职称:副教授
单位:油气田化学研究所
最高学历/学位:博士
学科:油气井工程学科,石油与天然气工程领域
所学专业:油气井化学与工程
电子邮箱:zhonghanyi@upc.edu.cn
联系电话:+86 18853248274
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)工科楼E座2123室
钟汉毅
作者:
发布者:于梦飞
发布时间:2021-09-09
访问次数:10535
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个人主页
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学习与工作经历
2003.09-2007.07,中国石油大学(华东),石油工程学士
2007.09-2013.07,中国石油大学(华东),油气井工程博士
2013.07-2015.07,中国石油大学(华东),师资博士后
2015.10-2016.12,中国石油大学(华东),讲师
2017.01-至今,中国石油大学(华东),副教授
2019.11-2020.11,The University of Oklahoma,访问学者
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研究方向
1.钻井液化学井壁稳定理论与技术
2.非常规油气钻完井液技术
3.深井超深井钻完井液技术
4.油基钻井液
5.新型钻井液处理剂研发
6.钻完井液储层保护
7.环保钻完井液
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招生方向
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主讲课程
1.博士研究生课程:高等油气井工程化学.
2.留学研究生课程:Modern Drilling Fluid Technology.
3.硕士研究生课程:现代钻井液技术.
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学术兼职
1.Society of Petroleum Engineering (SPE)会员
2.担任《ACS Sustainable Chemistry & Engineering》、《Journal of Hazards Material》、《Fuel》、《Applied Clay Science》、《Applied Surface Science》、《Powder Technology》、《Energy& Fuels》、《Journal of Natural Gas Science and Engineering》、《Journal of Petroleum Science and Engineering》、《Journal of Molecular Liquids》、《Petroleum Science》、《Colloids and Surface A》等20余种国际主流期刊的审稿人
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指导研究生
2017级:沈广成(获研究生国家奖学金).
2018级:高鑫(获研究生国家奖学金).
2019级:刘文磊,万远,孔祥政,蔡文明.
2020级:管颖.
协助指导博士研究生10名,硕士研究生12名.
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承担科研课题
[1] 基于亚临界水热反应的超高温水基钻井液滤失造壁性调控方法,国家自然基金面上项目,2022-2025,负责人.
[2] 基于生物质水热反应的超高温水基钻井液流变性和滤失性调控新方法,中国石油科技创新基金研究项目,2020-2022,负责人.
[3] 基于压力控制靶向释放的微胶囊化钻井液润滑剂制备及作用机理,国家自然基金青年基金,2018-2020,负责人.
[4] 超支化聚合物修饰的纳米二氧化硅设计、制备及稳定页岩作用机理,山东省自然科学基金青年基金,2017-2019,负责人.
[5] 胺类树枝状聚合物的制备及稳定泥页岩作用机理研究,中国博士后科学基金面上资助项目,2014-2015,负责人.
[6] 纳米胺类树枝状聚合物页岩抑制剂研制及其作用机理研究,山东省博士后创新项目专项资金,2013-2015,负责人.
[7] 基于树枝状聚合物修饰的纳米二氧化硅泥页岩稳定剂制备及特性研究,青岛市自主创新计划应用研究专项项目,2015-2017,负责人.
[8] 纳米颗粒调控水基钻井液高温/超高温流变性的方法与机制研究,中央高校基本科研业务费专项资金,2018-2020,负责人.
[9] 哈法亚储层保护技术及分支井分支井壁稳定与完井方式的研究-1,企事业单位委托科技项目,2015-2016,负责人.
[10] 聚胺强抑制剂研制及其作用机理研究(LW110202A),中国石油大学(华东)优秀博士学位论文培育计划,2011-2013,负责人.
[11] 新型聚胺高性能水基钻井液作用机理研究(12CX06023A),中央高校基本科研业务费专项资金,2011-2013,负责人.
[12] 顺北储层岩心测试分析,中国石油化工股份有限公司石油工程技术研究院,2020,负责人.
[13] 低伤害钻井液封堵及储层保护性能测试,中国石油化工股份有限公司石油工程技术研究院,2019-2020,负责人.
[14] 抗高温增粘降滤失剂和流型调节剂中试工业化生产技术研发,中国石油集团渤海钻探工程有限公司泥浆技术服务分公司,2018,负责人.
[15] 强固壁钻井液体系性能测试评价及分析,中石化胜利石油工程有限公司钻井工程技术公司,2018,负责人.
[16] 低渗气藏岩心物化参数、力学参数及储层伤害测试,中国石油化工股份有限公司石油工程技术研究院,2017,负责人.
[17] 不同端基树枝状聚合物稳定泥页岩作用机理研究,中国石油大学(华东)人才引进项目,2017,负责人.
[18] 井筒稳定性闭环响应机制与智能调控方法,国家重点研发计划研究任务,2020-2025,第二负责人.
[19] 裂缝地层致密承压封堵机理与温敏智能堵漏新方法研究,国家自然科学基金面上项目,2020-2023,第二负责人.
[20] 高温高密度高矿化度钻井液流变性的调控机理及新方法,国家自然科学石油化工联合基金(A类),2016-2018,第二负责人.
[21] 海洋深水浅层井壁稳定与水合物抑制的机理和新方法,国家自然科学基金面上项目,2015-2018,技术骨干.
[22] 耐高温钻井液、压裂液性能控制方法研究,国家十三五重大专项子课题,2017-2019,第二负责人.
[23] 复杂地层钻井液防塌技术对策研究及纳米微乳液冲洗技术研究,国家十三五重大专项子课题,2016-2020,第二负责人.
[24] 海外油田环保钻井液与防漏堵漏新技术,国家十三五重大专项子课题,2017-2020,技术骨干.
[25] 复杂地质条件下深井钻井液与高温高压固井技术研究,国家十二五重大专项子课题,2011-2015,技术骨干.
[26] 复杂地层井壁稳定技术及大位移井强抑制高润滑水基钻井液技术,国家十二五重大专项子课题,2011-2015,技术骨干.
[27] 海外典型油田厚盐岩层钻井液体系研究,国家十二五重大专项子课题,2011-2015,技术骨干.
[28] 深水油气井完井与测试优化方法,国家973项目专题,2015-2019,技术骨干.
[29] 页岩水平井井壁稳定实验测试,中国石油天然气股份有限公司勘探开发研究院,2021,第二负责人.
[30] 近油基钻井液作用机理研究,中石化中原石油工程有限公司钻井工程技术研究院,2019-2020,第二负责人.
[31] 抗高温快速封堵固壁剂研制,中国石油化工股份有限公司石油工程技术研究院,2019-2020,第二负责人.
[32] 塔中北坡高压气层钻井液与固井配套技术研究-抗高温超高密度钻井液体系实验评价与优化,中国石油化工股份有限公司西北油田分公司,2017-2018,第二负责人.
[33] 新型高性能水基钻井液技术研究,中石油渤海钻探工程公司泥浆技术服务分公司,2018-2019,第二负责人.
[34] 哈法亚油田抗沥青污染、Sadi长水平段鱼骨井定向井关键技术研究,北京市瑞德石油新技术公司,2017,第二负责人.
[35] 强固壁剂性能测试与评价,中石化胜利石油工程有限公司钻井工程技术公司,2017,第二负责人.
[36] 储层保护测试加工,中国石油化工股份有限公司华北油气分公司,2017-2019,第二负责人
[37] 哈法亚储层保护技术及分支井分支井壁稳定与完井方式的研究,北京市瑞德石油新技术公司,2016,第二负责人.
[38] 高温高密度钻井液成套技术与可排放海水基钻井液成套技术研发, 中国石油科技计划项目,2014,第二负责人.
[39] 高油溶性速分散形变封堵防塌剂制备技术研究,中石化胜利石油工程有限公司钻井工程技术公司,2014-2015,第二负责人.
[40] 强抑制聚胺钻井液技术研究与应用,中石油西部钻探准东钻井公司,2014,第二负责人.
[41] 塔里木油田大哈拉哈塘地区超深井高温钻井液技术研究,中石油西部钻探准东钻井公司,2014,第二负责人.
[42] 连续管钻井液携岩试验,中石油长城钻探工程技术研究院,2014,第二负责人.
[43] 强化丰富油基钻井液试验检验,中石油长城钻探工程技术研究院,2018,第二负责人.
[44] 乐东10-1气田超高温高密度钻完井液体系优选评估及储层保护研究,中海油田服务股份有限公司,2019-2020,技术骨干.
[45] 渤中19-6气田开发前期研究—渤中19-6气田高温钻完井液优选及潜山储层保护技术研究,中海油研究总院,2019-2020,技术骨干.
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获奖情况
1.聚胺高性能水基钻井液技术及工业化应用.教育部高等学校科学研究优秀成果奖科学技术进步奖二等奖,省部级,2/15,2016.
2.复杂地质条件高性能水基钻井液技术及工业化应用.中国石油和化学工业联合会科技进步二等奖,省部级,2/10,2017.
3.海洋复杂地层与深水钻井液关键技术及工业化应用.中国石油和化学工业联合会科技进步一等奖,省部级,7/15,2018.
4.海洋安全高效钻井流体技术创新与规模化应用.海洋工程科学技术奖一等奖,省部级,7/15,2019.
5.超深井复杂地层高温水基钻井液关键技术研究与现场应用,中国石油大学(华东)优秀科技成果一等奖,校级,7/15,2009.
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荣誉称号
1.山东省优秀博士学位论文,省部级,2014.
2.中国石油大学(华东)优秀博士学位论文,校级,2014.
3.石油工程学院年度贡献奖,2017.
4.石油工程学院年度贡献奖,2018.
5.中国石油大学(华东)优秀班主任,2018.
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著作
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论文
[1] Hanyi Zhong, Xiangzheng Kong, Xin Gao, Zhengsong Qiu, Wai Li, Zhijie An, Weian Huang. Filtration and structure of bentonite-β-cyclodextrin polymer microspheres suspensions: effect of thermal aging time. Journal of Molecular Liquids, 2021, 116914.
[2] Xin Gao, Han-yi Zhong, Xian-Bin Zhang, An-Liang Chen, Zheng-Song Qiu, Wei-An Huang. Application of sustainable basil seed as an ecofriendly multifunctional additive for water-based drilling fluids. Petroleum Science, 2021, 18 (4): 1163-1181.
[3] Hanyi Zhong, Xin Gao, Zhengsong Qiu, Baojiang Sun, Weian Huang, Jia Li. Insight into β-cyclodextrin polymer microsphere as a potential filtration reducer in water-based drilling fluids for high temperature application[J]. Carbohydrate Polymers, 2020, 249, 116833.
[4] Hanyi Zhong, Xin Gao, Zhengsong Qiu, Chong Zhao, Xianbin Zhang, Baoyu Guo, Gongrang Li. Formulation and evaluation of β-cyclodextrin polymer microspheres for improved HTHP filtration control in water-based drilling fluids[J]. Journal of Molecular Liquids, 2020, 313, 113549.
[5] Hanyi Zhong, Xiangzheng Kong, Siqi Chen, Brian P. Grady, Zhengsong Qiu. Preparation, characterization and filtration control properties of crosslinked starch nanospheres in water-based drilling fluids[J]. Journal of Molecular Liquids, 2021, 325, 115221.
[6] Hanyi Zhong, Xin Gao, Xin Zhang, Zhengsong Qiu, Chong Zhao, Xianbin Zhang, Junbin Jin. Improving the shale stability with nano-silica grafted with hyperbranched polyethyleneimine in water-based drilling fluid[J]. Journal of Natural Gas Science and Engineering, 2020, 83, 103624.
[7] Hanyi Zhong, Zhengsong Qiu, Zhichuan Tang, Daoming Zhang, Weian Huang. Minimization shale hydration with the combination of hydroxyl-terminated PAMAM dendrimers and KCl[J]. Journal of Materials Science, 2016, 51(18): 8484-8501.
[8] Hanyi Zhong, Zhengsong Qiu, Zhichuan Tang, Xin Zhang, Jiangen Xu, Weian Huang. Study of 4,4’-methylenebis-cyclohexanamine as a high temperature-resistant shale inhibitor[J]. Journal of Materials Science, 2016, 51(16): 7585-7597.
[9] Hanyi Zhong, Zhengsong Qiu, Weian Huang, Dong Sun, Daoming Zhang, Jie Cao. Synertistic stabilization of shale by a mixture of polyamidoamine dendrimers modified bentonite with various generations in water-based drilling fluid[J]. Applied Clay Science, 2015, 114: 359-369.
[10] Hanyi Zhong, ZhengsongQiu, Weian Huang, Jie Cao, Poly(oxypropylene)- amidoamine modified bentonite as potential shale inhibitor in water-based drilling fluids[J]. Applied Clay Science, 2012, 67, 36-43.
[11] Hanyi Zhong, Guangcheng Shen, Zhengsong Qiu, Yongxue Lin, Lijun Fan, Xiaodong Xing, Jia Li. Minimizing the HTHP filtration loss of oil-based drilling fluid with swellable polymer microspheres[J]. Journal of Petroleum Science and Engineering, 2019, 172: 411-424.
[12] Hanyi Zhong, Guangcheng Shen, Peng Yang, Zhengsong Qiu, Junbin Jin, Xiaodong Xing. Mitigation of lost circulation in oil-based drilling fluids using oil absorbent polymers[J]. Materials, 2018,11:1-20.
[13] Hanyi Zhong, Zhengsong Qiu, Jinpeng Chai, Baoyu, Guo, Dong Sun, Junyi Liu. A preliminary study of the preparation of shale stabilizer with oil sludge- from waste to resource[J]. Journal of Petroleum Science and Engineering, 2018, 161: 50-60.
[14] Hanyi Zhong, Zhengsong Qiu, Dong Sun, Daoming Zhang, Weian Huang. Inhibitive properties comparison of different polyetheramines in water-based drilling fluid[J]. Journal of Natural Gas Science and Engineering, 2015, 26: 99-107.
[15] Hanyi Zhong, Zhengsong Qiu, Daoming Zhang, Zhichuan Tang, Weian Huang, Weiji Wang. Inhibiting shale hydration and dispersion with amine-terminated polyamidoamine dendrimers[J]. Journal of Natural Gas Science and Engineering, 2016, 28: 52-60.
[16] H.Y. Zhong, W.A. Huang, Z.S. Qiu, et al. Inhibition Comparison Between Polyether Diamine and Formate Salts as Shale Inhibitor in Water-based Drilling Fluid[J]. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2015, 37: 1971-1978.
[17] H.Y. Zhong, Z.S. Qiu, W.A. Huang, J. Qiao, H.B. Li, J. Cao, The Development and application of novel polyamine water-based drilling fluid [J], Petroleum Science and Technology, 2014, 32, 497-504.
[18] H.Y. Zhong, Z.S. Qiu, W.A. Huang, J. Cao, F.W. Wang, X.B. Zhang, Inhibition properties comparison of potassium chloride and polyoxypropylenediamine in water-based drilling fluid[J], Petroleum Science and Technology, 2013, 31, 2127-2133.
[19] Hanyi Zhong, Zhengsong Qiu, Weian Huang, Jie Cao. Shale inhibitive properties of polyether diamine in water-based drilling fluid[J]. Journal of Petroleum Science and Engineering, 2011, 78: 510-515.
[20] Hanyi Zhong, Xin Gao, Xianbin Zhang, Anliang Chen, Zhengsong Qiu, Xiangzheng Kong, Weian Huang. Minimizing the filtration loss of water-based drilling fluid with sustainable basil seed powder[J]. Petroleum, 2021, 1-14.
[21] HanyiZhong, ZhengsongQiu, Weian Huang, BinqiangXie, Weiji Wang, Bis(hexamethylene)triamine as potential shale inhibitor in water-based drilling fluid[J], The Open Petroleum Engineering Journal, 2013, 6, 49-56.
[22] H.Y. ZHONG, Z.S. QIU, W.A. HUANG, J. Cao, F.W. Wang, B.Q. Xie, Inhibition comparison between polyether diamine and quaternary ammonium salt as shale inhibitor in water-based drilling fluid[J], Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2013, 35, 218-225.
[23] Zhong Hanyi, Sun Dong, Huang Weian, Liu Yunfeng, Qiu Zhengsong. Effect of cycloaliphatic amine on the shale inhibitive properties of water-based drilling fluid[J]. The Open Fuels & Energy Science Journal, 2015, 8: 19-27.
[24] 钟汉毅,高鑫,邱正松,林永学,金军斌,汤志川,赵欣,李佳.环保型β-环糊精聚合物微球高温降滤失作用机理[J].石油学报,2021,42(8):1091-1102.
[25] 钟汉毅,邱正松,黄维安,等.PAMAM树枝状聚合物抑制泥页岩水化膨胀和分散特性[J].中南大学学报(自然科学版),2016,47(12):4132-4140.
[26] 邱正松,钟汉毅,黄维安.新型聚胺页岩抑制剂特性及作用机理[J].石油学报,2011,32(4):678-682.
[27] 高鑫,钟汉毅,邱正松,金军斌,李大奇,李佳.钻井液用β-环糊精聚合物微球降滤失剂的制备及性能评价[J].钻井液与完井液,2021.01.06,online.
[28] 钟汉毅,高鑫,邱正松,郭保雨,赵冲,沈广成.树枝状聚合物在钻井液中的应用研究进展[J].钻井液与完井液,2019,36(4):397-406.
[29] 钟汉毅,孙栋,邱正松,黄维安,刘云峰.新型环烷胺页岩抑制性评价及分析[J],钻井液与完井液,2014,31(4),1-4.
[30] 钟汉毅,邱正松,黄维安,林永学,李海斌,张国.新型聚胺页岩水化抑制剂研制及应用[J],西安石油大学学报,2013,28(2),72-77.
[31] 钟汉毅,邱正松,黄维安,李海斌,毛惠.聚胺高性能水基钻井液特性评价及应用[J],科学技术与工程,2013,13(10),200-204.
[32] 钟汉毅,黄维安,邱正松,黄达全,王富伟.聚胺与氯化钾抑制性的对比实验研究[J],西南石油大学学报,2012,34(3),150-156.
[33] 钟汉毅,黄维安,邱正松,王明明,柳耀泉,金海锋,刘存壮.聚胺与甲酸盐抑制性对比实验研究[J],断块油气田,2012,19(4),508-512.
[34] 钟汉毅,黄维安,邱正松,赖书敏,王伟吉.新型两亲性低分子多胺页岩抑制剂特性分析[J],东北石油大学学报,2012,36(5),51-55.
[35] 钟汉毅,黄维安,林永学,邱正松,刘贵传,张国.新型聚胺页岩抑制剂性能评价[J],石油钻探技术,2011, 39(6):44-48.
[36] 钟汉毅,邱正松,黄维安,王富伟,张现斌.聚胺水基钻井液特性实验评价[J].油田化学,2010, 27(2):119-123.
[37] 钟汉毅,邱正松,黄维安,徐加放,江琳. 胺类页岩抑制剂特点及研究进展[J].石油钻探技术,2010,38(1):104-108.
[38] Li J., Qiu Z., Zhong H., et al. Coupled CFD-DEM analysis of parameters on bridging in the fracture during lost circulation[J]. Journal of Petrol Science and Engineering, 2020, 184: 106501.
[39] Li J., Qiu Z., Zhong H., et al. Optimizing Selection Method of Continuous Particle Size Distribution for Lost Circulation by Dynamic Fracture Width Evaluation Device[J]. Journal of Petroleum Science and Engineering, 2021: 108304.
[40] Li J., Qiu Z., Zhong H., et al. Parametric study on near-wellbore fracture geometry for wellbore strengthening in anisotropic formation[J]. Journal of Petroleum Science and Engineering, 2020, 184: 106549.
[41] Li J., Qiu Z., Zhong H., et al. The thermal and chemical effect on wellbore strengthening treatment in shale formation[J]. Journal of Natural Gas Science and Engineering, 2020, 74: 103102.
[42] Li J., Qiu Z., Zhong H., et al. Analysis of chemo-poro-thermo-mechanical effects on wellbore strengthening[J]. Journal of Energy Resources Technology, 2020: 1-29.
[43] Qiu Z., Li J., Zhong H., et al. Parametric study of fracture interference effects on fracture geometry for wellbore strengthening[J]. Energy Sources Part A Recovery Utilization and Environmental Effects, 2019, 41:1-18.
[44] Li J., Qiu Z., Zhong H., et al. Coupled CFD-DEM simulation of micro-plugging mechanism of lost circulation in fractured reservoirs [C]//55th US Rock Mechanics/Geomechanics Symposium. ARMA, 2021.
[45] Li J., Qiu Z., Zhong H., et al. Effects of water-based drilling fluid on properties of mudcake and wellbore stability in fractured formations [C]//55th US Rock Mechanics/Geomechanics Symposium. ARMA, 2021.
[46] Yunfeng Liu, Zhengsong Qiu, Hanyi Zhong, et al. Bitumen Recovery from Crude Bitumen Samples from Halfaya Oilfield by Single and Composite Solvents-Process, Parameters, and Mechanism [J]. Materials, 2019, 12(17): 2656.
[47] Yunfeng Liu, Zhengsong Qiu, Hanyi Zhong, et al. Application of nitrogen-containing switchable solvents in separation of hydrocarbons and their derivatives [J]. RSC Advances, 2020, 10: 12953-12961.
[48] Zhang Y, Qiu Z, Li G, Zhong H, Zhao X. Analysis of interactions between water and shale by water activity[J]. Journal of Natural Gas Science and Engineering, 2020, 80: 103372.
[49] Zhou, GW. Qiu, ZS. Zhong, HY, et al. Study of Environmentally Friendly Wild Jujube Pit Powder as a Water-Based Drilling Fluid Additive[J]. ACS Omega. 2021, 6(2): 1436-1444.
[50] Zhang Y, Qiu Z, Zhao X, Mu J, Ma Y, Zhong H, Huang W, Liu Y. Preparation and characterization of intelligent temperature-control microcapsules for natural gas hydrate bearing sediment[J]. Journal of Molecular Liquids, 2021: 117436.
[51] Zhang Y, Qiu Z, Zhao X, Zhong H, Huang W. Experimental study on ultra-low temperature drilling fluid in Arctic permafrost[J]. Polar Science, 2021, 28: 100645.
[52] Weian Huang, Ming Lei, Zhengsong Qiu, Yee-Kwong Leong, Hanyi Zhong, Shifeng Zhang. Damage mechanism and protection measures of a coalbed methane reservoir in the Zhengzhuang block. Journal of Natural Gas Science and Engineering, 2015, 26: 683-694.
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专利
[1] 钟汉毅,高鑫,邱正松,牟庭波,黄达全,张现斌,陈安亮. 超高温耐盐星型聚合物降滤失剂及其制备方法和水基钻井液,ZL202010915502.2.
[2] 钟汉毅,邱正松,陈思琪,周国伟,李佳,高鑫,刘云峰,汤志川,水基钻井液用纳米淀粉微球降滤失剂及其制备方法和水基钻井液,ZL201910239105.5.
[3] 钟汉毅,高鑫,邱正松,沈广成,汤志川,李佳,刘云峰,聚合物改性碳微球及其制备方法和应用,ZL201910419311.4.
[4] 钟汉毅,沈广成,邱正松,高鑫,汤志川,李佳,周国伟,碳微球作为高温水基钻井液用封堵剂的应用及高温水基钻井液,ZL201910418763.0.
[5] 钟汉毅,高鑫,邱正松,沈广成,李佳,汤志川,张倩,黄曦腾,水基钻井液用环糊精微球超高温降滤失剂及其制备方法以及水基钻井液和应用,201910596309.4.
[6] 钟汉毅,沈广成,邱正松,周国伟,汤志川,黄维安,赵欣,李佳.淀粉纳米晶作为钻井液用流型调节剂的应用及钻井液. ZL201810179200.6.
[7] 钟汉毅,邱正松,张馨,汤志川,赵欣,黄维安,刘均一,张现斌.一种泥页岩稳定剂及其制备方法.ZL201711486496.8.
[8] 钟汉毅,沈广成,邱正松,范立君,黄维安,赵欣,汤志川.油基钻井液.ZL 201810068995.3.
[9] 钟汉毅,邱正松,黄维安,汤志川,张馨,王洪路,陈雅,户炜婧.一种树枝状聚醚泥页岩抑制剂及其稳定方法与应用. ZL201610953281.1.
[10] 钟汉毅,邱正松,黄维安,赵欣,王伟吉,张道明,汤志川,张馨. 一种钻井液用页岩抑制剂及其制备方法. ZL201610953279.4.
[11] 钟汉毅,邱正松,马永乐,黄维安,江琳,曹杰,白雪飞,一种保护煤层气储层的钻井液,发明专利, ZL201310123946.2.
[12] 邱正松,钟汉毅,赵欣,黄维安,张道明,汤志川,张馨,王伟吉.一种树枝状季铵盐页岩抑制剂及其制备方法与应用,发明专利,ZL201610957891.9.
[13] Zhengsong Qiu, Xin Zhao, Hanyi Zhong, Weian Huang, Yongjun Zhang, Guowei Zhou. Encapsulating agent and preparing method thereof, and drilling fluid for petroleum drilling. US9845421, 2017.12.19. United States Patent and Trademark Office. -
学术交流
[1] Hanyi Zhong, Xiangzheng Kong, Zhengsong Qiu, Weian Huang, Xianbin Zhang, Chong Zhao. Effect of nano carbon spheres on the properties of oil-based drilling fluids under high temperature conditions. IPTC-21404-MS, International Petroleum Technology Conference, 23 March-1 April, 2021.
[2] Zhengsong Qiu, Hanyi Zhong, Ganghua Chen, Daoming Zhang. Improving the rheological and filtration properties of water-based drilling fluids with nanocelluloses. The 6th International Conference on Nanostructures, Nanomaterials and Nanoengineering, Tokyo, October 26-29, 2017.
[3] Hanyi Zhong, Zhengsong Qiu, Ganghua Chen, et al. Improving the wellbore stability while drilling long open hole shale intervals in Tahe oil field. SPE-176165-MS, SPE/IATMI Asia Pacific Oil & Gas Conference and Exhibition, Bali, 20-22 October, 2015.
[4] Zhong Hanyi, Qiu Zhengsong, Huang Weian, Sun Dong, Liu Yunfeng. Inhibitive properties comparison of different polyetheramines in water-based drilling fluid. 2nd World Congress on Petrochemistry and Chemical Engineering, Las Vegas, October 27-29, 2014.
[5] ZhongHanyi, Qiu Zhengsong, Huang Weian, Cao Jie, Huang Daquan, Li Haibin. Successful application of unique polyamine high performance water-based drilling fluid in Bohai Bay shale formations. IPTC-16721, 2013 International Petroleum Technology Conference, 26-28 March, 1-12, Beijing, 2013.
[6] 2018年全国钻完井液技术研讨会,成都.
[7] 2017年全国钻完井液技术研讨会,长沙.
[8] 2016年全国钻完井液技术研讨会,合肥.
[9] 2015年全国钻完井液技术研讨会,湛江.
[10] 2015年第五届国际纳米科技大会,西安.
[11] 钟汉毅,邱正松,黄维安.新型聚胺高性能水基钻井液体系研制及特性评价[A].2010年全国钻井液完井液技术研讨会论文集[C].贵阳:中国石油学会,2010:18-154.
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个人风采
钟汉毅,1984年9月生,博士后,副教授,现担任油气田化学研究所副所长。主要从事钻完井液基础理论与应用技术研究,研究方向涉及钻井液化学井壁稳定理论、深井超深井钻井液技术、非常规油气钻完井液技术、油基钻井液技术以及钻完井液处理剂新材料研发等。主持或参与国家级项目15项,发表学术论文50余篇,其中SCI/EI收录30余篇,授权国家发明专利20余件,获省部级科技奖励5项,获2014年山东省优秀博士学位论文。担任《ACS Sustainable Chemistry & Engineering》、《Fuel》、《Journal of Natural Gas Science and Engineering》和《Journal of Petroleum Science and Engineering》等20余种国际主流期刊的审稿人。欢迎对油田化学用剂、胶体与界面化学以及钻井工程化学感兴趣的同学报考!