 1-9
  • 专利
    授权专利:
    1) 宫厚健,李子靳,朱超凡,徐龙,桑茜,李亚军,董明哲,苏玉亮,吕威,桂文宇,一种评价页岩有机质和无机质中采收率的方法,ZL201910484038.3,2022.10.14.
    2) 秦学杰,蒲军,付育璞,李子靳,朱超凡,宫厚健,桑茜,李亚军,董明哲,苏玉亮,一种评价页岩有机质和无机质中可采油含量的方法,ZL 201910484040.0,2022.10.14.
    3) 宫厚健,朱超凡,李亚军,董明哲,苏玉亮,徐龙,邹洪俊,尚胜祥,王宏前,李子靳,测量页岩油二氧化碳吞吐过程中扩散系数的装置及方法,ZL201810053226.6, 2020.03.27.
    4) 宫厚健,朱超凡,尚胜祥,邹洪俊,李亚军,董明哲,苏玉亮,徐龙,翟雯雯,李子靳,评价页岩油二氧化碳吞吐采收率的装置及方法,ZL201810053213.9,2020.05.19.
    5) 宫厚健,尚胜祥,朱超凡,徐龙,李亚军,董明哲,苏玉亮,邹洪俊,李子靳,张英林,利用二氧化碳/助溶剂体系提高页岩油吞吐采收率的方法,ZL201810053938.8, 2020.02.07.
    6) 宫厚健,张少杰,桑茜,李亚军,董明哲,王宏前,徐龙,朱超凡,张浩,尚胜祥,邹洪俊,一种评价页岩中可动油饱和量的装置及方法,ZL201710218173.4,2019.08.16.
    7) 宫厚健,朱腾,董明哲,李亚军,徐龙,桑茜,张涛,李康宁,胡航,张烈,一种由阴-非两性离子表面活性剂形成的超临界CO2微乳液,ZL201610171971.1,2018.07.27.
    8) 宫厚健,朱腾,董明哲,李亚军,徐龙,张涛,胡航,张烈,邢瑞,宋晓丹,测量超临界CO2微乳液相行为和密度的装置及其方法,ZL201610186363.8, 2018.04.27.
    9) 宫厚健,徐龙,董明哲,李亚军,桑茜,朱腾,李康宁,适合于高温高盐油藏的生物胶和表面活性剂复合驱油体系,ZL201510925450.6, 2018.02.02.
    10) 徐龙,祝仰文,姜祖明,宫厚健,王卫东,李亚军,桑茜,董明哲,戚佳伟,高温高压泡沫原位生成和评价的联用测试装置及使用方法,ZL202010028907.4,2022.02.01
    11) 王文东,李萌,苏玉亮,李亚军,宫厚健,徐纪龙,一种用于页岩油流动的数值模拟方法及装置,ZL201910137987.4, 2022.06.14
    12) 徐龙,宫厚健,邱喆,刘晨光,董明哲,李亚军,朱腾,一种天然气泡沫稳泡剂体系及其制备方法,ZL201710956686.5, 2020.03.27.
    13) 董明哲,朱超凡,宫厚健,李亚军,李彦超,尹丛彬,一种测量页岩中二氧化碳与烷烃竞争吸附量的装置及方法,ZL201710217976.8,2019.07.30.
    14) 李亚军,董明哲,宫厚健,王金杰,桑茜,煤页岩中气体动态解吸-流动的等温恒压实验装置,ZL201510145949.5,2018.02.23.
    15) 董明哲,朱腾,陈掌星,刘梅,宫厚健,李亚军,张涛,杨泽皓,寇明明,李伟,一种高温高压下超临界二氧化碳毛细管粘度计及使用方法,ZL201610179563.0, 2018.06.05.
    16) 董明哲,朱腾,陈掌星,郭春清,宫厚健,李亚军,张涛,徐龙,石晓莉,刘月宁,一种超临界二氧化碳相平衡仪及其使用方法,ZL201610186282.8, 2018.06.05.
    17) 李亚军,董明哲,苏玉亮,李康宁,宫厚健,桑茜,潘滨,测量低渗透岩心渗透率的装置及方法,ZL201510420218.7,2018.02.27.
    18) 赵清民,潘伟义,赵春鹏,董明哲,王宏前,张少杰,桑茜,宫厚健,李亚军,一种页岩储集性能测量装置及方法,ZL201710218247.4,2019.08.27.
    申请专利:
    1) 宫厚健,张欢,吕威,张泽轲,吴俊儒,何欣彦,孙海,桑茜,徐龙,董明哲,可同时调控CO2-油和CO2-水界面张力的页岩油驱替体系,申请号:2024100336444
    2) 宫厚健,张欢,张泽轲,孙卓伟,高苗苗,吕纪葳,吴尚林,孙海,徐龙,桑茜,董明哲,适用于微纳米孔隙中页岩油开发的CO2复合体系,申请号:2024100336340
    3) 宫厚健,张泽轲,高苗苗,于越洋,张欢,何欣彦,吕威,孙海,徐龙,董明哲,二维核磁评价CO2对不同赋存状态页岩油萃取率的方法,申请号:202311232610X
    4) 宫厚健,张泽轲,于越洋,高苗苗,吕纪葳,吴尚林,孙卓伟,孙海,徐龙,董明哲,二维核磁评价渗吸过程不同赋存状态页岩油动用率的方法,申请号:2023112377760
    5) 宫厚健,张欢,孙君腾,吕威,张明明,徐龙,桑茜,董明哲, 定量评价CO2作用下原油膨胀率和萃取率的装置和方法,申请号:202211161900.5
    6) 宫厚健,孙君腾,张欢,吕威,张明明,徐龙,桑茜,董明哲,不同压力CO2对原油膨胀萃取率连续评价装置及方法,申请号:202211161917.0
    7) 宫厚健,吕威,张欢,王卫东,李子岩,徐龙,桑茜,李亚军,董明哲,测量油气最小混相压力的方法及装置,申请号:202110526214.2.
    8) 徐龙, 刘子青, 杨志鸿, 刘森, 李鹏程, 李亚军, 宫厚健, 桑茜, 孙海, 董明哲, 低渗透油藏压裂吞吐采油物理模拟实验装置及方法,申请号:202211424327.2
    9) 徐龙, 刘子青, 刘森, 杨志鸿, 刘旭, 王珂, 李鹏程, 宫厚健, 孙海, 董明哲,低速流动条件下低渗岩心油水相对渗透率曲线的测定方法,申请号:202211424321.5



  • 学术交流
    1) 宫厚健,CO2活性体系的构筑及提高页岩油采收率机理研究,二氧化碳地质封存与驱油技术研讨会,2023 年7月19日-22日 长春,口头报告
    2) 张明明, 宫厚健, 吕威等. 烷基聚醚表面活性剂对CO2与原油间界面张力的影响[C]. 中国石油新疆油田分公司(新疆砾岩油藏实验室),西安石油大学,陕西省石油学会. 2022油气田勘探与开发国际会议论文集Ⅳ, 2022: 438-445.
    3) 孙君腾, 宫厚健, 吕威,等. 柠檬酸酯类化合物降低CO2-C16体系最小混相压力实验研究[C]//中国石油新疆油田分公司(新疆砾岩油藏实验室), 西安石油大学, 陕西省石油学会. 2022油气田勘探与开发国际会议论文集Ⅲ. 2022: 894-900.
    4) 王卫东,宫厚健*,桑茜,桂文宇,吕威,低渗透油藏CO2-地层水-岩石相互作用实验研究, 2021国际油气田勘探与开发会议,2021.09.16-18,青岛
    5) 李子岩,宫厚健*,王卫东,桂文宇,桑茜,高盐低渗油藏驱油用表面活性剂研究,2021国际油气田勘探与开发会议,2021.09.16-18,青岛
    6) 桂文宇, 宫厚健*, 吕威, 徐龙, 桑茜. 醇类助剂降低CO2与页岩油最小混相压力实验研究[C]. 西安石油大学、成都理工大学、陕西省石油学会. 2020油气田勘探与开发国际会议论文集. 西安石油大学、成都理工大学、陕西省石油学会:西安石油大学, 2020: 1589-1595.
    7) 桂文宇, 宫厚健*, 吕威, 徐龙, 桑茜. 鄂南长7区致密岩心油气相渗曲线特征实验研究[C]. 西安石油大学、成都理工大学、陕西省石油学会.2020油气田勘探与开发国际会议论文集. 西安石油大学、成都理工大学、陕西省石油学会:西安石油大学, 2020: 1582-1588.
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    10) Study on the mobility of shale oil in different occurrence states based on NMR technology,Zijin Li, Mingzhe Dong, Chaofun Zhu, Houjian Gong,Yajun Li,International Field Exploration and Development Conference, 20193645,October 16-18 2019, Xi’an, China
    11) Experimental study on recovery of shale-oil with dissolved-gas drive,Yinglin Zhang,Mingzhe Dong, Mingshan Zhang, Houjian Gong, Yajun Li,International Field Exploration and Development Conference, 20193640,October 16-18 2019, Xi’an, China
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