职       称:讲师
导师资格:硕导
所属 部门:采油所
学科 专业:油气田开发工程
研究 方向:油气井完井理论与技术
联系 方式:13512368947、rojielhw@163.com

联系 地址:610500 四川省成都市新都区新都大道8号金沙娱场城app7979

罗红文,男,博士(后),讲师,2020年6月毕业于金沙娱场城app7979油气田开发工程专业,获工学博士学位,2021年1月留校任教。主要从事油气井分布式光纤(DTS/DAS/DSS)监测及解释技术、注采剖面评价技术、井下动态分析、完井优化等方面的科研教学工作。主持四川省自然科学基金1项、中国博士后基金面上项目1项、中石油科技创新基金项目1向、横向协作项目5项,主研“十三五”国家科技重大专项2项、横向协作项目6项。以第一作者/通讯作者在《SPE Journal》《Journal of Petroleum Science and Engineering》《石油学报》《天然气工业》等期刊上发表学术论文30余篇(其中SCI 15篇)。申请国家发明专利十余件、PCT国际专利1件、软件著作权5项。担任《International Journal of Petroleum Technology》《Petroleum Science and Engineering》等期刊编委,IJHMT、JPSE、SPEPO、SPERE等多个SCI期刊的审稿专家。

个人经历

●2010.09-2014.06    重庆科技学院,石油工程,学士
●2014.09-2016.06    金沙娱场城app7979,油气田开发工程,硕士
●2016.09-2020.06    金沙娱场城app7979,油气田开发工程,博士
●2019.09-2020.09    University of Calgary,油气田开发工程,国家公派联培博士
●2021.01-至今       金沙娱场城app7979石油与天然气工程学院,讲师/博士后

主研项目

●四川省自然科学基金,2022NSFSC0993,页岩气水平井多场耦合热变规律及产出剖面反演方法研究,2022/01-2023/12,负责人
●中国博士后科学基金面上项目,2021M702721,页岩气水平井多场耦合热变规律及产出剖面反演方法研究,2021/01-2022/12,负责人
●中石油科技创新基金项目,2022DQ02-0305,水平井压裂声波响应机理实验及DAS大数据智能反演方法研究,2023/05-2026/04,负责人
●横向协作项目,光纤剖面测井多相流物理实验,2023/10-2024/11,负责人
●横向协作项目,分布式光纤成像温度流量正反演及DAS特征提取方法及软件,2022/09-2023/06,负责人
●横向协作项目,油藏压裂水平井DTS监测资料解释软件测试,2021/04-2022/03,负责人
●横向协作项目,基于DTS的水平井压裂过程温度场模拟及解释评价方法研究,2022/11-2023/12,负责人
●横向协作项目,分布式光纤水平井压裂监测调查研究及DAS数据解释,2023/08-2023/11,负责人
●“十三五”国家科技重大专项,2016ZX05021-005-009HZ,连续温度分布测试及水平井完井综合评价技术,2016/01-2020/12,主研
●“十三五”国家科技重大专项,2016ZX05017005-006,水平井产气剖面评价与深度酸化研究,2016/01-2020/12,主研
●横向协作项目,分布式光纤测温产出剖面资料预处理技术,2020/08-2021/08,主研
●横向协作项目,高温光纤吸汽剖面解释技术研究,2020-2021,主研
●横向协作项目,水平井温度剖面单因素影响测试实验研究,2018/08-2018/11,主研
●横向协作项目,新疆昌吉油田致密油水平井体积压裂优化设计及压后评价技术研究,2015/06-2017/11,主研

代表性成果

(1)主要论著
●Luo H W,Li Y,Li H T,et al. A simulated annealing algorithm-based inversion model to interpret flow rate profiles and fracture parameters for horizontal wells in unconventional gas reservoirs[J]. SPE Journal,2021,26(04):1679-1699.
●Luo H W,Li H T,Li Y H,et al. Investigation of temperature behavior for multi-fractured horizontal well in low-permeability gas reservoir[J]. International Journal of Heat and Mass Transfer,2018,127:375-395.
●Luo H W,Li H T,Lu Yu,et al. Inversion of distributed temperature measurements to interpret the flow profile for a multistage fractured horizontal well in low-permeability gas reservoir[J]. Applied Mathematical Modelling,2020,77(Part1):360-377.
●Luo H W,Li H T,Tan Y S,et al. A novel inversion approach for fracture parameters and inflow rates diagnosis in multistage fractured horizontal wells[J]. Journal of Petroleum science and Engineering,2020,184:106585.
●Luo H W,Li H T,Zhou X J,et al. Modeling temperature behavior of multistage fractured horizontal well with two-phase flow in low-permeability gas reservoirs[J]. Journal of Petroleum science and Engineering,2019,173:1187-1209.
●Luo H W,Li H T,Wang J C,et al. A fuzzy system of candidate completion methods selection for multi-fractured horizontal wells in tight oil reservoirs[J]. Journal of Petroleum science and Engineering,2018,171:175-195.
●Luo H W,Jiang B B,Li H T,et al. Flow Rate Profile Interpretation for a Two-Phase Flow in Multistage Fractured Horizontal Wells by Inversion of DTS Data[J]. ACS Omega,2020,5(34):21728-21744.
●Luo H W,Li H T,Zhang J F,et al. Production performance analysis of fractured horizontal well in tight oil reservoir[J]. Journal of Petroleum Exploration & Production Technology,2018,8(1):229-247.
●Li H T,Luo H W,Zhang J F,et al. Rate-transient analysis in multifractured horizontal wells of tight oil reservoir[J]. SPE production & operations,2018,33(4):718-738.
●Li Y,Luo H W,Li H T,et al. A brief review of dynamic capillarity effect and its characteristics in low permeability and tight reservoirs[J]. Journal of Petroleum Science and Engineering,189:106959.
●Li Y,Luo H W,Li H T,et al. Dynamic capillarity during displacement process in fractured tight reservoirs with multiple fluid viscosities[J]. Energy Science & Engineering,2019(00):1-12.
●Zuo K,Yang J,Luo H W,et al. An efficient inversion method to interpret distributed temperature measurement of horizontal wells in shale gas reservoirs[J]. Petroleum Science and Technology,2024,42(1):146-167.
●Ma X,Li H T,Luo H W,et al. Research on well selection method for high-pressure water injection in fractured-vuggy carbonate reservoirs in Tahe oilfield[J]. Journal of Petroleum Science and Engineering,2022,214:110477.
●Li Y,Li H T,Chen S N,Luo H W. Investigation of the Dynamic Capillary Pressure during Displacement Process in Fractured Tight Rocks[J]. AIChE Journal,2019,66(12):1-12.
●Li H T,Liu Z M,Li Y,Luo H W,et al. Evaluation of the Release Mechanism of Sustained-Release Tracers and its Application in Horizontal Well Inflow Profile Monitoring[J]. ACS omega,6(29):19269-19280.
●Li H T,Luo H W,Xiang Y X,et al. DTS based hydraulic fracture identification and production profile interpretation method for horizontal shale gas wells[J]. Natural Gas Industry B,2021,8(5):494-504.
●罗红文,李海涛,李颖,等.低渗透气藏压裂水平井产出剖面与裂缝参数反演解释[J].石油学报,2021,42(7):936-947.
●罗红文,艾文斌,李海涛,等.采用PSO算法的页岩气水平井DTS数据反演方法[J].石油地球物理勘探,2023,58:1202-1210.
●罗红文,向雨行,李海涛,等.页岩气水平井分布式光纤温度监测高效反演解释方法[J].中国石油大学学报(自然科学版),2023,47(3):115-121.
●罗红文,张琴,李海涛,等.致密油水平井温度剖面影响规律研究[J].油气藏评价与开发,2023,13(5):676-685.
●罗红文,李海涛,蒋贝贝,等.基于DTS数据反演的低渗气藏压裂水平井产出剖面解释新方法[J].天然气地球科学,2019,30(11):1639-1645.
●罗红文,李海涛,刘会斌,等.低渗气藏两相渗流压裂水平井温度剖面预测[J].天然气地球科学,2019,30(3):389-399.
●罗红文,张琴,李海涛,等.基于分布式光纤测温的致密油水平井产出剖面解释方法[J].特种油气藏,2023,30(4):104-112.
●罗红文,李海涛,安树杰,等.致密气藏压裂水平井温度剖面影响因素分析[J].特种油气藏,2021,28(4):150-157.
●罗红文,李海涛,李颖,等.分段压裂水平井温度分布预测模型研究[J].科学技术与工程,2019,20(29):11915-11922.
●李海涛,罗红文,李颖,等.基于DTS的页岩气藏压裂水平井产出剖面解释[J].天然气工业,2021,41(5):66-75.
●李海涛,罗红文,向雨行,等. DTS/DAS技术在水平井压裂监测中的应用现状与展望[J].新疆石油天然气,2021,17(4):62-73.
(2)发明专利
●Li H T,Luo H W,Liu W M,et al. Temperature profile simulation experimental apparatus for two-phase oil and gas reservoir fractured horizontal well,and method therefor:CA3117857[P].2022-11-29.
●罗红文,李海涛,李颖,等.一种低渗气藏压裂水平井产出剖面反演解释方法:202010643544.5[P]. 2021-08-24.
●罗红文,向雨行,李海涛,等.一种页岩气藏压裂水平井产出剖面反演解释方法:202210226114.2[P]. 2023-02-17.
●罗红文,向雨行,李海涛,等.一种基于DTS的稠油油藏注蒸汽水平井综合评价方法:202111642620.1[P]. 2022-04-05.
●罗红文,马寒松,李海涛,等.一种基于PSO算法的页岩气水平井DTS监测反演解释方法:202310185853.6[P]. 2023-05-16.
●罗红文,艾文斌,李海涛,等.一种水平井注采声波剖面物理模拟实验装置及其方法:202311126449.8[P]. 2023-11-10.
●李海涛,罗红文,向雨行,等.一种致密气藏压裂水平井人工裂缝参数解释方法:202010643590.5[P]. 2021-09-24.
●李海涛,罗红文,朱晓萍,等.一种基于分布式光纤测温(DTS)的压裂水平井裂缝诊断模拟实验装置及其方法:201710230033.9[P]. 2018-10-09.
●李海涛,向雨行,罗红文,等.一种基于分布式光纤声学振动(DAS)的井筒流体流速和流态监测模拟实验装置及其方法:202011016690.1[P]. 2022-07-29.
●李海涛,郭振华,罗红文,等.一种基于DTS的压裂水平井温度剖面模拟装置:201921668631.5[P]. 2019-12-06.
(3)软件著作权
●罗红文,张琴,李海涛,等.基于DTS监测的注水井吸水剖面反演解释软件V1.0:2023SR1546504[CP/CD]. 2023-12-01.
●罗红文,张琴,李海涛,等.基于分布式光纤温度成像的多产层油藏井筒流量剖面反演解释软件V1.0:2023SR1541908[CP/CD]. 2023-11-30.
●罗红文,张琴,李海涛,等.气藏直定井产出剖面反演解释软件V1.0:2023SR1546460[CP/CD]. 2023-12-01.
●李海涛,罗红文,李亚辉,等.气藏压裂水平井温度剖面预测软件V1.0:2018SR528247[CP/CD]. 2018-07-09.
●李海涛,李亚辉,罗红文.基于分布式光纤测温的水平井产出剖面解释系统V1.0:2018SR461323[CP/CD]. 2018-06-20.

研究领域

招收油气田开发工程专业学术型、专业学位全日制硕士研究生,招生方向:
●油气田开发工程
●油气井分布式光纤(DTS/DAS/DSS)监测及解释技术
●完井优化理论与技术
●光纤信号处理与解释
●大数据及人工智能


研究团队

研究团队由李海涛教授(所长/博导)带领,经过近30年的潜心研究和专注发展,在油气井完井、找水控水、分布式光纤监测及解释、井筒监测及智能控制、油田注水、CCUS等研究领域形成较为成熟的特色技术,并在国内油气田取得了良好的推广应用效果。团队研究成员包括蒋建勋、李颖、蒋贝贝、罗红文、魏操等中青年骨干教师。团队研究生20余人,博士生十余人。

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