职 称:教授
导师 资格:博导
所属 部门:海油所
学科 专业:油气井工程、海洋油气工程
研究 方向:钻井新技术、海洋钻井工程
联系 方式:21246899@qq.com
联系 地址:610500 皇家永利成都市新都区新都大道8号西南石油大学明辨楼B105
张杰,男,1976年6月,重庆市开州区人,博士后,教授,博导。西南石油大学石油工程学院海洋油气工程研究所教师,“油气藏地质及开发工程”国家重点实验室固定研究人员,石油工程师协会(SPE)会员。主要从事油气井工程、海洋油气工程、新能源和人工智能方向的教学和科研工作,紧密围绕国内外能源开发发展亟待解决的问题开展相关科学技术研究,主要致力于钻井多相流流体力学、海洋钻井及新能源开发相关理论研究,牵头承担国家重点研发计划课题、国家自然科学基金面上项目、973子课题、国家重大专项研究任务、省部级科技攻关项目共六项,在国内外核心学术期刊和国际国内重要学术会议上公开发表论文六十余篇,出版专著、教材5部,获授权发明专利近二十件(含国际专利4件),获省部级科技、教学奖励6项。
●1995.09-1999.06 西南石油学院,石油工程,学士
●1999.09-2002.06 西南石油学院,油气田开发工程,硕士
●2002.09-2005.06 西南石油学院,油气井工程,博士
●2005.10-2008.05 中石化西南分公司博士后科研工作站,博士后
●2011.10-2011.12 加拿大卡尔加里大学,访问学者
●2013.02-2013.06 四川大学,教育部出国留学人员培训
●2014.09-2015.07 山东大学,教育部青年骨干教师访问交流
●2016.05-2017.05 加拿大里贾纳大学,国家公派访问学者
●2018.09-2018.10 挪威科技大学,国家高端装备人才培训
●2008.07-至今 西南石油大学石油与天然气工程学院任教
●国家重点研发计划课题,2018YFC0310202,无隔水管海底泵举升双梯度钻井系统技术及工艺,2018/08-2021/12,主持
●国家自然科学基金面上项目,51274168,环空气液两相流中气泡微观动态特征研究,2013/01-2016/12,主持
●973子课题,2013CB228005,钻完井过程中的页岩储层保护机理研究,2013/01-2017/12,主持
●国家科技重大专项,2011ZX05049-002,塔河油田盐区钻井基础分析与工艺优化评价,2011/01-2015/12,主持
●国家科技重大专项,2011ZX05036-003,煤层气气体钻井煤层物性室内测试及评价,2011/01-2015/12,主持
●教育部博士点基金,20095121120005,一种新型钻井堵漏材料的研制,2010/01-2012/12,主持
●皇家永利教育厅重点项目,08ZA006,井底恒压钻井理论与控制方法研究,2009/01-2011/12,主持
●西南石油大学青年科技创新团队,2015CXTD01,海洋油气安全钻井,2016/01-2018/12,负责人
●中石油、中石化、中海油等横向合作科研项目60余项
●ZHANG J,ZHAO Z P,LI X,et al. Research on the mechanism of the influence of flooding on the killing of empty wells[J]. Journal of Petroleum Exploration and Production Technology,2021,11(9):3571-3598. (SCI/EI收录,WOS:000686506900001)
●ZHANG J,LUO W,WAN T Y,et al. Experimental investigation of the effects of ultrasonic stimulation on adsorption,desorption and seepage characteristics of shale gas[J]. Journal of Petroleum Science and Engineering,2021,200:108418. (SCI/EI收录,WOS:000628819200082)
●ZHANG J,LI X,TANG X,et al. Establishment and analysis of temperature field of riserless mud recovery system[J]. Oil & Gas Science and Technology-Rev. IFP Energies nouvelles,2019,74,19. (SCI/EI收录,WOS:000460153700002)
●ZHANG J,LUO W,LI C N,et al. Study of the cuttings transport in stable foam drilling[J]. Oil & Gas Science and Technology-Rev. IFP Energies nouvelles,2019,73,30. (SCI/EI收录,WOS:000443327800002)
●ZHANG J,ZOU J W,NIE K,et al. Numerical simulation of wellhead back pressure in under-balanced drilling[J]. Energy Procedia,2017,107:150-156. (SCI/EI收录,WOS:000400640900020)
●ZHANG J,LIU H.,YUAN G J,et al. Modeling ensures stability of Chinese CBM horizontal wells[J]. Oil & Gas Journal,2015,113(10):58-63. (SCI收录,WOS:000367361800014)
●LI X,ZHANG J,LI C N,et al. Characteristic law of borehole deformation induced by the temperature change in the surrounding rock of deep coalbed methane well[J]. Journal of Energy Resources Technology,Transactions of the ASME,2022-06,144(6):063003. (SCI/EI收录,WOS:000825196200001)
●LI X,ZHANG J,TANG X,et al. Propagation characteristics and application effects of measurement-while-drilling pressure wave for early gas-kick detection[J]. Journal of Loss Prevention in the Process Industries,2022-05. SCI(E),EI. WOS:000783858500001
●LI X,ZHANG J,LI R X,et al. Numerical simulation research on improvement effect of ultrasonic waves on seepage characteristics of coalbed methane reservoir[J]. Energies,2021,14(15):4605. (SCI/EI收录,WOS:000681985200001)
●LI X,ZHANG J,WU C J,et al. Experimental research on the effect of ultrasonic waves on the adsorption,desorption,and seepage characteristics of shale gas[J]. ACS Omega,2021,6(26):17002-17018. (SCI收录,WOS:000671852300029)
●LI X,ZHANG J,LI C N,et al. Variation characteristics of coal?rock mechanical properties under varying temperature conditions for Shanxi Linfen coalbed methane well in China[J]. Journal of Petroleum Exploration and Production Technology,2021,11(7):2905-2915. (SCI/EI收录,WOS:000660460100001)
●LI X,ZHANG J,TANG X,et al. Study on wellbore temperature of riserless mud recovery system by CFD approach and numerical calculation[J]. Petroleum,2020,6(2):163-169. (EI收录)
●LI R X,ZHANG J,LI X,et al. Research on the law of wellhead back pressure control in the process of uncover gas-bearing reservoir based on UBD technology[C]. QR2MSE2021 & ICRSE2021-0002-0324,2021. (EI收录)
●LI X,ZHANG J,ZHENG Y D,et al. Experimental research and numerical analysis of the attenuation law of ultrasound propagating in shale[C]. International Conference on Physics Research and Application,2021. (EI收录)
●LI X,ZHANG J,ZHAO H Y,et al. Study on lifting efficiency of cuttings in return line of riserless mud recovery system[C]. The 9th International Conference on Informatics,Environment,Energy and Applications,2020. (EI收录)
●ZHANG J,LI C N,ZENG F H,et al. To start up extra-heavy oil or bitumen wells by solvents after drilling[C]. SPE Heavy Oil Conference Canada,2012,10.2118/158341-MS. (EI收录)
●张杰,王芷桁,李鑫,等.RMR系统正常工况下流量调节与井底压力控制[J].石油机械,2022,50(7):55-62.
●张杰,李鑫,王志伟,等.无隔水管海底泵举升系统循环温度变化动态模拟[J].西南石油大学学报(自然科学版),2022,44(5):74-84.
●张杰,杜肖潇,李鑫,等.复合式置换法压井参数计算研究[J].科学技术与工程,2022,22(4):1399-1407.
●李鑫,张杰,唐旭,等.随钻压力波在用于早期气侵检测时的扰动传播特性研究[J].中国安全生产科学技术,2022,18(1):54-62.
●张杰,李荣鑫,李鑫,等.泡沫钻水平井岩屑颗粒的运移规律研究[J].钻采工艺,2022,45(1):53-58.
●张杰,王谣,李鑫,等.超声波作用下页岩气渗流变化规律实验研究[J].实验室研究与探索,2021,40(12):46-50.
●张杰,毛葛振,李鑫,等.海底泵举升系统回流管道内钻井液举升效率[J].科学技术与工程,2020,20(8):3024-3028.(中文核心)
●张杰,毛葛振,李鑫,等.无隔水管钻井液回收系统环空压力影响因素研究[J].石油机械,2020,48(12):60-66.(中文核心)
●ZHANG J,LI X,TANG X,et al. Establishment and analysis of temperature field of riserless mud circulation recovery system[J]. Oil & Gas Science and Technology,2019,74(19).
●张杰,王志伟,马玲.连续循环阀钻井技术在番禺油田大位移井的应用[J].西南石油大学学报,2018,40(4):90-96.
●ZHANG J,LUO W,LI C N,et al. Study of the cuttings transport in stable foam drilling[J]. Oil & Gas Science and Technology,2018,73(30).
●ZHANG J,ZOU J W,NIE K,et al. Numerical simulation of wellhead back pressure in under-balanced drilling[J]. Energy Procedia,2017,107:150-156.
●张杰,赵远畅,张文龙.控压钻井气液两相流动特征及影响分析[J].世界科技研究与发展,2016,38(2):5-9.
●张杰.复杂油藏调整井地层压力预测与控制技术[M].北京:科学出版社,2015.
●张杰,吴鹏,李根奎.水平连通井井眼轨迹设计与控制技术[M].北京:科学出版社,2015.
●ZHANG J,LIU H,YUAN G J,et al. Modeling ensures stability of Chinese CBM horizontal wells[J]. Oil & Gas Journal,2015,113(10):58-63.
●张杰,宋国志,杨兰田,等.高压喷射钻井水力参数优化研究[J].科学技术与工程,2015,34(15):157-161.
●ZHANG J,LI C N,ZENG F H,et al. To start up extra-heavy oil or bitumen wells by solvents after drilling[C].SPE 158341,2012.
●ZHANG J,LI X,LI C N,et al. Method for continuous downhole cooling of high-temperature drilling fluid:US11236584B2[P].2022-02-01.
●ZHANG J,LI X,LI C N,et al. Dyanmic simulation method of circulating temperature variation in rmr subsea pump mud-lift drilling system. US 2021/0216689 A1[P].2021-10-07.
●张杰,李鑫,李翠楠,等.一种用于煤层气井储层裂缝扩展的井下燃爆装置及方法:CN112796726B[P].2022-03-25.
●孙学峰,张杰,毛葛振,等.一种海洋钻井用钻头吊运装置:202010798701.X[P].2022-03-25.
●张杰,李鑫,赵在鹏,等.一种对高温钻井液进行井下持续降温的循环系统及方法:202010800147.4[P].2021-03-02.
●李鑫,张杰,赵浩阳,等.无隔水管海底泵举升钻井系统循环温度变化动态模拟方法:202010781330.4[P].中国发明专利,2021-03-19.
●张杰,张先涛,周成华,等.一种用于降低溢流风险的伞型井下防喷器:2015101352498[P].2017-08-14.
●张杰,刘虎,赵远畅,等.一种利用井场储备泥浆降低压井套压的方法:2014105001903[P].2017-02-22.
●张杰,杨兰田,谯开聪,等.一种固定井下波纹管的方法:2012103921057[P].2015-05-13.
●张杰,谯开聪,袁光杰,等.一种降低定向钻具组合外角差测量误差的方法及钻具:2013102550618[P].2015-03-04.
●张杰,杨兰田,周伟,等.一种盐岩地层异形套管设计方法:2013101035272[P].2014-10-22.
●油气井井控理论与技术
●深井复杂地层优快钻井技术
●海洋油气钻井技术
●新能源开发技术
●人工智能在能源领域的应用研究
本研究团队隶属于“油气藏地质及开发工程”国家重点实验室,多年来一直致力于复杂深层深井、超深水平井杆管柱力学行为、钻井液循环流动规律、钻完修井井筒压力控制、钻头与岩石相互作用机理、新能源开发及人工智能等基础理论与应用研究。团队目前固定研究人员6名,硕士、博士研究生50余人。