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周德胜

发布时间: 2016-12-01 14:03:58   作者:44118太阳成城集团   来源: 本站原创   浏览次数:

周德胜,二级教授,博士生导师

教育经历:

1997.1-2000.12:美国路易斯安那州立大学石油工程系,博士研究生,博士(Ph.D.);

1988.9-1992.7:西南石油学院石油机械工程系,博士研究生,工学博士;

1985.9-1988.6:西南石油学院石油机械工程系,硕士研究生,工学硕士;

1981.9-1985.7:北京航空航天大学飞行器设计与应用力学系,本科生,工学学士。

工作经历:

2010.1-今:44118太阳成城集团,教授;

1992.7-1996.12:西南石油大学石油机械工程系,讲师、副教授、系副主任。

研究领域:

水力压裂工艺技术,排水采气工艺技术。

主讲课程:

本科生课程:《采油工程》,《采油新技术》,《采油气科学与技术》;

研究生课程:《油气藏增产技术》,《现代油气开采理论与方法》;

教育部“来华留学英文授课品牌课程”《采油气科学与技术》负责人。

代表性论著:

著作:

[1]Desheng Zhou and Andrew Wojtanowicz: “Integrity of Petroleum Wells Offshore,” Lambert Publication, ISBN 978-3-8383-0925-5, 2009.12;

[2]周德胜著:“电潜泵采油系统优化设计技术”,石油工业出版社,ISBN978-7-5183 -1942-8,2017.06,字数:310,000;

[3]周德胜著:“非常规油气储层体积改造裂缝扩展与织网机理研究”,科学出版社,ISBN978-7-03-057514-2,2018.05,字数:378,000;

[4]周德胜,马先林,刘娅菲编著:“十三五”石油高等院校特色规划教材,“油气开采新技术(英汉对照.富媒体)”,石油工业出版社,ISBN978-7-5183-4042-2,2020.06,字数520,000。

[5] 周德胜,刘雄,李欣儒,任大忠著:“致密砂岩储层渗吸采油理论及应用”,科学出版社,ISBN978-7-03-073164-7,2023.01,字数318,000

论文:

[1] Haiyang Wang; Desheng Zhou; Shun Liu; Xiaoxiang Wang; Xianlin Ma; Hydraulic Fracture Initiation for Perforated Wellbore Coupled with The Effect of Fluid Seepage, Energy Reports, 2022, 2022(8):10290-10298.

[2] Qian Gao*, Desheng Zhou, Ahmad Ghassemi, Xiong Liu, Yafei Liu, and Minhao Guo,2022,Propagating Hydraulic Fractures from Wellbores: Effects of In-Situ Stress and Near-Wellbore Stress Redistribution,2022,SPE Production and Operations, 1-12

[3] Yenan Jie, Jing Yang, Desheng Zhou*, Haiyang Wang, Yi Zou* , Yafei Liu,Yanjun Zhang,2022,Study on the Optimal Volume Fracturing Design for Horizontal Wells in Tight Oil Reservoirs,Sustainability 2022, 14, 15531

[4] Haiyang Wang, Desheng Zhou*; Qian Gao, Xin Fan, Jinze Xu, Shun Liu. Study on the seepage force-induced stress and poroelastic stress by flow through porous media around a vertical wellbore[J]. International Journal of Applied Mechanics, 2021, 6(13), 2150065-1-26.

[5] Desheng Zhou, Haiyang Wang, et al. Effect of Seepage Force on the Wellbore Breakdown of a Vertical Wellbore[J], Geofluids, Volume 2021, April 2021, Pages 1-12.

[6] Zhou D, Wang H, He Z X, et al. Numerical study of the influence of seepage force on the stress field around a vertical wellbore[J]. Engineering Applications of Computational Fluid Mechanics, 2020, 14(1): 1489-1500.

[7]Zhou, Desheng,Zheng, Peng,Yang, Jingwen,Li, Meng,Xia, Yucheng,Cai, Wenbin,Ma, Xianlin,Liu, Shun. Optimizing the construction parameters of modified zipper fracs in multiple horizontal wells[J]. Journal of Natural Gas Science and Engineering, V71(8), Aug 2019, Pages 1875-5100.

[8]Dazhong Ren,Desheng Zhou,Dengke Liu,Fengjuan Dong,Shuwei Ma,Hai Huang. Formation mechanism of the Upper Triassic Yanchang Formation tight sandstone reservoir in Ordos Basin—Take Chang 6 reservoir in Jiyuan oil field as an example[J].Journal of Petroleum Science and EngineeringVolume 178, July 2019, Pages 497-505.

[9] Hanping Ding, Desheng Zhou, Shun Liu, Wei Wu,Yating Yang,Yingchao Yang,Zetian Tao. Electricity generation in dry methane by a durable ceramic fuel cell with high-performing and coking-resistant layered perovskite anode[J]. Applied Energy, 2019, 233-234:37-43.

[10] Desheng Zhou, Peng Zheng, Pei He, Jiao Peng. Hydraulic fracture propagation direction during volume fracturing in unconventional reservoirs. Journal of Petroleum Science and Engineering, May 2016, Vol141: 82–89.

[11] Zhou, D., Zheng, P., Peng, J., He, P.. Induced stress and interaction of fractures during hydraulic fracturing in shale formation. ASME J. Energy Res. Nov. 2015,Vol137(6): 062902.

[12] Zhou, Desheng and He, Pei. Major Factors Affecting Simultaneous Frac Results. Society of Petroleum Engineers. SPE 173633, SPE Production and Operations Symposium, 1-5 March, 2015, Oklahoma City, Oklahoma, USA.

[13] Zhou, Desheng,et al. Wellbore Section Contribution in Fractured Horizontal Openhole Wells,SPE 153326,SPE Europec/EAGE Annual Conference, 4-7 June 2012, Copenhagen, Denmark.

[14] Zhou, D., et al. Comparison of fracture conductivities from field and lab,Society of Petroleum Engineers - International Petroleum Technology Conference 2012, IPTC 2012,IPTC 14706,February 7, 2012 - February 9, 2012, Bangkok, Thailand.

[15] Zhou, Desheng and Wojtanowicz, A.K. Annular Pressure Reduction During Primary Cementing, Journal of Energy Resources Technology,Journal of Energy Resources Technology, Transactions of the ASME, 2011, Vol133, n3.

[16] Zhou, D. and Yuan, H. Stage isolation failure of non-packer reasons in openhole horizontal completion, SPE 142367, SPE Production and Operations Symposium, 2011, p.795-801.

[17] Zhou, D. and Yuan, H. A New Model for Predicting Gas-Well Liquid Loading. SPE Prod & Oper., 2010, 25 (2): 172-181.

[18] Yuan, H. and Zhou, D. A New Model for Predicting Inflow Performance of Fractured Horizontal Wells. SPE 133610, SPE Western North American Regional Meeting, 27-29 May 2010, Anaheim, California.

[19] Yuan, H. and Zhou, D. Evaluation of Two-Phase-Flow Correlations and Mechanistic Models for Small-Diameter Pipelines at Slightly Inclined Downward Flow. SPE Proj, Fac & Const, 2010, 5 (1): 5-12.

[20] Zhou, Desheng, and Sachdeva, Rajesh. Simple model of electric submersible pump in gassy well, Journal of Petroleum Science and Engineering, February 2010, Vol.70(3-4):204-213.

[21] Wojtanowicz , A.K. and Zhou ,D. Shallow casing shoe integrity interpretation technique. Journal of Petroleum Science and Engineering, Feb. 2010, Vol.70(3-4): 183-190.

[22] Zhou, D. and Wojtanowicz, A.K. Cement Seal Failure at Casing Shoe in Shallow Marine Sediments. J. Energy Res., 131(023101-1-8), June 2009.

[23] Yuan, H., and Zhou, D. Simulating a Hilly Terrain Pipeline Using Twophase Flow Correlations and Mechanistic Models, SPE 120280, SPE Production and Operations Symposium, April 2009, Oklahoma City, Oklahoma, USA.

[24] Zhou, D., and Yuan, H.: New Model for Gas Well Loading Prediction, SPE Production and Operations Symposium, SPE 120580, April 2009, Oklahoma City, Oklahoma, USA.

[25] Yuan, H., and Zhou, D. Evaluation of Twophase Flow Correlations and Mechanistic Models for Pipelines at Horizontal and Inclined Upward Flow, SPE 120281, SPE Production and Operations Symposium, April 2009, Oklahoma City, Oklahoma, USA.

[26] Yuan, H., and Zhou, D. Evaluation of Two-Phase Flow Correlations and Mechanistic Models for Pipelines at Inclined Downward Flow, SPE 117395, SPE Eastern Regional/AAPG Eastern Section Joint Meeting, Oct. 2008, Pittsburgh, PA.

[27] Zhou, Desheng, and Yuan, Hong. Slip Calculation of Rotational Speed of Electrical Submersible Progressive Cavity Pumps, SPE 112881, SPE Progressing Cavity Pump Conference, April 2008, Houston, TX.

[28] Zhou, Desheng, and Yuan, Hong. Design of Progressive Cavity Pump Wells, SPE 113324, SPE Progressing Cavity Pump Conference, April 2008, Houston, TX.

[29] Zhou, Desheng, and Sachdeva, Rajesh. Design Tapered Electric Submersible Pumps for Gassy Wells, SPE 113661, Indian Oil and Gas Technical Conference and Exhibition, March 2008, Mumbai, India.

代表性成果:

授权发明专利:

周德胜等:一种携砂压裂液在射孔孔道中运移模拟研究装置,201510340534.3;

周德胜等:一种不同储层渗吸机理对比研究测量仪,ZL201610370716.X;

周德胜等:一种利用剪切增稠液体进行暂堵转向压裂的方法,ZL201810339850.2;

周德胜等:一种利用高吸水性树脂进行暂堵憋压造分支缝方法,ZL201811495751.X;

周德胜等:DEVICE AND METHOD FOR MEASUREING MAGNITUDE OF SEEPAGE FORCE AND ITS INFLUENCE ON EFFECTIVE STRESS OF FORMATION,US16/153,799;

周德胜等:一种体积压裂中间歇式部分封堵缝中造缝的方法,ZL201810286695.2;

周德胜等:一种剪切增稠液体及基于其的改性可降解纤维及设备方法和暂堵转向压裂方法,ZL201811168579.7;

周德胜等:一种用差频式次声波发生器测量油井动液面的方法,ZL201710527347.5;

周德胜等:一种渗流力大小及其对地层有效应力影响的测量装置及方法,ZL201811039530.1;

周德胜等:一种基于BP神经网络的支撑剂铺置形态预测方法,ZL201810205015.X;

周德胜等:一种滑溜水压裂优化设计方法,ZL201811230314.5;

周德胜等:一种可调控液压式抽油机装置,ZL201710026328.4;

周德胜等:一种基于压裂示踪约束的致密油藏水平井压后分段试井分析方法,ZL202011602457.1;

周德胜等:一种测量油井动液面的频差式次声波发生器,ZL201710527362.X。

学术兼职与荣誉称号:

国务院特殊津贴专家

陕西省特聘专家;

《石油钻采工艺》编委;

《44118太阳成城集团学报》编委;

SPE会员。

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