當前位置: 油氣田化學研究所
趙欣 副教授
作者: 發布者:趙小明 發布時間:2023-02-21 訪問次數:10620
»姓名:趙欣 »職稱:副教授

»單位:油氣田化學研究所 »最高學曆/學位:博士
»學科:油氣井工程學科,石油與天然氣工程領域 »所學專業:石油工程
»電子郵箱:zhaoxin@upc.edu.cn
»聯係電話:15963288198
»地址郵編:青島市黃島區中國石油大學工科樓E2123
»個人主頁:
學習與工作經曆
2005.09-2009.07,中國石油大學(華東),石油工程 學士
2009.09-2015.07,中國石油大學(華東),油氣井工程 博士
2015.07-2017.06,中國石油大學(華東),博士後
2017.07-2018.12,中國石油大學(華東),必威app精裝版客服 ,講師
2018.12至今,中國石油大學(華東),必威app精裝版客服 ,副教授,學院青年學術拔尖人才

研究方向
1.井筒工作液理論與技術
2.海洋深水鑽井液理論與技術
3.油田化學劑研發與應用
4.天然氣水合物鑽采工作液
5.油氣層保護技術

學術/專業碩士研究生招生方向:石油與天然氣工程(01油氣井工程理論與技術、04油氣田化學與提高采收率技術、05海洋油氣工程理論與技術、07非常規地質能源開發工程理論與技術)

學術兼職
1.山東省高等學校“海洋深水井筒工作液”青年創新團隊帶頭人;
2.中石油集團海洋工程重點實驗室“深水井筒工作液與水合物控製研究室” 副主任;
3.中海油田服務股份有限公司-中國石油大學(華東)“海洋深層/深水鑽井液與井壁穩定聯合實驗室” 技術委員會委員;
4.中海油研究總院-中國石油大學(華東)“海洋鑽完井工程技術聯合實驗室” 秘書;
5.SCI期刊《SPE Drilling & Completion》(IF=1.721,JCR二區)副主編;
6.SCI期刊《Journal of Petroleum Exploration and Production Technology》(IF=2.508,JCR二區)副主編;
7.國內期刊《Petroleum Science》和《天然氣工業》青年編委、《石油科學通報》執行編委;
8.國家自然科學基金項目評議人;
9.青島市科技專家庫入庫專家、青島市高新技術企業認定評審專家;
10.Elsevier書稿評審人;《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》、《天然氣工業》、《石油鑽探技術》等30餘種期刊的審稿人。


主講課程
《Modern drilling fluid technology》,留學生研究生課程
《高等油氣井工程化學》,博士研究生課程
《油氣井工程理論和技術進展》,博士研究生課程
《現代鑽井液技術》,碩士研究生課程
《現代海洋油氣工程》,碩士研究生課程

指導研究生
指導碩士研究生9人;作為副導師指導博士研究生3人,協助指導碩士研究生11人。
2018級:張玉彬(博士生,副導師)
2019級:張震
2020級:耿麒,房清超,孫昊,袁石,單鍇(博士生,副導師)
2021級:王帥,張恒,李孫博,康雨傑(博士生,副導師)
2022級:蘇文治

承擔科研課題
1.國家自然科學基金:基於相變蓄冷原理的天然氣水合物鑽探鑽井液智能控溫微膠囊研究,2019-2021,負責人;
2.中國博士後科學基金特別資助:鑽井液抑製天然氣水合物生成的作用機理與設計方法研究,2016-2017,負責人;
3.中國博士後基金麵上資助(一等):鑽井液對天然氣水合物生成的影響規律及作用機理研究,2015-2017,負責人;
4.山東省自然科學基金:水基鑽井液抑製天然氣水合物分解的作用機製研究,2017-2019,負責人;
5.山東省博士後創新項目:納米流體控製天然氣水合物生成動力學的機理與方法研究,2016-2017,負責人;
6.青島市源頭創新計劃:海洋天然氣水合物鑽探用智能控溫鑽井液研究,2019-2021,負責人;
7.青島市博士後應用研究項目:深水鑽井完井液技術優化研究,2015-2017,負責人;
8.中海油項目,深水/超深水複雜薄弱地層動態井壁強化技術,2022-2025,負責人;
9.中海油項目,海上中深層低滲儲層傷害評價方法及儲層保護技術研究,2022-2023,負責人;
10.中石油項目:鑽井液用環保高效水合物抑製劑研究,2019,負責人;
11.中石化項目:天然氣水合物地層關鍵井筒工作液技術研究,2020-2021,負責人;
12.中石化項目:極地凍土低溫鑽井液關鍵技術研究,2018-2019,負責人;
13.中石化項目:海上複雜地層堵漏與儲層保護研究,2020,負責人;
14.中國石油大學人才引進項目:海洋深水油氣儲層保護機理研究,2017-2018,負責人;
15.國家十三五重大專項子課題:環保鑽井液與防漏堵漏新技術研究,2017-2020,副組長;
16.國家自然基金重大項目課題:天然氣水合物鑽采井筒多相流動障礙形成機製與安全控製方法,2020-2024,任務負責人;
17.中石油項目:天然氣水合物儲層防塌鑽井液及控溫新材料研究,2022-2033,第二負責人;
18.中海油項目:陵水25-1氣田鑽完井液體係優選及井壁強化技術研究,2019-2020,第二負責人;
19.中海油項目:深水深層鑽井液體係流變規律和井壁強化技術研究,2019-2020,第二負責人;
20.中海油項目:樂東10-1氣田超高溫高密度鑽完井液體係優選評估及儲層保護研究,2019-2020,第二負責人;
21.中海油項目:渤中19-6氣田儲層敏感性評價及鑽完井液體係優選,2018-2019,第二負責人;
22.中海油項目:陵水17-2氣田群鑽完井液體係優選及儲層保護研究,2015,第二負責人;
23.中海油項目:流花29-2氣田儲層敏感性評價及鑽完井液體係研究,2018,第二負責人;
24.中石油項目:緬甸深水鑽井液技術適應性研究,2014-2015,第二負責人;
25.中石油項目:深水複雜地層防漏堵漏劑與提速劑性能測試,2019,第二負責人;
26.中石化項目:深水水基鑽井液關鍵性能調控技術研究,2014-2015,第二負責人;
27.中海油項目:米桑油田鑽完井液體係優選及儲層保護研究,2013,第二負責人;
28.中海油項目:西江油田鑽開液體係和破膠體係適應性實驗評價,2016,第二負責人;
29.中海油項目:鑽井液用超微加重固相作用機理及應用技術研究,2019-2020,第二負責人;
30.國家十二五重大專項子課題:海外典型油田(深水)厚鹽岩層鑽井液體係研究,2011-2015,技術骨幹;
31.國家973計劃課題:深水油氣井完井與測試優化方法,2015-2019,技術骨幹;
32.國家自然科學基金:海洋深水淺層井壁穩定與水合物抑製的機理和新方法,2015-2018,技術骨幹;
33.國家自然科學基金:深水水基鑽井液低溫流變性調控用溫敏聚合物研製及調控機理研究,2019-2022,技術骨幹;
34.國家自然科學基金:裂縫地層致密承壓封堵機理與溫敏智能堵漏新方法研究,2020-2023,技術骨幹。

獲獎情況
1.海洋複雜地層與深水鑽井液關鍵技術及工業化應用,中國石油和化學工業聯合會科技進步一等獎,省部級,2018,排名2/15;
2.海洋安全高效鑽井流體技術創新與規模化應用,海洋工程科學技術一等獎,省部級,2019,排名2/15;
3.海洋複雜油氣田高效環保鑽井液關鍵技術及規模應用,天津市科技進步一等獎,省部級,2021,排名4/12;
4.海洋深層安全環保水基鑽井液關鍵技術及工業化應用,山東省技術發明二等獎,省部級,2021,排名5/6;
5.複雜深井安全高效水基鑽井液技術創新與規模應用,中國產學研合作創新成果一等獎,省部級,2022,排名5/10;
6.聚胺高性能水基鑽井液技術及工業化應用,高等學校優秀研究成果科技進步二等獎,省部級,2016,排名5/10;
7.複雜地質條件高性能水基鑽井液技術及工業化應用,中國石油和化學工業聯合會科技進步二等獎,省部級,2016,排名5/15;
8.複雜鑽井工況下井筒壓力精確控製與工作液關鍵技術,中國石油和化學工業聯合會科技進步一等獎,省部級,2016,排名14/15。

榮譽稱號
SPE Outstanding Technical Reviewer Award, 2022
必威app精裝版客服 青年學術拔尖人才,2020
必威app精裝版客服 年度貢獻獎,2018、2019
中國石油大學(華東)優秀班主任,2019
山東省優秀博士畢業生,2015
中國石油大學(華東)優秀畢業論文

論文
發表論文80餘篇,其中SCI收錄47篇(ESI全球TOP1%高被引論文2篇)、中國知網學術精要高被引論文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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[14] 趙欣,邱正鬆,黃維安,等.天然氣水合物熱力學抑製劑作用機製及優化設計[J].石油學報,2015,36(6):760-766.(EI收錄)
[15] 趙欣,邱正鬆,江琳,等.深水鑽井液高效水合物抑製劑研究[J].中國石油大學學報(自然科學版),2013,37(6):159-164.(EI收錄)
[16] 趙欣,耿麒,邱正鬆,等.深水高孔高滲儲層免破膠鑽井完井液技術[J]. 天然氣工業,2021,41(4):107-114.(EI收錄)
[17] 趙欣,邱正鬆,江琳,等.動力學抑製劑作用下天然氣水合物生成過程的實驗分析[J].天然氣工業,2014,34(2):105-110.(EI收錄)
[18] 趙欣,邱正鬆,張永君,等.複合鹽層井壁失穩機理及防塌鑽井液技術[J].中南大學學報(自然科學版),2016,47(11):3832-3838.(EI收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[23] 趙欣,孫昊,邱正鬆,等.複合鹽層多元協同穩定井壁鑽井液技術[J].深圳大學學報理工版,2022,39(6):668-674.
[24] 趙欣,邱正鬆,石秉忠,等.深水聚胺高性能鑽井液試驗研究[J].石油鑽探技術,2013,41(3):35-39.
[25] 趙欣,邱正鬆,黃維安,等.油基鑽井液低溫特性實驗研究[J].鑽井液與完井液,2013,30(3):17-19.
[26] 趙欣,邱正鬆,邢希金,等.深水鑽井液添加劑抑製氣體水合物生成實驗[J].石油化工高等學校學報,2013,26(5):42-45.
[27] 趙欣,邱正鬆,高永會,等.緬甸西海岸深水氣田水基鑽井液優化設計[J].石油鑽探技術,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.(通訊作者,SCI收錄)
[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. (通訊作者,SCI收錄)
[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.(通訊作者,SCI收錄)
[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.(通訊作者,SCI、EI收錄)
[32] 邱正鬆, 高健, 趙欣, 等. 深水疏鬆砂岩儲層微粒運移損害的控製方法[J]. 石油學報, 2022, 43(7): 1016. (通訊作者,EI收錄)
[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.(通訊作者,SCI、EI收錄)
[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.(通訊作者,SCI、EI收錄)
[35] 邱正鬆,趙欣.深水鑽井液技術現狀與發展趨勢[J].特種油氣藏,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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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收錄)
[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] 邱正鬆,張玉彬,趙欣,等. 海洋天然氣水合物地層鑽井液優化實驗研究[J]. 天然氣工業,2019,39(12):104-109.(EI收錄)
[57] 邱正鬆,徐加放,趙欣,等.深水鑽井液關鍵技術研究[J].石油鑽探技術,2011,39(2):27-34.
[58] 暴丹,邱正鬆,趙欣,等.基於溫敏形狀記憶特性的智能化堵漏材料研究展望[J] .鑽井液與完井液,36(3):265-272.
[59] 耿鐵,邱正鬆,湯誌川,趙欣,苗海龍.深水鑽井抗高溫強抑製水基鑽井液研製與應用[J]. 石油鑽探技術,2019,47(3):82-88.
[60] 邱正鬆,董兵強,鍾漢毅,王偉吉,趙欣.頁岩儲層保護用O/W納米乳液的製備[J].化工學報,2015,66(11):4565-4571.(EI收錄)
[61] 邱正鬆,劉扣其,曹傑,趙欣.新型內相油基鑽井液性能實驗研究[J].鑽井液與完井液,2014,31(2):24-27.
[62] 邱正鬆,劉扣其,曹傑,趙欣,羅洋.NH4Ca(NO3)3內相油基鑽井液性能探討[J].油田化學,2014,31(2):163-166.
[63] 楊一凡,邱正鬆,李佳,趙欣,鍾漢毅,等.渤中19-6深部潛山高溫氣層保護鑽井液技術[J].鑽井液與完井液,2020,37(4):476-481.
[64] 暴丹,邱正鬆,葉鏈,鍾漢毅,趙欣,邱維青,王寶田,郭保雨.熱致形狀記憶“智能”型堵漏劑的製備與特性實驗[J].石油學報,2020,41(1):106-115.(EI收錄)
[65] 邱正鬆,暴丹,劉均一,陳家旭,鍾漢毅,趙欣,陳曉華.裂縫封堵失穩微觀機理及致密承壓封堵實驗[J].石油學報,2018,39(5):587-596.(EI收錄)

專利
[1] 趙欣,房清超,邱正鬆,等.水合物抑製劑及其應用.ZL202110733327.X
[2] 趙欣,邱正鬆,劉扣其,等.一種深水恒流變油基鑽井液.ZL201510218323.2
[3] 趙欣,邱正鬆,王明亮,等.深水淺部弱膠結地層鑽井液穩定井壁作用評價的方法和裝置.ZL201810070149.5
[4] 趙欣,邱正鬆,黃維安,等.一種深海和凍土區鑽探用超低溫鑽井液.ZL201611044884.6
[5] 趙欣,邱正鬆,劉均一,等.一種頁岩氣水平井強化井壁的水基鑽井液及其應用.ZL201510144600.X
[6] Qiu Z, Zhao X, Zhong H, et al, Encapsulating Agent and Preparing Method thereof, and Drilling Fluid for Petroleum Drilling. US9845421B1. 美國發明專利
[7] 邱正鬆,趙欣,鍾漢毅,等.包被劑及其製備方法和應用和石油鑽井用鑽井液.ZL201610975131.0
[8] 邱正鬆,鍾漢毅,趙欣,等.一種樹枝狀季銨鹽頁岩抑製劑及其製備方法與應用.ZL201610957891.9
[9] 劉書傑,邱正鬆,趙欣,等.一種強抑製水基鑽井液.ZL201310064155.7

學術交流
1. 深水鑽井液與完井液水合物抑製劑優化設計研究(優秀論文一等獎),全國鑽井液完井液技術交流研討會,重慶,2014.
2. 全國鑽井液完井液技術交流研討會,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. 全國鑽井液完井液技術交流研討會,長沙,2017.
6. 海洋深水鑽井液技術研究進展,深海能源大會,海口,2017.
7. 深水鑽井液中天然氣水合物控製技術思路探討,COSL-UPC“海洋深層/深水鑽井液與井壁穩定聯合實驗室”年會,青島,2020.
8. 2019年中海油海上油田鑽完井液、固井及EPS技術研討會,天津,2020.
9. 天津市企業重點實驗室技術交流會,青島,2021.
10. 2021年中海油海上油田鑽完井液、固井及EPS技術研討會,青島,2021.

個人風采
趙欣(1987-),青島即墨人,博士,博士後,副教授,碩士生導師,山東省高等學校青年創新團隊帶頭人,必威app精裝版客服 青年學術拔尖人才,主要從事井筒工作液理論與技術研究。近年來主持或參與國家自然科學基金、國家科技重大專項、國家973計劃、國家重點研發計劃及三大石油公司項目30餘項;發表論文80餘篇,其中SCI/EI收錄60餘篇;授權發明專利20餘件;獲省部級科技獎勵8項。本人愛好籃球、足球等體育運動,團隊氛圍和諧,關係融洽。團隊依托多個省部級及校企聯合重點實驗室,為研究生提供一流的科研平台支撐和物質生活保障,歡迎工程、化學、材料等方向的同學報考研究生。手機(微信):15963288198;QQ:349859660。