◎学习与工作经历 2005.09-2009.07,中国石油大学(华东),石油工程 学士 2009.09-2015.07,中国石油大学(华东),油气井工程 博士 2015.07-2017.06,中国石油大学(华东),博士后 2017.07-2018.12,中国石油大学(华东),石油工程学院,讲师 2018.12至今,中国石油大学(华东),石油工程学院,副教授,学院青年学术拔尖人才
◎研究方向 1.井筒工作液理论与技术 2.海洋深水钻井液理论与技术 3.油田化学剂研发与应用 4.天然气水合物钻采工作液 5.油气层保护技术 学术/专业硕士研究生招生方向:石油与天然气工程(01油气井工程理论与技术、04油气田化学与提高采收率技术、05海洋油气工程理论与技术、07非常规地质能源开发工程理论与技术)
◎学术兼职 1.山东省高等学校“海洋深水井筒工作液”青年创新团队带头人; 2.中石油集团海洋工程重点实验室“深水井筒工作液与水合物控制研究室” 副主任; 3.中海油田服务股份有限公司-中国石油大学(华东)“海洋深层/深水钻井液与井壁稳定联合实验室” 技术委员会委员; 4.中海油研究总院-中国石油大学(华东)“海洋钻完井工程技术联合实验室” 秘书; 5.SCI期刊《SPE Drilling & Completion》(IF=1.721,JCR二区)副主编; 6.SCI期刊《Journal of Petroleum Exploration and Production Technology》(IF=2.508,JCR二区)副主编; 7.国内期刊《Petroleum Science》和《天然气工业》青年编委、《石油科学通报》执行编委; 8.国家自然科学基金项目评议人; 9.青岛市科技专家库入库专家、青岛市高新技术企业认定评审专家; 10.Elsevier书稿评审人;《Journal of Cleaner Production》、《Fuel》、《International Journal of Heat and Mass Transfer》、《Journal of Industrial Engineering Chemistry》、《Journal of Petroleum Science and Engineering》、《Applied Clay Science》、《SPE drilling & completion》、《Petroleum Science》、《Energy & Fuels》、《天然气工业》、《石油钻探技术》等30余种期刊的审稿人。
◎主讲课程 《Modern drilling fluid technology》,留学生研究生课程 《高等油气井工程化学》,博士研究生课程 《油气井工程理论和技术进展》,博士研究生课程 《现代钻井液技术》,硕士研究生课程 《现代海洋油气工程》,硕士研究生课程
◎指导研究生 指导硕士研究生9人;作为副导师指导博士研究生3人,协助指导硕士研究生11人。 2018级:张玉彬(博士生,副导师) 2019级:张震 2020级:耿麒,房清超,孙昊,袁石,单锴(博士生,副导师) 2021级:王帅,张恒,李孙博,康雨杰(博士生,副导师) 2022级:苏文治
◎承担科研课题 1.国家自然科学基金:基于相变蓄冷原理的天然气水合物钻探钻井液智能控温微胶囊研究,2019-2021,负责人; 2.中国博士后科学基金特别资助:钻井液抑制天然气水合物生成的作用机理与设计方法研究,2016-2017,负责人; 3.中国博士后基金面上资助(一等):钻井液对天然气水合物生成的影响规律及作用机理研究,2015-2017,负责人; 4.山东省自然科学基金:水基钻井液抑制天然气水合物分解的作用机制研究,2017-2019,负责人; 5.山东省博士后创新项目:纳米流体控制天然气水合物生成动力学的机理与方法研究,2016-2017,负责人; 6.青岛市源头创新计划:海洋天然气水合物钻探用智能控温钻井液研究,2019-2021,负责人; 7.青岛市博士后应用研究项目:深水钻井完井液技术优化研究,2015-2017,负责人; 8.中海油项目,深水/超深水复杂薄弱地层动态井壁强化技术,2022-2025,负责人; 9.中海油项目,海上中深层低渗储层伤害评价方法及储层保护技术研究,2022-2023,负责人; 10.中石油项目:钻井液用环保高效水合物抑制剂研究,2019,负责人; 11.中石化项目:天然气水合物地层关键井筒工作液技术研究,2020-2021,负责人; 12.中石化项目:极地冻土低温钻井液关键技术研究,2018-2019,负责人; 13.中石化项目:海上复杂地层堵漏与储层保护研究,2020,负责人; 14.中国石油大学人才引进项目:海洋深水油气储层保护机理研究,2017-2018,负责人; 15.国家十三五重大专项子课题:环保钻井液与防漏堵漏新技术研究,2017-2020,副组长; 16.国家自然基金重大项目课题:天然气水合物钻采井筒多相流动障碍形成机制与安全控制方法,2020-2024,任务负责人; 17.中石油项目:天然气水合物储层防塌钻井液及控温新材料研究,2022-2033,第二负责人; 18.中海油项目:陵水25-1气田钻完井液体系优选及井壁强化技术研究,2019-2020,第二负责人; 19.中海油项目:深水深层钻井液体系流变规律和井壁强化技术研究,2019-2020,第二负责人; 20.中海油项目: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,2019-2020,第二负责人; 21.中海油项目:渤中19-6气田储层敏感性评价及钻完井液体系优选,2018-2019,第二负责人; 22.中海油项目:陵水17-2气田群钻完井液体系优选及储层保护研究,2015,第二负责人; 23.中海油项目:流花29-2气田储层敏感性评价及钻完井液体系研究,2018,第二负责人; 24.中石油项目:缅甸深水钻井液技术适应性研究,2014-2015,第二负责人; 25.中石油项目:深水复杂地层防漏堵漏剂与提速剂性能测试,2019,第二负责人; 26.中石化项目:深水水基钻井液关键性能调控技术研究,2014-2015,第二负责人; 27.中海油项目:米桑油田钻完井液体系优选及储层保护研究,2013,第二负责人; 28.中海油项目:西江油田钻开液体系和破胶体系适应性实验评价,2016,第二负责人; 29.中海油项目:钻井液用超微加重固相作用机理及应用技术研究,2019-2020,第二负责人; 30.国家十二五重大专项子课题:海外典型油田(深水)厚盐岩层钻井液体系研究,2011-2015,技术骨干; 31.国家973计划课题:深水油气井完井与测试优化方法,2015-2019,技术骨干; 32.国家自然科学基金:海洋深水浅层井壁稳定与水合物抑制的机理和新方法,2015-2018,技术骨干; 33.国家自然科学基金:深水水基钻井液低温流变性调控用温敏聚合物研制及调控机理研究,2019-2022,技术骨干; 34.国家自然科学基金:裂缝地层致密承压封堵机理与温敏智能堵漏新方法研究,2020-2023,技术骨干。
◎获奖情况 1.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,2018,排名2/15; 2.海洋安全高效钻井流体技术创新与规模化应用,海洋工程科学技术一等奖,省部级,2019,排名2/15; 3.海洋复杂油气田高效环保钻井液关键技术及规模应用,天津市科技进步一等奖,省部级,2021,排名4/12; 4.海洋深层安全环保水基钻井液关键技术及工业化应用,山东省技术发明二等奖,省部级,2021,排名5/6; 5.复杂深井安全高效水基钻井液技术创新与规模应用,中国产学研合作创新成果一等奖,省部级,2022,排名5/10; 6.聚胺高性能水基钻井液技术及工业化应用,高等学校优秀研究成果科技进步二等奖,省部级,2016,排名5/10; 7.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,2016,排名5/15; 8.复杂钻井工况下井筒压力精确控制与工作液关键技术,中国石油和化学工业联合会科技进步一等奖,省部级,2016,排名14/15。
◎荣誉称号 SPE Outstanding Technical Reviewer Award, 2022 石油工程学院青年学术拔尖人才,2020 石油工程学院年度贡献奖,2018、2019 中国石油大学(华东)优秀班主任,2019 山东省优秀博士毕业生,2015 中国石油大学(华东)优秀毕业论文
◎论文 发表论文80余篇,其中SCI收录47篇(ESI全球TOP1%高被引论文2篇)、中国知网学术精要高被引论文1篇。 [1] Zhao X, Geng Q, Zhang Z, et al. Phase change material microcapsules for smart temperature regulation of drilling fluids for gas hydrate reservoirs[J]. Energy, 2023, 263: 125715.(SCI、EI收录) [2] Zhao X, Fang Q, Qiu Z, et al. Experimental investigation on hydrate anti-agglomerant for oil-free systems in the production pipe of marine natural gas hydrates[J]. Energy, 2022, 242: 122973.(SCI、EI收录) [3] Zhao X, Qiu Z, Gao J, et al. Mechanism and effect of nanoparticles on controlling fines migration in unconsolidated sandstone formations[J]. SPE Journal, 2021, 26(6): 3819-3831.(SCI、EI收录) [4] Zhao X, Qiu Z, Zhang Z, et al. Relationship between the gas hydrate suppression temperature and water activity in the presence of thermodynamic hydrate inhibitor[J]. Fuel, 2020, 264: 116776. (SCI、EI收录) [5] Zhao X, Qiu Z, Zhao C, et al. Inhibitory effect of water-based drilling fluid on methane hydrate dissociation[J]. Chemical Engineering Science, 2019, 199: 113-122.(SCI、EI收录) [6] Zhao X, Qiu Z, Sun B, et al. Formation damage mechanisms associated with drilling and completion fluids for deepwater reservoirs[J]. Journal of Petroleum Science and Engineering, 2019, 173: 112-121.(SCI、EI收录) [7] Zhao X, Qiu Z, Wang M, et al. Experimental investigation of the effect of drilling fluid on wellbore stability in shallow unconsolidated formations in deep water[J]. Journal of Petroleum Science and Engineering, 2019, 175: 595-603. (SCI、EI收录) [8] Zhao X, Qiu Z, Huang W, et al. Mechanism and method for controlling low-temperature rheology of water-based drilling fluids in deepwater drilling[J]. Journal of Petroleum Science and Engineering, 2017, 154: 405-416. (SCI、EI收录) [9] Zhao X, Qiu Z, Zhou G, et al. Synergism of thermodynamic hydrate inhibitors on the performance of poly (vinyl pyrrolidone) in deepwater drilling fluid[J]. Journal of Natural Gas Science and Engineering, 2015, 23: 47-54.(SCI、EI收录) [10] Zhao X, Qiu Z, Huang W. Characterization of kinetics of hydrate formation in the presence of kinetic hydrate inhibitors during deepwater drilling[J]. Journal of Natural Gas Science and Engineering, 2015, 22: 270-278.(SCI、EI收录) [11] Zhao X, Qiu Z, Wang M, et al. Performance Evaluation of a Highly Inhibitive Water-Based Drilling Fluid for Ultralow Temperature Wells[J]. Journal of Energy Resources Technology, 2018, 140(1): 012906.(SCI、EI收录) [12] Zhao X, Qiu Z, Zhang Y, et al. Zwitterionic Polymer P (AM-DMC-AMPS) as a Low-Molecular-Weight Encapsulator in Deepwater Drilling Fluid[J]. Applied Sciences, 2017, 7(6): 594.(SCI收录) [13] Zhao X, Qiu Z, Huang W, et al. Multifunctional properties of polyglycol in deepwater drilling fluids[J]. Chemistry and Technology of Fuels and Oils, 2014, 50(3): 233-239.(SCI、EI收录) [14] 赵欣,邱正松,黄维安,等.天然气水合物热力学抑制剂作用机制及优化设计[J].石油学报,2015,36(6):760-766.(EI收录) [15] 赵欣,邱正松,江琳,等.深水钻井液高效水合物抑制剂研究[J].中国石油大学学报(自然科学版),2013,37(6):159-164.(EI收录) [16] 赵欣,耿麒,邱正松,等.深水高孔高渗储层免破胶钻井完井液技术[J]. 天然气工业,2021,41(4):107-114.(EI收录) [17] 赵欣,邱正松,江琳,等.动力学抑制剂作用下天然气水合物生成过程的实验分析[J].天然气工业,2014,34(2):105-110.(EI收录) [18] 赵欣,邱正松,张永君,等.复合盐层井壁失稳机理及防塌钻井液技术[J].中南大学学报(自然科学版),2016,47(11):3832-3838.(EI收录) [19] Zhao X, Qiu Z, Xu J, et al. Flat-rheology oil-based drilling fluid for deepwater drilling[J]. International Journal of Heat and Technology, 2017, 35(1): 19-24.(EI收录) [20] Zhao X, Qiu Z, Zhou G, et al. Experimental Study on Methane Hydrate Inhibitors for Hydrate Control in Deep-sea Drilling[A]. The Twenty-fifth International Offshore and Polar Engineering Conference[C]. California: ISOPE, 2015.(EI收录) [21] Zhao X, Qiu Z, Wang M, et al. Reservoir Protection Strategy and a High Performance Drill-In Fluid for Deepwater Wells in the South China Sea[A]. SPE Deepwater Drilling and Completions Conference[C], Galveston: SPE 180294, 2016.(EI收录) [22] Zhao X, Qiu Z, Wang M, et al. Silicate and Aluminum-Based Drilling Fluids for Stabilizing the Wellbore in Deepwater Drilling[A]. The Twenty-ninth International Offshore and Polar Engineering Conference[C]. California: ISOPE, 2019.(EI收录) [23] 赵欣,孙昊,邱正松,等.复合盐层多元协同稳定井壁钻井液技术[J].深圳大学学报理工版,2022,39(6):668-674. [24] 赵欣,邱正松,石秉忠,等.深水聚胺高性能钻井液试验研究[J].石油钻探技术,2013,41(3):35-39. [25] 赵欣,邱正松,黄维安,等.油基钻井液低温特性实验研究[J].钻井液与完井液,2013,30(3):17-19. [26] 赵欣,邱正松,邢希金,等.深水钻井液添加剂抑制气体水合物生成实验[J].石油化工高等学校学报,2013,26(5):42-45. [27] 赵欣,邱正松,高永会,等.缅甸西海岸深水气田水基钻井液优化设计[J].石油钻探技术,2015,43(4):13-18. [28] Fang Q, Zhao X, Li S, et al. Effect of Surfactants with Different Hydrophilic–Lipophilic Balance on the Cohesive Force between Cyclopentane Hydrate Particles[J]. Journal of Marine Science and Engineering, 2022, 10(9): 1255.(通讯作者,SCI收录) [29] Fang Q, Zhao X, Sun H, et al. Formation-Damage Mechanism and Gel-Breaker-Free Drill-In Fluid for Carbonate Reservoir[J]. Gels, 2022, 8(9): 565. (通讯作者,SCI收录) [30] Yuan S, Zhao X, Cheng R, et al. Molecular simulation on adsorption of hydration inhibitor N1, N1’-(ethane-1, 2-diethyl) bis (N1-(2-aminoethyl) ethane-1, 2-diamine onto Montmorillonite[J]. Clay Minerals, 2023.(通讯作者,SCI收录) [31] Farhadian A, Shadloo A, Zhao X, et al. Challenges and advantages of using environmentally friendly kinetic gas hydrate inhibitors for flow assurance application: A comprehensive review[J]. Fuel, 2023, 336: 127055.(通讯作者,SCI、EI收录) [32] 邱正松, 高健, 赵欣, 等. 深水疏松砂岩储层微粒运移损害的控制方法[J]. 石油学报, 2022, 43(7): 1016. (通讯作者,EI收录) [33] Li J, Qiu Z, Zhong H, Zhao X, et al. Effects of water-based drilling fluid on properties of mud cake and wellbore stability[J]. Journal of Petroleum Science and Engineering, 2022, 208: 109704.(通讯作者,SCI、EI收录) [34] Li J, Qiu Z, Zhao X, et al. Effect of different parameters on sealing performance of lost circulation process with dynamic fracture aperture testing apparatus[J]. Journal of Petroleum Science and Engineering, 2020: 193: 107357.(通讯作者,SCI、EI收录) [35] 邱正松,赵欣.深水钻井液技术现状与发展趋势[J].特种油气藏,2013,20(3):1-7. [36] Xu J, Qiu Z, Zhao X, et al. Hydrophobic modified polymer based silica nanocomposite for improving shale stability in water-based drilling fluids[J]. Journal of Petroleum Science and Engineering, 2017, 153: 325-330.(SCI、EI收录) [37] Xu J, Qiu Z, Zhao X, et al. Synthesis and characterization of shale stabilizer based on polyethylene glycol grafted nano-silica composite in water-based drilling fluids[J]. Journal of Petroleum Science and Engineering, 2018, 163: 371-377. (SCI、EI收录) [38] Xu J, Qiu Z, Zhao X, et al. A polymer microsphere emulsion as a high-performance shale stabilizer for water-based drilling fluids[J]. RSC Advances, 2018, 8(37): 20852-20861. (SCI、EI收录) [39] Xu J, Qiu Z, Zhao X, et al. Application of Nano‐Polymer Emulsion for Inhibiting Shale Self‐Imbibition in Water‐Based Drilling Fluids[J]. Journal of Surfactants and Detergents, 2018, 21(1): 155-164. (SCI、EI收录) [40] Xu J, Qiu Z, Zhao X, et al. Study of 1-Octyl-3-methylimidazolium bromide for inhibiting shale hydration and dispersion[J]. Journal of Petroleum Science and Engineering, 2019, 177: 208-214.(SCI、EI收录) [41] Bao D, Qiu Z, Zhao X, et al. Experimental investigation of sealing ability of lost circulation materials using the test apparatus with long fracture slot[J]. Journal of Petroleum Science and Engineering, 2019, 183: 106396.(SCI、EI收录) [42] Zhang Y, Qiu Z, Zhao X, et al. Preparation and characterization of intelligent temperature-control microcapsules for natural gas hydrate bearing sediment[J]. Journal of Molecular Liquids, 2021: 117436.(SCI收录) [43] Zhang Y, Qiu Z, Zhao X, et al. Experimental study on ultra-low temperature drilling fluid in Arctic permafrost[J]. Polar Science, 2021, 28: 100645.(SCI、EI收录) [44] Li J, Qiu Z, Zhong H, Zhao X, 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.(SCI、EI收录) [45] Li J, Qiu Z, Zhong H, Zhao X, 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, 200: 108304.(SCI、EI收录) [46] Wang D, Qiu Z, Zhong H, Zhao X, et al. Performance control of high temperature and high density drilling fluid based on fractal grading theory[J]. Geoenergy Science and Engineering, 2023, 221: 211377. [47] Li J, Qiu Z, Zhong H, Zhao X, 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.(SCI、EI收录) [48] Huang W, Qiu Z, Cui M, Zhao X. Development and evaluation of an electropositive wellbore stabilizer with flexible adaptability for drilling strongly hydratable shales[J]. Petroleum Science, 2015, 12(3): 458-469.(SCI收录) [49] Xu J, Qiu Z, Huang W, Zhao X, et al. Preparation and performance properties of polymer latex SDNL in water-based drilling fluids for drilling troublesome shale formations[J]. Journal of Natural Gas Science and Engineering, 2017, 37: 462-470.(SCI、EI收录) [50] Li J, Qiu Z, Zhong H, Zhao X, et al. Coupled CFD-DEM analysis of parameters on bridging in the fracture during lost circulation[J]. Journal of Petroleum Science and Engineering, 2019: 106501.(SCI、EI收录) [51] Qiu Z, Xu J, Yang P, Zhao X, et al. Effect of Amphiphilic Polymer/Nano-Silica Composite on Shale Stability for Water-Based Muds[J]. Applied Sciences, 2018, 8(10): 1839.(SCI收录) [52] Geng T, Qiu Z, Zhao C, Zhang L, Zhao X. Rheological study on the invert emulsion fluids with organoclay at high aged temperatures[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2019, 573: 211-221.(SCI、EI收录) [53] Qiu Z, Li J, Zhong H, Zhao X, Huang W. Parametric study of fracture interference effects on fracture geometry for wellbore strengthening[J]. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2019: 1-18.(SCI收录) [54] Zhang Y, Qiu Z, Li G, Zhong H, Zhao X, et al. Analysis of Interactions between water and shale by Water Activity[J]. Journal of Natural Gas Science and Engineering, 2020: 103372. [55] Zhang Y, Qiu Z, Mu J, Ma Y, Zhao X, et al. Intelligent Temperature-Control of Drilling Fluid in Natural Gas Hydrate Formation by Nano-Silica/Modified n-Alkane Microcapsules[J]. Nanomaterials, 2021, 11(9): 2370. [56] 邱正松,张玉彬,赵欣,等. 海洋天然气水合物地层钻井液优化实验研究[J]. 天然气工业,2019,39(12):104-109.(EI收录) [57] 邱正松,徐加放,赵欣,等.深水钻井液关键技术研究[J].石油钻探技术,2011,39(2):27-34. [58] 暴丹,邱正松,赵欣,等.基于温敏形状记忆特性的智能化堵漏材料研究展望[J] .钻井液与完井液,36(3):265-272. [59] 耿铁,邱正松,汤志川,赵欣,苗海龙.深水钻井抗高温强抑制水基钻井液研制与应用[J]. 石油钻探技术,2019,47(3):82-88. [60] 邱正松,董兵强,钟汉毅,王伟吉,赵欣.页岩储层保护用O/W纳米乳液的制备[J].化工学报,2015,66(11):4565-4571.(EI收录) [61] 邱正松,刘扣其,曹杰,赵欣.新型内相油基钻井液性能实验研究[J].钻井液与完井液,2014,31(2):24-27. [62] 邱正松,刘扣其,曹杰,赵欣,罗洋.NH4Ca(NO3)3内相油基钻井液性能探讨[J].油田化学,2014,31(2):163-166. [63] 杨一凡,邱正松,李佳,赵欣,钟汉毅,等.渤中19-6深部潜山高温气层保护钻井液技术[J].钻井液与完井液,2020,37(4):476-481. [64] 暴丹,邱正松,叶链,钟汉毅,赵欣,邱维青,王宝田,郭保雨.热致形状记忆“智能”型堵漏剂的制备与特性实验[J].石油学报,2020,41(1):106-115.(EI收录) [65] 邱正松,暴丹,刘均一,陈家旭,钟汉毅,赵欣,陈晓华.裂缝封堵失稳微观机理及致密承压封堵实验[J].石油学报,2018,39(5):587-596.(EI收录)
◎专利 [1] 赵欣,房清超,邱正松,等.水合物抑制剂及其应用.ZL202110733327.X [2] 赵欣,邱正松,刘扣其,等.一种深水恒流变油基钻井液.ZL201510218323.2 [3] 赵欣,邱正松,王明亮,等.深水浅部弱胶结地层钻井液稳定井壁作用评价的方法和装置.ZL201810070149.5 [4] 赵欣,邱正松,黄维安,等.一种深海和冻土区钻探用超低温钻井液.ZL201611044884.6 [5] 赵欣,邱正松,刘均一,等.一种页岩气水平井强化井壁的水基钻井液及其应用.ZL201510144600.X [6] Qiu Z, Zhao X, Zhong H, et al, Encapsulating Agent and Preparing Method thereof, and Drilling Fluid for Petroleum Drilling. US9845421B1. 美国发明专利 [7] 邱正松,赵欣,钟汉毅,等.包被剂及其制备方法和应用和石油钻井用钻井液.ZL201610975131.0 [8] 邱正松,钟汉毅,赵欣,等.一种树枝状季铵盐页岩抑制剂及其制备方法与应用.ZL201610957891.9 [9] 刘书杰,邱正松,赵欣,等.一种强抑制水基钻井液.ZL201310064155.7
◎学术交流 1. 深水钻井液与完井液水合物抑制剂优化设计研究(优秀论文一等奖),全国钻井液完井液技术交流研讨会,重庆,2014. 2. 全国钻井液完井液技术交流研讨会,湛江,2015. 3. Experimental Study on Methane Hydrate Inhibitors for Hydrate Control in Deep-sea Drilling, The Twenty-fifth International Offshore and Polar Engineering Conference, Hawaii, USA, 2015. 4. Reservoir Protection Strategy and a High Performance Drill-In Fluid for Deepwater Wells in the South China Sea, SPE Deepwater Drilling and Completions Conference, Galveston, USA, 2016. 5. 全国钻井液完井液技术交流研讨会,长沙,2017. 6. 海洋深水钻井液技术研究进展,深海能源大会,海口,2017. 7. 深水钻井液中天然气水合物控制技术思路探讨,COSL-UPC“海洋深层/深水钻井液与井壁稳定联合实验室”年会,青岛,2020. 8. 2019年中海油海上油田钻完井液、固井及EPS技术研讨会,天津,2020. 9. 天津市企业重点实验室技术交流会,青岛,2021. 10. 2021年中海油海上油田钻完井液、固井及EPS技术研讨会,青岛,2021.
◎个人风采 赵欣(1987-),青岛即墨人,博士,博士后,副教授,硕士生导师,山东省高等学校青年创新团队带头人,石油工程学院青年学术拔尖人才,主要从事井筒工作液理论与技术研究。近年来主持或参与国家自然科学基金、国家科技重大专项、国家973计划、国家重点研发计划及三大石油公司项目30余项;发表论文80余篇,其中SCI/EI收录60余篇;授权发明专利20余件;获省部级科技奖励8项。本人爱好篮球、足球等体育运动,团队氛围和谐,关系融洽。团队依托多个省部级及校企联合重点实验室,为研究生提供一流的科研平台支撑和物质生活保障,欢迎工程、化学、材料等方向的同学报考研究生。手机(微信):15963288198;QQ:349859660。 |