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创高体育:吴忠维

发布时间:2022-08-30 17:39:44阅读次数:

     


吴忠维

 

 

详细资料


职务:无

职称:讲师

学科方向:油气田开发工程

研究领域:油气藏渗流理论;CO2驱油与埋存技术;非常规油气藏压裂开发理论与技术(页岩油与致密油);疏松砂岩油气储层出砂与控砂完井技术;高含水期油藏开发理论与技术。

 

教育与工作经历:

2009.09-2013.06,创高体育 石油工程专业 学士学位;

2013.09-2016.06,中国地质大学(北京)能源创高体育 石油与天然气工程 硕士学位;

2016.09-2020.06,中国石油大学(华东)石油工程创高体育 油气田开发工程 博士学位;

2018.10-2019.10,阿尔伯塔大学 石油工程 联合培养博士研究生;

2020.09-2022.11,中国石油大学(华东)石油工程创高体育 力学 博士后;

2022.11-至今,创高体育,讲师/硕士生导师;

 

联系方式:

电子邮箱:wuzw2020@126.comwuzhongwei2022@yangtzeu.edu.cn;

联系电话:18612697323

所在系所:油气田开发工程系

 

学术成果:

以第一作者或通讯作者发表的论文:

以第一作者或通讯作者发表的论文共26篇,其中SCI 11篇(14篇,21篇,46篇,包括高被引2篇)、EI 2篇(卓越期刊《石油学报》、《石油与天然气地质》各1篇)、中文核心10篇、EI国际会议2篇,英文EI综述1篇。

[1] Wu Zhongwei, Cui Chuanzhi*, Ye Yinzhu, et al. A fractal model for quantitative evaluating the effects of spontaneous imbibition and displacement on the recovery of tight reservoirs[J]. Journal of Petroleum Science and Engineering, 2021, 198, Article No: 108120.

[2] Wu Zhongwei, Dong Li, Cui Chuanzhi*, et al. A numerical model for fractured horizontal well and production characteristics: Comprehensive consideration of the fracturing fluid injection and flowback[J]. Journal of Petroleum Science and Engineering, 2020, 187, Article No: 106765.

[3] Wu Zhongwei, Cui Chuanzhi*, Ye Yinzhu, et al. A novel model for the proppant equilibrium height in hydraulic fractures for slickwater treatments [J]. Petroleum Science, 2022, 19(1): 254-263.

[4] Wu Zhongwei, Cui Chuanzhi*, Lv Guangzhong, et al. A multi-linear transient pressure model for multistage fractured horizontal well in tight oil reservoirs with considering threshold pressure gradient and stress sensitivity[J]. Journal of Petroleum Science and Engineering, 2019, 172: 839-854.

[5]Wu Zhongwei,Cui Chuanzhi*, Yang Yong, et al. A fractal permeability model of tight reservoirs considering the effects of multiple factors [J]. Fractal and Fractional, 2022, 6(3): 153.

[6] Zhongwei Wu, Chuanzhi Cui*, Japan Trivedi, et al. Pressure analysis for volume fracturing vertical well considering low-velocity non-Darcy flow and stress sensitivity [J]. Geofluids. 2019, Article No: UNSP 2046061.

[7] Cui Chuanzhi, Wang Zhen, Wu Zhongwei*, et al. Comprehensive proppant settling model in hydraulic fractures of unconventional gas reservoir considering multifactorial influence[J]. Arabian Journal of Geosciences, 2020, 13(16): Article No:788.

[8] Wu Zhongwei, Cui Chuanzhi*, Hao Yongmao, et al. Relative Permeability Model Taking the Roughness and Actual Fluid Distributions into Consideration for Water Flooding Reservoirs [J]. Arabian Journal for Science and Engineering, 2019, 44(12):10513-10523.

[9] Wu Zhongwei,Cui Chuanzhi*,Japan Trivedi, et al. Layer regrouping optimization for multilayer heterogeneous reservoirs at a high water cut stage [J]. Arabian Journal of Geosciences, 2019, 12:458.

[10] Zhongwei Wu,Chuanzhi Cui*,Wang Zhen,et al. Well Testing Model of Multiple Fractured Horizontal Well with Consideration of Stress-Sensitivity and Variable Conductivity in Tight Gas Reservoirs [J]. Mathematical Problem in Engineering, 2018, Article No: 1693184.

[11] Chuanzhi Cui,Zhongwei Wu*, Wang Zhen,et al. New prediction method for transient productivity of fractured five-spot patterns in low permeability reservoirs at high water cut stages [J]. Open Physics, 2018, 16(1): 499-508.

[12]崔传智,郑文乾,祝仰文,元福卿,吴忠维*,随迎飞. 蒸汽吞吐后转降黏化学驱加密井井位优化方法[J]. 石油学报, 2020,41(12):1643-1648.

[13]吴忠维,崔传智*,杨勇,. 高含水期大孔道渗流特征及定量描述方法[J]. 石油与天然气地质,2018,39(04):839-844.

[14]魏新辉,张翼,吴忠维*,.非常规储层压裂井全周期产量递减模型及递减特征[J].断块油气田,2021,28(04):525-529.

[15]崔传智,滕世婷, 吴忠维*,.水力裂缝导流能力计算方法[J].中国科技论文, 2021, 16(05): 457-462.

[16]苏映宏, 吴忠维*,崔传智,. 水力压裂支撑裂缝导流能力计算与分析[J].大庆石油地质与开发,2021,40(06):62-71.

[17]崔传智,吴忠维*,杨勇,.考虑气水界面推进的底水凝析气藏直井见水时间预测[J].断块油气田,2019,26(01):58-61.

[18]崔传智,吴忠维*,李昱东,,金超林.应用PSO-改进GM(1,1)模型预测油田产量[J].数学的实践与认识,2018,48(17):119-123.

[19]吴忠维,崔传智*,王振,.特高含水期产量递减规律及递减率的计算公式[J].中国科技论文,2018,13(15):1778-1782.

[20]崔传智,吴忠维*,郝永卯,.低渗透油藏径向钻孔技术极限井距及应用[J].特种油气藏,2018,25(03):67-71.

[21]崔传智,吴忠维*,杨勇,.缝洞型碳酸盐岩油藏压裂直井非稳态复合产能模型[J].油气地质与采收率,2018,25(01):61-67.

[22]吴忠维,崔传智*,刘敏,.低渗透底水油藏长水平井产能分析[J].科学技术与工程,2017,17(33):91-95.

[23]吴忠维,崔传智,吴超,.火驱生产井套管尾气回注油藏可行性室内评价[J].科学技术与工程,2017,17(22):204-207.

[24] Zhongwei Wu, Chuanzhi Cui*, Xiangzhi Cheng,et al. Pressure analysis for volume fracturing well in tight reservoirs considering dynamic threshold pressure gradient and stress sensitivity [C]. Asia Pacific Unconventional Resources Technology Conference.

[25]Zhongwei Wu, Chuanzhi Cui, Peifeng Jia, et al. Well pattern deployment and optimization in low-permeability glutenite reservoirs: A case of glutenite reservoirs in Sha 4 member of Yong 1[C]. 6th International Seminar on Advances in Materials Science and Engineering.

[26]Zhongwei Wu, Chuanzhi Cui, Peifeng Jia, et al. Advances and challenges in hydraulic fracturing of tight reservoirs: A critical review[J]. Energy Geoscience, 2021, https://doi.org/10.1016/j.engeos.2021.08.002

以非第一作者和通讯作者发表的论文如下:

[1]Lianting Sun, Cui Chuanzhi, Wu Zhongwei, et al. A mathematical model of CO2 miscible front migration in tight reservoirs with injection-production coupling technology. Geoenergy Science and Engineering, 2023, 221, Article No.211376.

[2]Li Jing, Cui Chuanzhi, Wu Zhongwei, et al. Study on the migration law of CO2 miscible flooding front and the quantitative identification and characterization of gas channeling. Journal of Petroleum Science and Engineering, 2022, 218, Article No.110970.

[3]Cui Chuanzhi*, Wu Zhongwei. Layer recombination technique for waterflooded low-permeability reservoirs at high water cut stage [J]. Journal of Petroleum Exploration and Production Technology, 2018, 8(4): 1363–1371.

[4]崔传智*,吴忠维.高含水期五点法井网压裂开发经济界限研究方法[J].科学技术与工程,2018,18(20):102-108.

[5]崔传智*,吴忠维,杜庆龙,.基于采出程度的高含水期低饱和度油层补孔时机优化[J].大庆石油地质与开发,2018,37(03):64-70.

[6]崔传智,任侃,吴忠维,姚同玉,徐鸿,邱小华.地下含水层储存氢气的可行性分析[J].石油与天然气化工,2022,51(05):41-50.

[7]孔维军,崔传智,吴忠维,李立峰,苏书震,张建宁.CO_2非混相驱前缘运移及气窜规律室内实验研究[J].油气藏评价与开发,2022,12(05):764-776.

[8]王秀坤,刘海成,吴忠维,崔传智.非常规储层孔隙网络两相流动模拟研究[J].科学技术与工程,2022,22(24):10512-10518.

[9]崔传智,苏鑫坤,姚同玉,张传宝,吴忠维,郑文宽,张营华,李弘博.低渗透油藏CO_2混相驱注采耦合波及特征及气窜阶段定量划分方法[J].特种油气藏,2022,29(04):90-95.

[10]崔传智,闫大伟,姚同玉,王建,张传宝,吴忠维.CO_2驱前缘运移规律及气窜时机预测方法——以胜利油田G89-1区块为例[J].油气藏评价与开发,2022,12(05):741-747.

[11]崔传智,韩兴源,邴绍献,黄迎松,李伟忠,刘丽杰,吴忠维.水驱油藏高含水期耗水条带表征指标及分级方法[J].油气地质与采收率,2022,29(03):85-91

[12]崔传智,郑文乾,祝仰文,元福卿,夏晞冉,吴忠维,滕世婷.稠油油藏蒸汽吞吐后转化学驱极限井距的确定方法[J].中国石油大学学报(自然科学版),2022,46(01):97-103.

[13]杨勇,李伟,唐放,张团,崔传智,钱银,吴忠维.考虑等效井网密度的南海东部水驱砂岩油藏采收率预测[J].大庆石油地质与开发,2022,41(04):67-73.

[14]李伟,唐放,侯博恒,钱银,崔传智,陆水青山,吴忠维.基于神经网络的南海东部砂岩油藏采收率预测方法[J].油气藏评价与开发,2021,11(05):730-735.

 

申请/授权专利(授权专利3项)

[1]吴忠维,崔传智,韩兴源,张团,李怀亮,杨永超,苏鑫坤,王国彪. 一种确定水力压裂支撑裂缝导流能力的方法[P]. CN112434413B,2022-10-21.

[2]崔传智,吴忠维,杨轩宇,王建勇,钱银,陆水青山,王振,随迎飞,韩兴源. 一种边水油藏水侵模拟实验用可视化模型[P]. CN113389544B,2022-10-04.

[3]吴忠维,崔传智,韩兴源,苏鑫坤,闫大伟,张晓龙,魏上尉,王须浩,李康. 确定压裂井产量递减阶段全周期内动态产量方法、系统[P]. CN112836860B,2022-08-02.

[4]崔传智,闫大伟,吴忠维,姚同玉,钱银,隋迎飞,陆水青山,李静. 非均质油藏二氧化碳驱井网驱替可视化物理模拟实验装置[P]. CN114458261A,2022-05-10.

[5]崔传智,吴忠维,王建,王瑞,吴义志,隋迎飞,王振,赵晓燕,姚同玉,范海军. 一种油田开发的层系组合方法及系统[P]. CN111914407A,2020-11-10.

[6]崔传智,魏上尉,吴忠维,姚同玉,王振,隋迎飞,赵晓燕,钱银,陆水青山. 一种基于动态边界的低渗透油田产能预测方法[P]. CN111810138A,2020-10-23.

[7]崔传智,郑文乾,吴忠维,祝仰文,元福卿,隋迎飞,王振,姚同玉,范海军. 一种稠油油藏化学驱技术极限井距的确定方法及系统[P]. CN111622736A,2020-09-04.

[8]崔传智,吴忠维,杨勇,孙业恒,吕广忠,任永鹏,张传宝,李超,王振. 一种直井压裂最优缝长的确定方法[P]. CN109977479A,2019-07-05.

 

主持的科研项目包括8项:

1压驱过程中井筒压力剖面变化规律测试,企业合作项目,2022-2023,在研;

2)致密油藏压裂水平井产能预测与参数优化方法研究,博士后科学基金面上项目,2021-2022,已结题;

3致密油藏体积压裂支撑剂分布模拟与参数优化研究,青岛市后应用项目,2021-2022,已结题;

4)致密油藏CO2混相驱注采耦合前缘运移规律,中国石油大学(华东),2020-2022,已结题;

5压驱注水试井解释方法研究,企业合作项目,2020-2021,已结题;

6二氧化碳驱前缘运移规律研究,企业合作项目,2020-2021,已结题;

7)致密油多段压裂水平井多过程耦合渗流数学模型与产能预测方法,中国石油大学(华东),2018-2018,已结题;

8)致密油体积压裂多过程耦合渗流数学模型与产能预测方法,中央高校基本科研业务费专项资金资助项目,2018-2019,已结题。

 

社会与学术兼职:

12021年,EI期刊《Energy Geoscience》的Best Paper Award奖;

22020-2021年,《断块油气田》期刊优秀审稿专家;

3SCI 3区期刊《Frontiers in Earth Science》编委,中文核心期刊《油气藏评价与开发》《东北石油大学学报》青年编委,《长江大学学报自然科学版》青年编委;SCI期刊《Geofluids》与《Lithosphere》特邀编辑;

4)兼职SCI期刊《Fuel》《Energies》《Journal of Petroleum Science and Engineering》《Geofluids》《ACS Omega》《Frontiers of Earth Science》《Lithosphere》《SPE Production & Operation》等审稿专家;中文核心期刊《断块油气田》《油气藏评价与开发》《石油钻探技术》等审稿专家;《长江大学学报自然科学版》审稿专家;第5EEEP能源与工程国际会议审稿专家。

 

 

 

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