Social Affiliations

国际SCI期刊 SPE Journal执行主编 (Executive Editor, 2026-)
国际SCI期刊 SPE Journal副主编 (Associate Editor, 2020-2026)
国际SCI期刊 Geoenergy Science and Engineering副主编 (Associate Editor, 2024-)
北京市科学技术奖，评审专家；国际石油工程师协会（SPE）亚太地区国际奖励评审委员会，委员；国家自然科学基金项目，函评专家（2019-）
中华环保联合会资源循环利用专业委员会，副主任委员；中国岩石力学与工程学会青年工作委员会、中国大坝工程学会库坝渗流与控制专业委员会、中国自然资源学会地热资源与地质储能专委会，委员；湖南省岩石力学与工程学会，理事
中国能源行业标准评审专家、国家科技部专家库专家、教育部学位与研究生教育发展中心评审专家、自然资源部碳封存与地质储能工程技术创新中心评审指导专家、湖南省科学技术厅专家、贵州省科学技术厅专家、深圳市科技创新局专家
International Journal of Coal Science & Technology、Rock Mechanics Bulletin、《东北石油大学学报》、《西安石油大学学报（自然科学版）》、Water、Journal of Marine Science and Engineering，青年编委/客座编辑
40余份SCI期刊审稿人: AAPG Bulletin, Advances in Water Resources, Computational Geosciences, Computers and Geotechnics, Fuel, Gondwana Research, Gas Science and Engineering, JGR: Solid Earth, Journal of Hydrology, Journal of Petroleum Science and Engineering, Journal of Rock Mechanics and Geotechnical Engineering, Nature Reviews, Physics of Fluids, Petroleum Science, Rock Mechanics and Rock Engineering, Renewable and Sustainable Energy Reviews, SPE-REE, SPE-PO, 石油勘探与开发, SPE Journal, etc.

Research Focus

Personal Information

李三百，中南大学资源与安全工程学院，特聘教授、博士生导师。本科毕业于中南大学，博士毕业于北京大学，美国加州大学欧文分校博士后。研究兴趣为多孔介质中力学场与流动场等多场耦合机理、数值计算方法及工程应用，涉及岩体中气/液驱动的裂缝扩展、非常规能源（页岩油气、地热、天然气水合物等）高效开发、水力压裂和酸化压裂、岩溶演化、二氧化碳地质封存等。主持国家自然科学基金等项目10项，申请国家发明专利18件(授权14件，第1发明人11件)，登记软件著作权3项，担任SCI期刊SPE Journal执行主编和Geoenergy Science and Engineering (原JPSE) 副主编。在JGR-SE / GRL、SPEJ / WRR 、石油勘探与开发等发表论文42篇，担任Nature Reviews、JGR: Solid Earth等40余份SCI期刊经常性审稿人，荣获2024国际新锐科学家奖(GSE Emerging Scientist Award)、全国高校矿业石油与安全工程领域优秀青年科技人才奖、绿色矿山青年科技奖、省部级行业科技进步二等奖 (排名1) 、SPE Journal 杰出副主编奖 (2022/23/24/25) 等国内外奖励多项。

代表性论文（*代表通讯作者）

Water Resources Research - 2020 - - Issue Information_Page_1.jpg

[1] Sanbai Li (李三百), Xibing Li (李夕兵), Diyuan Li (李地元), et al. Near-wellbore three-dimensional non-planar fracture growth model. Petroleum Exploration and Development (石油勘探与开发), 2026, Accepted.

[2] Hongzhuo Fan, Sanbai Li*, Yue Shi, et al. Modeling and simulation of enhanced geothermal systems with explicit representation of 3D deformable fracture networks. SPE Journal, 2025, 30 (6) : 3839-3860. [PDF]

[3] Zijun Wei, Ke Gao*, Sanbai Li*. Geothermal system lifetime with fracture heterogeneity and thermal nonequilibrium impact. Applied Thermal Engineering, 2025, 259: 124861. [PDF]

[4] Zijun Wei, Ke Gao*, Sanbai Li*. Integrated thermo-hydro-mechanical workflow for modeling CO₂ storage with fault activation risk. SPE Journal, 2025, 30(05): 2975-2995. [PDF]

[5] Sanbai Li*, Zhijiang Kang, Moran Wang, et al. Geomechanical perspectives and reviews on the development and evolution of cross-scale discontinuities in the Earth's crust: Patterns, mechanisms and models. Gas Science and Engineering, 2024, 129: 205412. [PDF]

[6] Hongzhuo Fan, Sanbai Li*, Chen He, et al.. A generalized 3D-DDM for both fracture-type and asymmetric closed-contour problems: Modified fully analytical approach and applications. Computers and Geotechnics, 2024, 171: 106406. [PDF]

[7] Sanbai Li, Dongxiao Zhang*. Three-dimensional thermoporoelastic modeling of hydrofracturing and fluid circulation in hot dry rock. JGR: Solid Earth, 2023, 128 (2) : e2022JB025673. [PDF]

[8] Shihao Wang, Sanbai Li*, Yu-Shu Wu. An analytical solution of the pressure and displacement induced by the recovery of poroelastic reservoirs and its applications. SPE Journal, 2023, 28 (3) : 1329–1348. [PDF]

[9] Hongzhuo Fan, Jianfu Shao, Sanbai Li*. Geomechanical model for frictional contacting and intersecting fracture networks: An improved 3-D displacement discontinuity method. SPE Journal, 2022, 27 (6) : 3896–3913. [PDF]

[10] Sanbai Li, Shihao Wang*, Huiying Tang. Stimulation mechanism and design of enhanced geothermal systems: A comprehensive review. Renewable & Sustainable Energy Reviews, 2022, 155: 111914. [PDF]

[11] Junsheng Zeng, Heng Li, Sanbai Li, Dongxiao Zhang. Evaluating the transport performance of novel-shaped proppant in slickwater fracturing with the multiscale modeling framework. SPE Journal, 2022, 27(04): 2093-2108. [PDF]

[12] Sanbai Li, Dongxiao Zhang*. Development of 3-D curved fracture swarms in shale rock driven by rapid fluid pressure buildup: Insights from numerical modeling. Geophysical Research Letters, 2021, 48 (8) : e2021GL092638. [PDF]

[13] Shuai Zheng, Sanbai Li*, Dongxiao Zhang*. Fluid and heat flow in enhanced geothermal systems considering fracture geometrical and topological complexities: An extended embedded discrete fracture model. Renewable Energy, 2021, 179: 163-178. [PDF]

[14] Sanbai Li, Abbas Firoozabadi*, Dongxiao Zhang*. Hydromechanical modeling of nonplanar three-dimensional fracture propagation using an iteratively coupled approach. JGR: Solid Earth, 2020, 125 (8) : e2020JB020115. [PDF]

[15] Sanbai Li, Zhijiang Kang, Xia-Ting Feng, Zhejun Pan, Xiaote Huang, Dongxiao Zhang*. Three-dimensional hydro-chemical model for dissolutional growth of fractures in karst aquifers. Water Resources Research, 2020, 56 (3) : e2019WR025631. [PDF]

[16] Hongzhuo Fan, Sanbai Li*, Xia-ting Feng et al. A high-efficiency 3D boundary element method for estimating the stress/displacement field induced by complex fracture networks. Journal of Petroleum Science and Engineering, 2020, 187: 106815. [PDF]

[17] Sanbai Li, Xia-Ting Feng, Dongxiao Zhang*, Huiying Tang. Coupled thermo-hydro-mechanical analysis of stimulation and production for fractured geothermal reservoirs. Applied Energy, 2019, 247: 40-59. [PDF]

[18] Sanbai Li, Dongxiao Zhang*. How effective is carbon dioxide as an alternative fracturing fluid? SPE Journal, 2019, 24 (2) : 857–876. [PDF]

[19] Sanbai Li, Dongxiao Zhang*. A fully coupled model for hydraulic-fracture growth during multiwell-fracturing treatments: Enhancing fracture complexity. SPE Production & Operations, 2018, 33(02): 235-250. [PDF]

[20] Sanbai Li, Dongxiao Zhang*, Xiang Li. A new approach to the modeling of hydraulic fracturing treatments in naturally fractured reservoirs. SPE Journal, 2017, 22 (4) : 1064–1081. [PDF]

[21] Sanbai Li, Xiang Li, Dongxiao Zhang*. A fully coupled thermo-hydro-mechanical, three-dimensional model for hydraulic stimulation treatments. Journal of Natural Gas Science and Engineering, 2016, 34: 64-84. [PDF]

代表性专利与软件

[1] 李三百，张东晓. 一种基于拟连续地质力学模型的单裂缝扩展的模拟方法. 专利号：CN2018109523667 [授权]

[2] 李三百，黄麟淇，苏醒等. 近井筒水力裂缝变形与扩展热流固耦合模拟方法及系统. 专利号：CN2026101250859 [授权]

[3] 李三百，徐华欣，黄麟淇等. 地表形变模拟与三维断层反演方法、系统、介质及产品. 专利号：CN202610148863.6 [授权]

[4] 李三百，黄麟淇，陈江湛等. 一种全三维缝-缝和缝-洞交叉力学行为数值模拟方法. 专利号：CN202610271328.X [授权]

[5] 李三百，苏醒，陈江湛等. 考虑应力阴影效应的粗糙裂缝滑移趋势计算方法及系统. 专利号：CN202610279126.X [授权]

[6] 李三百，陈江湛，黄麟淇等. 缝洞型介质井筒-裂缝-溶洞耦合压裂模拟方法及系统. 专利号：CN202610286582.7 [授权]

[7] 李三百，蔡鑫，苏醒等. 一种地热储层压裂-开采一体化的数值模拟方法及系统. 专利号：CN202610269705.6 [实审]

[8] 李三百，李地元，苏醒等. 三维裂缝网络溶蚀过程数值模拟方法、系统、介质及终端. 专利号：CN202610270587.0 [授权]

[9] 李三百，李金壮，黄麟淇等. 一种尾矿库溃坝模拟方法、系统、介质及终端. 专利号：CN202610270509.0 [授权]

[10] 李三百，李金壮，徐华欣等. 一种三维多棱柱网格剖分方法和系统. 专利号：CN202610528661.4 [实审]

[11] 李三百，和思然，李金壮等. 一种岩墙扩展相似物模实验装置及方法. 申请号：202610668103.8

[12] 苏醒，李地元，李三百等. 一种基于地应力变化的钻井液安全密度范围解析预测方法. 专利号：CN202411391634.4 [授权]

[13] 汪道兵，吴月，李三百等. 一种纳米增粘流体与超临界CO2流体协同压裂方法. 专利号：CN202610430417.4 [实审]

[14] 康志江，张冬丽，崔书岳，张允，李三百. 一种基于非结构网格的水平井分段压裂数值模拟方法. 专利号：CN201410837286.9 [授权]

[15] 康志江，崔书岳，张允，黄孝特，李三百. 一种岩溶储层演化数值模拟方法. 专利号：CN201910284913.3 [授权]

[16] 康志江，张杰，李红凯，张允，李三百. 一种大规模油藏数值模拟计算的方法. 专利号：CN201310228377.8 [授权]

[17] 康志江，张冬丽，崔书岳，张允，李三百. 一种缝洞野外露头水驱油数值模拟方法. 专利号：CN201310201289.9 [授权]

[18] 李三百，张东晓. 天然气水合物储层改造模拟软件[简称: GasHydrateHF]V1.0. 登记号：2023SR0395659

[19] 张东晓，李三百. 流-固-热全耦合的水力压裂模拟器软件[简称:FracTHM]V1.0. 登记号：2016SR347861

[20] 张东晓，李三百，吴金桥，孙晓，李鑫，乔红军. 二氧化碳压裂模拟器[简称:CO2FRAC]V1.0. 登记号：2017SR120808

Distinguished Professor
Supervisor of Doctorate Candidates
Supervisor of Master's Candidates
School/Department:School of Resources and Safety Engineering
Education Level:With Certificate of Graduation for Doctorate Study
Sex:Male
Contact Information:lisb6@csu.edu.cn
Degree:Doctoral degree
Status:Employed
Alma Mater:北京大学
Discipline:Mining Industrial Engineering