职称:教授
单位:油气井工程研究所
最高学历/学位:博士
学科:油气井工程学科,石油与天然气工程学科
所学专业:油气井工程
电子邮箱:xianshiupc@126.com
联系电话:
地址邮编:山东省青岛市黄岛区长江西路中国石油大学(华东)
时贤
作者:
发布者:赵小明
审核人:
发布时间:2026-05-07
访问次数:17159
- 个人主页
- 学习与工作经历2003.9-2007.7,中国石油大学(华东),工学学士;
2008.9-2010.7,中国石油大学(华东),硕博连读;
2010.8-2014.7,中国石油大学(华东),工学博士;
2012.10-2013.11,美国犹他大学地球科学与能源研究院,联合培养; - 研究方向(1) 水力压裂、井壁稳定;
(2) 地应力、岩石物理、油气井工程力学;
(3) 石油工程大数据; - 招生方向
- 主讲课程高等钻完井工程(全英文)
高等岩石力学
石油工业与碳中和
高等固体力学 - 学术兼职(1)国家自然科学基金项目评议人
(2)教育部学位论文网上通讯评议专家
(3)中石油创新基金评议专家
(4)SPE会员
(5)国际岩石力学协会会员
(6)中国岩石力学协会会员 - 指导研究生课题组长期招收有志于从事地质力学、多物理场耦合数值模拟、压裂改造、井壁失稳等研究的优秀研究生。欢迎石油工程、机械工程、岩土工程、应用数学、计算机科学、工程力学等工程类或理学类相关专业背景的同学加入。课题组坚持营造自由开放、积极进取的学术氛围,注重因材施教,致力于激发并最大化每位学生的科研潜能。团队十分重视学术国际化交流与人才培养,与澳大利亚莫纳什大学、加拿大卡尔加里大学、美国怀俄明大学、美国德州农工大学、日本早稻田大学等长期交流合作,助力学生进行公派留学,为优秀学生提供丰富的国际交流与深造机会,助力成长成才、拓展国际视野。前期毕业生进入985高校深造,或进入中石油长庆油田、中石化胜利油田、中石油工程院、中海油海能发等单位进行工作。
- 承担科研课题[1] 页岩油立体井网CO2增能压裂空间应力场重构和裂缝扩展规律研究(52374027),国家自然科学基金面上基金,主持
[2] 页岩气储层现今地应力场评价及演化机制研究,国家科技重大专项,主持
[3] 致密储层水平井定面射孔水力压裂裂缝起裂与扩展机理(51704324),国家自然科学基金青年基金,主持
[4] 天然气水合物储层水力压裂裂缝全生命周期演化机制(ZR2022ME068),山东省自然科学基金,主持
[5] 页岩气储层注CO2增产开发的流-固耦合作用机理,山东省自然科学基金,主持
[6] 海水基压裂返排液超声波降解机制及关键技术,山东省重点研发计划,主持
[7] 页岩气超临界CO2钻井水平井井壁稳定性研究,自主创新,主持
[8] 页岩气储层水平井重复压裂力学机理研究,人才引进,主持
[9] 富有机质页岩微观力学性质表征理论与方法,教育部重点实验室开放基金,主持
[10] 五峰-龙马溪组页岩基于岩屑的可压裂性地质评价方法研究,国家重点实验室开放基金,2017.10—2018.10,主持
[11] 海洋深水油气安全高效钻完井基础研究,国家973项目子课题(2015CB251200),2015.1-2019.8,参与
[12] 砂砾岩致密油示范区有利储层优选及建模,国家重大专项子课题(2017ZX05070),2017.10-2020.6 ,参与
[13] 页岩油流动机理与开发优化的基础理论研究,石油化工联合基金重点项目(U1762213),2018/01-2021/12,参与
[14] 面向井间连通性的可演化物理导向网络模型研究,国家自然科金面上基金,2022.1—2025.12,参与
[15] 页岩气储层注CO2增产开发的流-固耦合作用机理(ZR2022ME068),山东省自然科学基金,2016.12—2018.11,参与
[16] 陇东致密油叠合油藏立体开发岩石力学特征测试,横向课题,企事业横向课题,2026.3—2026.12,主持
[17] 东濮薄互层页岩油压裂提效降本关键技术研究,企事业横向课题,2026.1-2020.12,主持
[18] 页岩油效益开发均衡压裂关键技术研究,横向课题,企事业横向课题,2023.9—2025.12,主持
[19] 页岩油气典型平台井地质建模与多参数协同压裂优化方法研究,企事业横向课题,2024.8—2024.12,主持
[20] 热采井压裂充填流动损伤机理研究,企事业横向课题,2024.1—2024.12,主持
[21] 准噶尔盆地三叠-二叠系地层压力系统特征预测研究,企事业横向课题,2023.12-2024.12,主持
[22] 南海北部湾盆地断块油气藏压裂增产机理研究,企事业横向课题,2023.6-2024.12,主持
[23] 差异化煤岩工程特征参数研究,企事业横向课题,2024.1-2024.12,主持
[24] 致密碎屑岩储层水平井密切割分段压裂技术研究,横向课题,企事业横向课题,2022.9—2023.09,主持
[25] 多薄层致密油藏可压性与裂缝扩展规律研究,企事业横向课题,2022.3—2023.2,主持
[26] 桩74块地应力评价及井网重构对策研究,企事业横向课题,2023.3—2024.12,主持
[27] 二氧化碳注入风险井智能筛选方法研究,企事业横向课题,2022.8—2023.8,主持
[28] 低渗透油藏压驱裂缝扩展规律及提高采收率机理研究,企事业横向课题,2020.8—2021.8,主持
[29] 靖西深层致密碳酸盐岩加砂压裂裂缝系统实验研究,企事业横向课题,2018.9—2019.9,主持
[30] 安塞杏河区块特低渗油藏中高含水期堵水调驱宽带压裂技术研究,企事业横向课题,2018.9—2019.9,主持
[31] 临兴地区地质工程一体化技术研究,企事业横向课题,2021.10-2022.12,主持
[32] 页岩气水平井重复压裂模型构建与应力场模拟,企事业横向课题,2020.6—2020.12,主持
[33] 基于四维地质力学模型的页岩气压裂技术研究,企事业横向课题,2020.3—2020.12,主持
[34] 低渗砾岩储层水平井重复压裂真三轴实验,横向课题,企事业横向课题,2020.9—2021.06,主持
[35] 深层页岩压裂基础试验(岩石力学、裂缝导流与支撑剂嵌入、支撑剂运移等),企事业横向课题,2021.2-2021.12,主持
[36] 水基钻井液浸泡下的页岩力学参数变化规律研究,企事业横向课题,2020.7-2020.12,主持
[37] 复杂超深井井岩石力学和地应力联测实验研究,企事业横向课题,2019.6-2020.6,主持 - 获奖情况获得湖北省技术发明一等奖、教育部科技进步二等奖、甘肃省科技进步二等奖、山东省技术发明二等奖、中国石油化工联合会科技进步一等奖等省部级奖励12项;
[1] 湖北省技术发明一等奖,排名:2/6
[2] 2023年中国石油和化学工业联合会科技进步二等奖,排名:1/10(牵头)
[3] 甘肃省科技进步二等奖,排名:2/10
[4] 教育部科技进步二等奖,排名:4/13
[5] 山东省技术发明二等奖,排名:5/10
[6] 2022年中国石油和化学工业联合会科技进步一等奖,排名:7/15
[7] 2025年中国石油和化学工业联合会科技进步二等奖,排名:2/10 - 荣誉称号
- 著作[1] 深层超深层碳酸盐岩储层改造技术,中国石油大学出版社
[2] 深煤层水平井高效压裂优化技术,科学出版社 - 论文[1] Xian Shi, Yuanyuan Yang, Botao Zhang, et al. Reservoir fracturability evaluation for tight formations based on markov chain monte carlo risk theory. SPE Journal, 2025. 30 (06): 3551–3566.
[2] Lei Han, Xian Shi, Hongjian Ni, et al. Fracture initiation and propagation behaviours of supercritical CO2 enhanced fracturing in layered shale of horizontal wells. Geoenergy Science and Engineering, Volume 252, September 2025, 213938
[3] Lei Han, Xian Shi, Hongjian Ni, et al. Fracture toughness evaluation of shale based on machine learning and micromechanical approach. Engineering Fracture Mechanics, Volume 323, 26 June 2025, 111194
[4] Xian Shi, Xiaoxin Ge, Qi Gao, et al., Numerical simulation of hydraulic fracture propagation from recompletion in refracturing with dynamic stress modeling. Geomech. Geophys. Geo-energ. Geo-resour. (2024) 10:155
[5] Xian Shi, Xiaoxin Ge, Wanqiang Gu, et al., Numerical simulation of fracture propagation behaviors under non-uniform pore pressure field during the refracturing in waterflooded reservoirs. Volume 45, March 2026, 100811
[6] Lei Han, Xian Shi, Hongjian Ni, et al. Optimization of supercritical CO2 fracturing based on random forest – particle swarm optimization model and pre-existing fracture network. SPE Journal, 2024, 29(11): 5957-5975.
[7] Lei Han, Xian Shi, Hongjian Ni, et al. Review of CO2 fracturing and carbon storage in shale reservoirs. Energy & Fuels, 2024, 38(17): 15913-15934.
[8] Xian Shi, Yuanyuan Yang, Xiangwei Kong, et al., Experimental study of hydraulic fracture propagation with multi-cluster in-plane perforations in a horizontal well. Petroleum Science 21 (2024) 3258-3270
[9] Xian Shi, Yong Qin, Qi Gao, et al., Experimental study on hydraulic fracture propagation in heterogeneous glutenite rock. Geoenergy Science and Engineering. 225 (2023) 211673
[10] Xian Shi, Hongxing Xu, Mingguang Che, et al. Investigations of fracture behavior and pore structure change in pulse fracturing for cement block. International Journal of Rock Mechanics and Mining Sciences. 166(2023):105366.
[11] Xian Shi, Xiaoxin Ge, Yanming Zhang, et al., Experimental study on hydraulic fracture propagation behavior on dolomite rocks with open-hole completion. Journal of Petroleum Science and Engineering 218 (2022) 110840
[12] Xian Shi, Caiyun Xiao, Hongjian Ni, et al., Pore structure and pore size change for tight sandstone treated with supercritical CO2 fluid. Energy Reports. 248(2021)
[13] Xian Shi, Weiqiang Song, Hongxing Xu, et al., The impact of variable density in-plane perforations on fracture propagation and complexity control in horizontal well. Journal of Petroleum Science and Engineering. 212(2022):110211.
[14] Xian Shi, Haoyong Huang, Bo Zeng, et al. Perforation cluster spacing optimization with hydraulic fracturing-reservoir simulation modeling in shale gas reservoir. Geomechanics and Geophysics for Geo-Energy and Geo-Resources(2022).
[15] Xian Shi, Xuefeng Yang, Wenhan Yue, et al. Experimental investigation on the creep behaviors of shale using nanoindentation technique and fractional constitutive models. Journal of Petroleum Science and Engineering. 215(2022)
[16] Xian Shi, Shu Jiang, Liu Yang, et al. Modeling the viscoelasticity of shale by nanoindentation creep tests. International Journal of Rock Mechanics and Mining Sciences. 127(2020):104210.
[17] Xian Shi, Lei Han, Qiaorong Han, et al., Experimental near-wellbore hydraulic fracture initiation and growth for horizontal wells with in-plane perforations. Journal of Natural Gas Science and Engineering. 95 (2021) 104224
[18] Xian Shi, Weidong Zhang, Hongxing Xu, et al. Experimental study of hydraulic fracture initiation and propagation in unconsolidated sand with the injection of temporary plugging agent. 190(2020):106813. Journal of Petroleum Science and Engineering.
[19] Xian Shi, Yong Qin, Hongxing Xu, et al., Numerical simulation of hydraulic fracture propagation in conglomerate reservoirs. Engineering fracture mechanism. 248(2021)107738.
[20] Xian Shi, Min Wang, Zhixuan Wang, et al. A brittleness index evaluation method for weak-brittle rock by acoustic emission technique, Journal of Natural Gas Science and Engineering. 95 (2021) 104160.
[21] Xian Shi, Min Wang, Dianshi Xiao, et al. A comprehensive fracability evaluation of the glutenite formation in the Mahu Sag, China. Petroleum Science. (2022).
[22] Xian Shi, Shu Jiang, Zhixuan Wang, et al. Application of nanoindentation technology for characterizing the mechanical properties of shale before and after supercritical CO2 fluid treatment. Journal of CO2 Utilization. 2020.37:158-172.
[23] Xian Shi, Shu Jiang, Shuangfang Lu, et al. Investigation of mechanical properties of bedded shale by nanoindentation tests: A case study on Lower Silurian Longmaxi Formation of Youyang area in southeast Chongqing, China. Petroleum Exploration and Development, 2019,46(1):163-172.
[24] Xian Shi, Gang Liu, Yuanfang Cheng, et al., Brittleness index prediction in shale gas reservoirs based on efficient network models. Journal of Natural Gas Science and Engineering. 35 (2016) 673-685.
[25] Xian Shi, Zhiliang He, Yongmin Peng, et al. Loading rate effect on the mechanical behavior of shale in nanoindentation. Journal of Hydrogen Energy. 2019.44(13):6481-6490.
[26] Xian Shi, Jian Wang, Xinmin Ge, et al. A new method for shale brittleness evaluation in tight oil formation from conventional logs and petrophysical analysis. Journal of Petroleum Science and Engineering. 5(2017) 752-770.
[27] Xian Shi, Jian Wang, Gang Liu, et al. Application of extreme learning machine in total organic carbon content prediction in organic shale with wire line logs. Journal of Natural Gas Science and Engineering. S. 33 (2016) 687-702.
[28] Xian Shi, Hongxing Xu, Liu Yang et al. Removal of drilling and completion fluids induced formation damage with combination of ultrasonic and chemical technology. Journal of Natural Gas Science and Engineering. 37 (2016) 471-478.
[29] Yong Qin, Xian Shi, Qinglin Shan, et al., Numerical simulation of near wellbore fracture propagation in interbedded continental shales with competing perforations. Geomech. Geophys. Geo-energ. Geo-resour. (2023) 9:80(通讯作者).
[30] Xiangwei Kong, Xian Shi, Xiaoxin Ge, et al., Experimental study on hydraulic fracture propagation behavior of horizontal well on multilayered rock. Geomechanics and Geophysics for Geo-Energy and Geo-Resources. (2023) 9:73 (通讯作者).
[31] Weidong Zhang, Xian Shi, Shu Jiang, et al. Experimental study of hydraulic fracture initiation and propagation in highly saturated methane-hydrate-bearing sands.Journal of Natural Gas Science and Engineering. 79(2020)103338.(通讯作者).
[32] Liu Yang, Xian Shi, Hongkui Ge, et al. The effect of microstructure and rock mineralogy on water imbibition characteristics in tight reservoirs. Journal of Natural Gas Science and Engineering, 34(2016) 1461-1471.(通讯作者).
[33] Weiqiang Song, Xian Shi, Chunguang Wang, et al. Predicting the radial heat transfer in the wellbore of cryogenic nitrogen fracturing: insights into stimulating underground reservoir. Energy science and engineering. 2020,8:582-591. (通讯作者).
[34] Liu Yang, Hongkui Ge, Xian Shi, et al. Experimental and numerical study of the relationship between water imbibition and salt ion diffusion in fractured shale reservoirs. Journal of Natural Gas Science and Engineering. 38(2017):283-297. (通讯作者).
[35] Caiyun Xiao, Hongjian Ni, Xian Shi, et al., A fracture initiation model for carbon dioxide fracturing considering the bottom hole pressure and temperature condition. 184(2020):106541. Journal of Petroleum Science and Engineering.
[36] Fuhua Wang, Zezhuang Sun, Xian Shi, et al., Mechanism analysis of hydroxypropyl guar gum degradation in fracture flowback fluid by homogeneous sono-Fenton process. Ultrasonics Sonochemistry 93 (2023) 106298
[37] Bing Bai, Hongjian Ni, Xian Shi, et al., The experimental investigation of effect of supercritical CO2 immersion on mechanical properties and pore structure of shale. Energy. 228(2021),120663.
[38] Shang Xu, Jie Wen, Kouqi Liu, Xian Shi, Tian Dong, et al., Brittle minerals, mechanical properties and fracability evaluation of shales.Advances in geo-energy research, 2024, 14(1): 8-11.
[39] Xiangsen Gao, Min Wang, Xian Shi, et al., Effect of anisotropy on wellbore stability based on transversely isotropic strength criteria in shale formation. Geophysics. 228(2024),120663.
[40] Xiangsen Gao, Min Wang, Xian Shi, Wellbore stability research based on transversely isotropic strength criteria in shale formation. Soils and foundations. 2024, 64(6):101541
[41] Caiyun Xiao, Hongjian Ni, Ruihe Wang, Hongjun Huo, Xian Shi, Mukun Li. Study on horizontal wellbore flow of supercritical carbon dioxide drilling. Applied Thermal Engineering.175(2020):115381.
[42] Mukun Li, Gang Wang, Weimin Cheng, Renjie Pu, Xian Shi. Study on horizontal wellbore flow of supercritical carbon dioxide drilling. Petroleum Exploration and Development, 2021,48(05):1-10.
[43] Songcai Han, Yuanfang Cheng, Qi Gao, Chuanliang Yan, Xian Shi. A fully coupled thermo-hydro-mechanical model with ice-water phase change for liquid nitrogen injection simulation. Journal of Petroleum Science and Engineering. 203(2021)108676.
[44] Songcai Han, Yuanfang Cheng, Qi Gao, Chuanliang Yan, Zhongying Han, Xian Shi Analysis of instability mechanisms of natural fractures during the approach of a hydraulic fracture. Journal of Petroleum Science and Engineering. 185(2020)106631.
[45] Songcai Han, Qi Gao, Yuanfang Cheng, Chuanliang Yan, Zhongying Han, Xian Shi. Experimental study on brittle response of shale to cryogenic fluid nitrogen treatment. Journal of Petroleum Science and Engineering. 194(2020)107463.
[46] Mingming Tang,Shuangfang Lu,Kexin Zhang,Xiangdong Yin,Huifang Ma,Xian Shi,Xueping Liu,Changhong Chu. A three dimensional high-resolution reservoir model of Napo Formation in Oriente Basin, Ecuador, integrating sediment dynamic simulation and geostatistics. Marine and Petroleum Geology. 110(2019):240-253.
[47] Mukun Li, Hongjian Ni, Yuguang Cao, Bo Zhao, Peng Lei, Xian Shi, Yukun Du. Flow energy transformation and dissipation mechanisms of carbon dioxide, nitrogen, and water jets, Journal of Natural Gas Science and Engineering.
[48] Xian Shi, Yuanfang Cheng, Jun Cai, et al., The parametric analysis in the horizontal Stress Calculation Based on Numerical Inversion Method. Electronic Journal of Geotechnica Engineering.2013,18,5673-5684.
[49] YuanYuan Yang, Xian Shi, Cheng Ji.The Hydraulic Fracturing Optimization for Stacked Tight Gas Reservoirs Using Multilayers and Multiwells Fracturing Strategies. Energy Engineering 2024,121(12):3667-3688
[50] 时贤, 葛晓鑫, 张博涛, 等. 页岩油储层大斜度井密切割多簇压裂参数优化设计. 深圳大学学报理工版, 2025, 42(2): 163-171.
[51] 时贤, 张博涛, 蒋恕, 等.考虑围压约束的深煤岩峰前-峰后能量脆性综合评价方法.地球科学
[52] 龚武镇, 时贤, 黄维安, 等.深层高温页岩统计损伤本构模型及脆性评价方法.地球科学.
[53] 孔祥伟,时贤,李赛,等. 基于坐封受力模型的暂堵球封堵效果影响因素与参数优化. 科学技术与工程, 2024, 24(13): 5350-5358.
[54] 陈峥嵘,时贤,刘伟,等. 考虑支撑剂嵌入的煤层气井压裂优化方法. 断块油气田, 2025, 32(1): 159-164. 中文核心
[55] 韩磊, 时贤, 刘明, 等. 基于点矩阵技术的纹层页岩微观力学性质研究. 中国科学:物理学,力学,天文学, 2023, 53: 284611.
[56] 时贤, 葛晓鑫, 张燕明, 等. 致密白云岩储层加砂压裂裂缝导流能力实验研究. 油气地质与采收率, 2023, 30(4): 167-172.
[57] 孔祥伟, 许洪星, 时贤, 等. 致密砂岩气藏暂堵压裂裂缝起裂扩展实验模拟. 油气藏评价与开发, 2024, 14(3): 391-401.
[58] 陈峥嵘, 刘伟, 时贤, 等.考虑煤体结构差异的深层煤层气地应力场预测方法[J].煤炭科学技术,2026,54(02):360-369.
[59] 时贤,程远方,蒋恕, 等,页岩储层裂缝网络延伸模型及其应用.石油学报. 2014,35(6):1130-1137.
[60] 时贤,程远方,蒋恕, 等,页岩微观结构及岩石力学特征实验研究.岩石力学与工程学报. 2014.33(2),3439-3445.
[61] 时贤,程远方,蒋恕, 等,缺失声波条件下的页岩储层地应力测井解释方法.天然气工业. 2014.34(12):55-61
[62] 时贤,张凯奥,程远方, 等,基于UFD理论的致密气藏分段压裂优化设计.特种油气藏. 2016,23(1):87-91.
[63] 时贤,程远方,常鑫, 等,页岩气水平井段内多簇裂缝同步扩展模型建立与应用.石油钻采工艺. 2018.40(1):79-84.
[64] 时贤,程远方,梅伟, 等,基于测井资料的地层孔隙压力预测方法研究.石油天然气学报. 2012,34(8):94-98
[65] 时贤,程远方,袁征, 等,定向井破裂压力预测方法及计算参数敏感性分析.科学技术与工程. 2012,12(31):8205-8209
[66] 时贤,程远方,李友志, 等,致密气藏压裂井产能预测方法研究.断块油气田.2013,20(5):634-638.中文核心.
[67] 时贤,李兆敏,刘成文, 等,稠油油藏多轮次蒸汽吞吐防砂后产能预测模型.油气地质与采收率. 2012,19(4):56-59.
[68] 时贤,李兆敏,张虎贲, 等,超重油溶解气驱后转驱提高采收率实验.油气地质与采收率. 2015,.22(1):98-101.中文
[69] 程远方,时贤,李蕾, 等,考虑裂隙发育的碳酸盐地层孔隙压力预测新模型.中国石油大学学报(自然科学版). 2013,37(3):83-87.
[70] 冯其红,李东杰,时贤, 等,基于扩展有限元的水平井改进拉链式压裂数值模拟.中国石油大学学报(自然科学版). 2019,43(2):105-112.
[71] 程远方,李友志,时贤, 等,页岩气体积压裂缝网模型分析及应用.天然气工业. 2013,33(9):53-59.
[72] 常鑫,程远方,时贤, 等,水平井分段压裂簇间应力作用分析.中国海上油气. 2016, 28(02):109-119.
[73] 常鑫,程远方,时贤, 等,定向射孔体积压裂复杂裂缝扩展机理试验研究.中国海上油气. 2016, 28(02):109-119.
[74] 程远方,董丙响,时贤, 等,页岩气藏三孔双渗模型的渗流机理.天然气工业,2012,32(09):44-47+130. - 专利[1]模拟水力压裂裂缝和天然裂缝扩展影响的实验装置及方法.1/3.
[2]利用大功率超声波结合分支水平井热采页岩气的工艺方法.1/4.
[3]利用数字散斑和有限元技术的无损地应力测试装置及方法.1/6.
[4]一种通过支持向量机获取全页岩气井段可压性评价剖面的方法.1/6.
[5]一种全寿命周期页岩气储层双甜点三维可压性评估方法.1/6.
[6]一种基于微观力学实验的层理性页岩储层可压性评估方法.2/2.
[7]基于动态地应力和剩余油特征的暂堵重复压裂设计方法.1/6.
[8]一种超声波技术进行钻完井废液循环利用处理装置与方法.1/8.
[9]一种确定性裂缝建模和竞争粒子群算法的三维地应力场模拟方法.1/7.
[10]一种针对于缝洞体碳酸盐岩的重复暂堵酸压选井选层方法.1/7.
[11]一种考虑生产时间窗的加密井井壁稳定分析方法.1/7.
[12]一种考虑参数不确定性的页岩储层可压性置信度评价方法.1/7.
[13]一种页岩油立体井网压裂多元参数优化设计方法.1/7.
[14]页岩储层井工厂水平井压裂参数分层多级优化方法.1/6.
[15]一种提高致密油气藏脉动CO2复合压裂缝网复杂程度的方法及系统.1/7.
[16]一种水平井重复压裂增能暂堵压裂参数设计方法.1/7.
[17]一种基于机器学习的致密砂岩水力裂缝穿层预测方法.1/7.
[18]一种差异化致密储层三维工程甜点评价和界限确定方法.1/7.
[19]一种老油田压裂控水材料及其制备方法与应用.1/7.
[20]一种基于机器学习的多割理煤层井壁坍塌压力预测方法.1/10.
[21]一种模型驱动模式条件下的 CO2 增能压裂起裂压力预测方法.2/8.
[22]一种考虑波动压力压裂返排油嘴实时优化方法.1/10.
[23]一种多尺度复杂裂缝网络铺砂优化设计方法.1/7.
[24]一种机理数据双驱动条件下的天然裂缝激活判断预测方法.1/7.
[25]一种二氧化碳气体增能压裂方法.2/6.
[26]一种针对于薄互层致密储层的综合可压性评估方法.1/7.
[27]一种基于数据驱动的水平井暂堵压裂有效性评价方法.2/6.
[28]一种考虑页岩地质力学特征的剪切型破裂压力分析方法.1/7.
[29]储层三维应力场模拟方法、模拟系统、终端、存储介质.1/7.
[30]一种重复压裂指数置信度层位优选设计方法1/8.
[31]一种考虑应力卸载效应的井壁稳定多场耦合分析方法.1/9.
[32]一种基于机器学习算法的页岩储层CO2增能复合压裂模拟裂缝扩展预测方法及系统.1/11.
[33]一种缝洞体碳酸盐岩储层的重复压裂参数优化设计方法.1/8.
[34]一种热力化多场耦合作用下加密井井壁坍塌压力计算方法.1/8.
[35]一种考虑加密井欠平衡钻井井壁坍塌压力计算方法.1/8.
[36]一种基于致密砂岩数字岩心重构及可压性评价方法.1/6.
[37]一种考虑源储配置导向的页岩储层甜点评价方法.2/6.
[38]一种不规则井眼失稳区域计算方法.1/10. - 学术交流[1] Xian Shi, Xiaoxin Ge, Mingguang Che, et al. The Fracability Estimation with the Digital Rock Simulation Technique for Shale Gas Reservoirs. GOTECH, Dubai City, UAE, April 2025.SPE-224610-MS
[2] Xian Shi, Botao Zhang,Yujie Yan, et al.Numerical simulation of hydraulic fracture geometry with dense perforations on the horizontal well for the tight oil reservoir. 59th US Rock Mechanics / Geomechanics Symposium 8-11 June 2025, Santa Fe, New Mexico.
[3] Xian Shi, Jintong Gou,Wuzhen Gong et al. Machine Learning-Based Pore Pressure Prediction in Deep Reservoirs: Model Comparison and Optimized Application of XGBoost. 59th US Rock Mechanics / Geomechanics Symposium 8-11 June 2025, Santa Fe, New Mexico.
[4] Xian Shi, Yuanyuan Yang, Yong Liao, et al. Unconfined Compressive Strength Estimation in the Shale Gas Reservoir Using Data Driven Technique. 57th US Rock Mechanics/Geomechanics Symposium. Atlanta, Georgia, 28 June-1 July, U.S.A.2023.6. ARMA-2023-0255.
[5] Xian Shi, Hongxing Xu, Lei Han, et al. Application of Pulse Hydraulic Fracturing for Tight Oil Reservoir with low frequency. SPE International Hydraulic Fracturing Technology Conference and Exhibition to be held 12-14 September 2023 in Muscat, Oman. SPE-215658-MS.
[6] Xian Shi, Wenbiao Huang, Shuangfang Lu et al. The Rock Mechanical Properties and Failure Behavior of Glutenite. YSRM2019 & REIF2019, 1-4 December 2019, Okinawa, Japan.
[7] Xian Shi, Dongjie Li, Yuanfang Cheng et al. The Numerical Simulation of Hydraulic Fracture Propagation with Competing Perforations at the Defining Plane. SPE Asia Pacific Oil and Gas Conference and Exhibition, 23-25 October, Brisbane, Australia. SPE191887.
[8] Xian Shi, Shu Jiang, Zhixuan Wang et al. The Application of Drilling Cutting to Evaluate the Fracability in Unconventional Shale Gas Resources. SPE/IATMI Asia Pacific Oil & Gas Conference and Exhibition. SPE196529.
[9] Xian Shi, Gang Liu, Shu Jiang et al. Brittleness Index Prediction from Conventional Well Logs in Unconventional Reservoirs using Artificial Intelligence.10th International Petroleum Technology Conference. Bangkok.Tailand.2016. 11. Paper No.16IPTC-P-1135.
[10] Xian Shi, Liu Yang, Dongjie Li et al. Mechanical Characterization of Longmaxi Marine Shale by Nanoindentation. ARMS10-P-0167. ARMS 10th Asian Rock Mechanics Symposium. 29 OCT - 03 NOV 2018, Singapore.
[11] Xian Shi, Dongjie Li, Liu Yang et al. Fracture propagation in multi-lateral horizontal wells with zipper fracturing of non-uniform spacing. 52th US Rock Mechanics/Geomechanics Symposium. San Francisco. U.S.A.2018.6. ARMA Paper No.18-343.
[12] Xian Shi, Liang Zhang, Yuanfang Cheng et al. Pore structure and Mechanical Property Change of different rocks under nitrogen freezing.51th US Rock Mechanics/Geomechanics Symposium. San Francisco. U.S.A.2014.6. ARMA Paper No.17-212.
[13] Xian Shi, Liu Yang, Qiaorong Han et al. Application of acoustic emission, anisotropy of acoustic velocity and palaeomagnetie technology to determine in-situ stress in tight sands. 2017 International Symposium on New Developments in Rock Mechanics and Geotechnical Engineering (NDRMGE 2017). Jeuju-Si. Korea.
[14] Xian Shi, Yuanfang Cheng, Menglai Li et al. Induced stress interaction during multi-stage hydraulic fracturing from horizontal wells using boundary element method. 2017 International Symposium on New Developments in Rock Mechanics and Geotechnical Engineering (NDRMGE 2017). Jeuju-Si. Korea.
[15] Liu Yang, Xian Shi, Hongkui Ge, et al. The Effects of Fracturing Fluid Imbibition on Fracture Conductivity in Tight Reservoirs. 51st U.S. Rock Mechanics/Geomechanics Symposium, 25-28 June, San Francisco, California, USA.
[16] Liu Yang, Xian Shi, Hongkui Ge, et al. Effects of Microfractures Properties on Stress-Dependent Permeability in Tight Oil Reservoirs. 52nd U.S. Rock Mechanics/Geomechanics Symposium, 17-20 June, Seattle, Washington. USA.
[17] Xin Chang, Xian Shi, Yuanfang Cheng et al. The fully coupled fluid flow and Geo-Mechanics model for simulating simultaneous multiple hydraulic fracture propagation for horizontal wells. 49th US Rock Mechanics/Geomechanics Symposium. San Francisco. U.S.A.2014.6. ARMA Paper No.15-607.
[18] Liu Yang, Hongkui Ge, Xian Shi et al. New Method to Differentiate Between Matrix and Micro-Fractures Using Diffusion Data in Gas Shale. ARMA-2017-0553. 51st U.S. Rock Mechanics/Geomechanics Symposium, 25-28 June, San Francisco, California, USA.
[19] Shu Jiang, Zhengyu Xu, Xian Shi et al. Tectonic Effects on Gas Accumulation, Production and Hydraulic Fracturing of the Lower Paleozoic Marine Shales on the Yangtze Platform in South China, AAPG Datapages/Search and Discovery. 2015 International Conference & Exhibition, Melbourne, Australia, September 13-16, 2015.
[20] Xian Shi, Xin Chang, Yuanfang Cheng, et al. A novel finite element technique with triangular gird for hydraulic fracture propagation simulation in reservoirs. 57th US Rock Mechanics/Geomechanics Symposium. Atlanta, Georgia, 28 June-1 July, U.S.A.2023.6. SPE-215658-MS. 排名:1/6.
[21] Qi Gao, Songcai Han, Xian Shi, et al. A Microscale Thermo-Hydro-Mechanical (THM) Model for Thermal Recovery of Shale Gas. 57th U.S. Rock Mechanics/Geomechanics Symposium, Atlanta, Georgia, USA, June 2023. Paper Number: ARMA-2023-0219.
[22] 许洪星,时贤,冀明实,等,封隔器对页岩气水平井裸眼分段压裂起裂压力的影响. 2017年全国天然气学术年会论文集. 浙江 杭州. 排名:2/3.
[23] 赵清源,时贤,张卫东,等,基于地质工程一体化理论的碳酸盐岩酸化压裂与加砂压裂适应性研究——以靖西马五区块为例. 2023年全国天然气学术年会论文集. 广西 南宁. 排名:2/6.
[24] 时贤,祝东风,杨柳,等.注CO2提高页岩气采收率数值模拟研究.中国力学大会.2017.中国北京.排名:1/4.
[25] 时贤. 基于微纳米技术的页岩力学性质评价研究.中国微米纳米技术学会首届微纳米表征与测量技术研讨会.2021.8.四川成都. - 个人风采时贤,教授,博士生导师,本、硕、博均毕业于中国石油大学(华东),曾在美国犹他大学联合培养(合作导师:蒋恕教授,John McLennan教授),澳大利亚莫纳什大学访问学者(合作导师:Ranjith Pathegama Gamage院士)。现为SPE会员、国际岩石力学协会和中国岩石力学协会会员。目前主要从事复杂油气开发中的地质力学建模、井壁失稳、水力压裂、石油工程大数据应用以及地质工程一体化方面的研究。主持和完成国家自然科学基金、国家科技重大专项子课题、山东省自然科学基金、山东省重点研发计划项目等纵向课题12项,企事业横向课题70余项,累计发表文章129篇,申请发明专利69项,取得软件著作权12件,出版专著2部,获得湖北省技术发明一等奖、教育部科技进步二等奖、甘肃省科技进步二等奖、山东省技术发明二等奖、中国石油化工联合会科技进步一等奖等省部级奖励12项;作为主要研究人员参与国家973项目、国家自然科学基金重点项目、国家自然科学基金石油化工联合基金项目等项目。担任《Energy engineering》编委,《Petroleum Science》、《Rock Mechanics Bulletin》、《天然气工业》、《中国矿业大学学报》、《石油与天然气地质》、《油气地质与采收率》等9本期刊青年编委,以及 Fuel、Geoenergy Science and Engineering、Gas Science and Engineering、Engineering fracture mechanism、Journal of Mechanics、石油学报、石油勘探与开发、石油科学通报、岩石力学与工程学报、天然气地球科学、天然气工业等36个SCI/EI期刊以及美国岩石力学协会年会会议论文的特约审稿人。相关研究成果已成功应用于长庆、胜利、渤海、江汉、西南、新疆等油气田。