吕桥

吕桥

职称/头衔：研究员、硕士生导师。

E-mail：lvqiao@hainanu.edu.cn

● 个人简介

本科-博士均毕业于武汉大学，曾赴澳大利亚蒙纳什大学进行博士联合培养（导师:PG Ranjith院士）。主要从事非常规储层改造及其环境影响、CO2地质利用与封存等领域的应用性基础和前瞻性交叉科学研究。近年来主持和参与国家级、省部级和重点实验室开放基金项目等共计10余项，在Energy & Environmental Science、Energy、Fuel、Rock Mechanics and Rock Engineering、Engineering Geology、Journal of Petroleum Science and Engineering等期刊发表论文40余篇，2篇论文入选ESI-1%高被引用论文，出版独著1部，获批国家发明专利2项、软件著作权3项。受邀在第五届非常规地质体力学国际研讨会、2018纳米地球科学国际学术研讨会、欧洲地球科学联合会（EGU-2022）、第十四届全国土力学及岩土工程学术大会等做邀请报告。担任Energies、Materials、Remote Sensing等期刊的专刊主编，是Energy、Rock Mechanics and Rock Engineering等20余种国内外期刊审稿人，为中国地质学会、中国岩石力学与工程学会、湖南省可再生能源学会等专业学会会员。

● 研究方向

（1）CO2地质利用与地质封存（CCUS）

1）海洋CO2封存；

2）咸水层CO2封存；

3）超临界CO2强化油气开发。

（2）岩石力学与岩石物理

1）储层岩石力学实验研究（单轴、三轴等）；

2）岩石物理实验研究（孔隙度、渗透率等）；

3）岩石本构模型与数值模拟。

（3）深部油气储层改造研究

1）高温高压流体-岩石相互作用实验研究；

2）流体-岩石相互作用的物理、化学反应机制；

3）流体-岩石相互作用对储层的多尺度改造。

● 科研项目与课题

(1)国家自然科学基金委，青年项目，42002160，超临界CO2对深部页岩力学和渗流特性的影响研究，2021-01至2023-12，24万，项目，主持

(2)湖南省科技厅，湖南省自然基金青年项目，2020JJ5705，高温高压的超临界CO2对页岩力学和渗流特性的影响研究，2020-01至2022-12，5万，项目，主持

(3)博士后科学基金委，博士后科学基金一等项目，2018M630913，超临界CO2-水-岩相互作用对页岩力学和渗流特性的影响，2018-05至2019-05，8万，项目，主持

(4)国家自然科学基金委, 面上项目, 41872151, 富有机质泥页岩微纳米孔隙结构的形成与演化机理研究, 2019-01 至 2022-12, 66万元, 项目, 参与

(5)国家自然科学基金委, 重点项目, 41830107, 基于物性约束的广域电磁法自适应三维反演与岩性识别方法研究, 2019-01 至 2023-12, 297万元, 项目, 参与

● 科研奖励

1.教育部科学技术进步奖：射流泵空化流动理论与关键技术及应用, 科技进步, 二等奖, 2022

● 论文与专著

1.吕桥。二氧化碳及其水/盐溶液作用下页岩的力学特性，科学出版社，2022。

2.Jingqiang Tan, Yonggang Ding, Qiao Lyu*, Chenger Hu, Gan Feng, Qiang Yuan, Study on the constitutive model and brittleness variations of shale after imbibition in different fracturing fluids. Geomechanics for Energy and the Environment, 2023, 34: p. 1-12.

3.Zhang, Guanglei, P. G. Ranjith, and Qiao Lyu*, Direct evidence of CO2 softening effects on coal using nanoindentation. Energy, 2022. 254: p. 124221.

4.Tan, Jingqiang, Bingbin Xie, Qiao Lyu*, Shefa Chen, and P. G. Ranjith, Mechanical Properties of Shale After CO2 and CO2-Based Fluids Imbibition: Experimental and Modeling Study. Rock Mechanics and Rock Engineering, 2022.

5.Tan, Jingqiang, Chenger Hu, Qiao Lyu*, Gan Feng, and Shefa Chen, Experimental investigation on the effects of different fracturing fluids on shale surface morphology. Journal of Petroleum Science and Engineering, 2022. 212: p. 110356.

6.Lyu, Qiao, Kaixi Wang, Chenger Hu, Jindong Shi, Jingqiang Tan*, Guanglei Zhang*, Shefa Chen, and P. G. Ranjith, Effects of supercritical CO₂/water imbibition under dynamic pressures on shale mechanics and acoustic emission characteristics. Fuel, 2022. 321: p. 124087.

7.Lyu, Qiao, Kaixi Wang, Chenger Hu, Jeffrey M. Dick, Jindong Shi, and Jingqiang Tan*, Experimental Study on the Mechanical Properties of Shale After Long-term of Immersion in Fracturing Fluids with Different pH. Rock Mechanics and Rock Engineering, 2022.

8.Lyu, Qiao, Jindong Shi, Jingqiang Tan, Jeffrey M. Dick, and Xun Kang*, Effects of shale swelling and water-blocking on shale permeability. Journal of Petroleum Science and Engineering, 2022. 212: p. 110276.

9.Lyu, Qiao, Jingqiang Tan*, Lei Li, Yiwen Ju*, Andreas Busch, David A. Wood, Pathegama Gamage Ranjith, Richard Middleton, Biao Shu, Chenger Hu, Zhanghu Wang, and Ruining Hu, The role of supercritical carbon dioxide for recovery of shale gas and sequestration in gas shale reservoirs. Energy & Environmental Science, 2021. 14(8): p. 4203-4227.

10.Lyu, Qiao*, Kaixi Wang, W. A. M. Wanniarachchi, Chenger Hu, and Jindong Shi, Hydro-mechanical properties of a low-clay shale with supercritical CO2 imbibition. Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 2020. 6(4): p. 69.

11.Lyu, Qiao, Jindong Shi, and Ranjith Pathegama Gamage*, Effects of testing method, lithology and fluid-rock interactions on shale permeability: A review of laboratory measurements. Journal of Natural Gas Science and Engineering, 2020. 78: p. 103302.

12.Wanniarachchi, Ayal, Ranjith Pathegama Gamage, Qiao Lyu*, Samintha Perera, Hiruni Wickramarathne, and Tharaka Rathnaweera, Mechanical Characterization of Low Permeable Siltstone under Different Reservoir Saturation Conditions: An Experimental Study. Energies, 2019. 12(1): p. 14.

13.Tan, Jingqiang, Chenger Hu, Qiao Lyu*, Jeffrey M Dick, Pathegama Gamage Ranjith, Lei Li, and Zhanghu Wang, Multi-fractal analysis for the AE energy dissipation of CO2 and CO2+brine/water treated low-clay shales under uniaxial compressive tests. Fuel, 2019. 246: p. 330-339.

14.Lyu, Qiao, Jingqiang Tan*, Jeffrey M. Dick, Qi Liu, Ranjith Pathegama Gamage, Lei Li, Zhanghu Wang, and Chenger Hu, Stress–Strain Modeling and Brittleness Variations of Low-Clay Shales with CO2/CO2-Water Imbibition. Rock Mechanics and Rock Engineering, 2019. 52(7): p. 2039-2052.

15.Lyu, Qiao, Xinping Long, P. G. Ranjith, Jingqiang Tan*, Yong Kang, and Zhanghu Wang, Experimental investigation on the mechanical properties of a low-clay shale with different adsorption times in sub-/super-critical CO2. Energy, 2018. 147: p. 1288-1298. (2019-2020年ESI-1%高被引)

16.Lyu, Qiao, Xinping Long, P. G. Ranjith, Jingqiang Tan*, and Yong Kang, Experimental investigation on the mechanical behaviours of a low-clay shale under water-based fluids. Engineering Geology, 2018. 233: p. 124-138. (2019-2020年ESI-1%高被引)