陈亮

发布时间:2013-07-25

 

个人简介

 

陈亮,男,197610月生,江苏新沂人,新葡的京集团35222vip岩土工程国家重点学科教授,博士生导师,副所长江苏省防汛抢险专家,江苏省城市轨道交通工程质量安全专家,浙江省水利正高级工程师评委会专家,中国土工合成材料协会防渗专委会委员。曾任新葡的京集团35222vip土木与交通实验中心主任,江苏省土木工程教学示范中心主任(兼)。教学方面,主要负责土力学教学与土力学实验教学,主讲课程“土力学”曾获国家精品课程(第五,2009),参编教材《土力学》曾获国家精品教材(第三,2012),2019-2020年度获得江苏省高校实验室工作先进个人称号。科研方面,主要从事岩土渗流与环境岩土方向研究,主持国家基金、省基金、重点研发专题各1项,发表论文百余篇,获得国家专利50余项,参与编写教材2部,出版专著2部,获省部级科技进步奖5项。2021年获中共江苏省委省政府防汛抗洪先进个人表彰。

 

 

一、 学习与工作经历

Ø 1992.9-1996.7南京大学,物理系,学习,本科/学士

Ø 1996.8-2000.1江苏省农业科学院/原子能所工作,研究实习员

Ø 2000.2-至今 新葡的京集团35222vip,工作,副教授(2008/教授(2017

Ø 2001.9-2004.12新葡的京集团35222vip,岩土工程,学习,研究生/硕士

Ø 2003.8-2003.10瑞典GeoSigma AB工作,IAEA Fellow

Ø 2005.9-2013.6新葡的京集团35222vip,岩土工程,学习,研究生/博士

Ø 2006.1-2006.3德国哈雷同位素水文验室工作,IAEA Fellow

Ø 2015.11-2016.11瑞士洛桑联邦理工学院,工作,访问学者

 

二、 获奖情况

1.广义稀释法及非汛期堤坝渗漏示踪探测技术研究与应用(第四), 2004,江苏省科技进步二等奖

2.岩土体渗流破坏多场耦合机理与渗控关键技术(第六), 2011,教育部科技进步一等奖

3.铰链式混凝土生态护坡关键技术创新及其推广应用(第二),2016,江苏省科学技术奖三等奖

4.河谷场地土坝地震灾变理论与抗震加固技术(第十),2017,教育部科学技术奖一等奖

5. 大禹科技进步三等奖(第二),2020

6. 江苏省实验工作先进个人,2020

7. 江苏省委省政府防汛抗洪工作先进个人,2021

三、 基金项目

1.国家自然科学基金,非稳态管涌侵蚀下土体变形过程与渐进失稳机理,20175034611,2018.1~2021.12

2. 江苏省自然科学基金,变水头条件下土体渗透变形机理研究, 20155024511,2015.1~2019.12

3. 国家重点研发计划(专题),土石堤坝内部隐患及渗漏通道快速探测关键技术与装备研究, 2019YFC1510802, 2020.1~2022.12

 

四、 科研成果

1. 论文

[1] Chen, Liang; Yan,Shu Fa; He,Jian Jian; Wan,Yu, Experimental investigations on the evolution of undrained mechanical characteristics of cohesionless soils subjected to internal erosion, soil mechanics and foundation engineering.(Accepted) (SCI)

[2] Chen, Liang; Wan,Yu; He,Jian Jian; Luo, Chun Mu; Yan,Shu Fa; He, Xian Feng, Experimental study on the suffusion mechanism of gap-graded soils under an exceedance hydraulic gradient, Natural Hazards,2021, 109:405–439(SCI)

[3] Jian Liu, Yuanmin Duan, Yuedong Wu, Rui Chen, Liang Chen, Geng Chen; Information flow perception modeling and optimization of Internet of Things for cloud services, Future Generation Computer Systems,2021, 115:671-679(SCI)

[4] Liang Chen, Jianjian He, Songtang Yang. Experimental study on the evolution of the drained mechanical properties of soil subjected to internal erosion. Natural Hazards. 2020.5(SCI)

[5] Chen, Liang; Cai, Guo-dong; Gu, Jia-hui; Tan, Ye-fei; Chen, Cheng; Yin, Zi-xue, Effect of Clay on Internal Erosion of Clay-Sand-Gravel Mixture, Advances in Civil Engineering, 2020:1-18. (SCI)

[6] Chen, Liang; He, Jian-jian; Yao, Bin-bin; Influence of the Initial Relative Density on the Drained Strength Properties of Soils Subjected to Internal Erosion,Soil Mechanics and Foundation Engineering.2019.12(SCI)

[7] Zhuang, Yan ; Wang, Kang Yu ; Li, Hua Xiang; Wang, Meng; Chen, Liang, Application of three-dimensional shakedown solutions in railway structure under multiple Hertz loads, Soil Dynamics and Earthquake Engineering, 2019.2, 117328~338. (SCI)

[8] Gao, Guoyao ; Zhuang, Yan; Wang, Kangyu ; Chen, Liang, Influence of Benoto bored pile construction on nearby existing tunnel: A case study, Soils and Foundations, 2019.4, 59(2)544~555. (SCI)

[9] Kun Hu; Qi‑zhi Zhu; Liang Chen; Jian‑fu Shao; Jian Liu; A MicromechanicsBased Elastoplastic Damage Model for Rocks with a Brittle–Ductile Transition in Mechanical Response, Rock Mechanics and Rock Engineering (2018) 51:1729–1737(SCI)

[10] LiangChenJingchuanZhaoHongyuZhang. Experimental Study on Suffusion of Gravelly Soil, Soil Mechanics and Foundation Engineering. 2015.3(SCI)

[11] Chen Liang, Zhao Jingchuan, Zhao Tianlong. Experimental Study of Low Temperature Water Seepage Detection Model of Embankment Dam. Fresenius Environmental Bulleting, 2015.3B(SCI)

[12] Chen, Liang; Zhao, Jingchuan; Li, Gang. Experimental study of seawall piping under water level fluctuation, European Journal of Environmental and Civil Engineering,2013.S1(SCI)

[13] Liang Chen, Jianjian He, Haixing Hu. Experimental study on two-dimensional hydrodynamic dispersion of soluble pollutants in soils, Environmental Science and Engineering Environmental Science,2018.6(EI)

[14] Liang Chen, Chongwu Lei, Chunmu Luo, Correction of the seepage velocity of soluble contaminants in sand with different particle size distribution, Environmental Science and Engineering Environmental Science,2018.6(EI)

[15] Chen, Liang , Zhao, Xiaolong , Lu, Liang. The impact of initial placement conditions on the shear strength of expansive soil,Journal of Computational and Theoretical Nanoscience,2016.4(EI)

[16] Chen, L.; Ding, X.; Hu, H.; Experimental study on the development of the law of fissures of expansive soil under different climatic conditions, Geomechanics from Micro to Macro - Proceedings of the TC105 ISSMGE International Symposium on Geomechanics from Micro to Macro, IS-Cambridge 2014 (EI)

[17] Chen, L.; Zhao, X.L.; Lu, L.; Shear strength test of expansive soils with different cracks development characteristics,Geomechanics from Micro to Macro - Proceedings of the TC105 ISSMGE International Symposium on Geomechanics from Micro to Macro, IS-Cambridge 2014(EI)

[18] Chen, Liang; Chaohu, Hou; Chen, Jiansheng. A back analysis of the temperature field in the combustion volume space during underground coal gasification,Mining Science and Technology (China),2011.1(EI)

[19] Fu, Changjing; Chen, Liang. Researches on the back analysis of seepage field and temperature testing influenced by seepage field, 2011 International Conference on Electric Technology and C ivil Engineering, ICETCE 2011-Proceedings, 2011.2(EI)

[20] Chaohu, Hou; Chen, Liang; Liang, Yue. Inverse analysis of temperature field influenced by seepage on combustion space area in UCG, Geotechnical Special Publication, 2011.1(EI)

[21] Liang, Yue; Chen, Liang; Yan, Xiaolu. Porous media modeling with integrated approach and application in water flow simulation, Applied Mechanics and Materials,2010.1(EI)

[22] Chen, L.; Gong, Y.K.; Liang, Y.; Gao, M.J Conductivity test on fissures development in unsaturated expansive soil, Unsaturated Soils, 2009.1(EI)

[23] Chen, Liang; Zhang, Pei; Lu, Sheng. Analysis of Typical Expansive Soil Slope, Project Geotechnical Engineering for Disaster Mitigation an Rehabilitation, 2008.1(EI)

[24] 陈亮余旺罗春木. 基于静态贯入试验法研究无黏性土管涌发生后抗剪强度变化规律,河南科学,2020.2

[25] 陈亮,张哲,陈成.不同细颗粒含量土体管涌三轴试验研究,河北工程大学学报(自然科学版) , 2019.6

[26] 陈亮,陈成,何健健.考虑相对暴露度的无粘性土临界流速计算方法探讨, 河北工程大学学报(自然科学版),  2019.3

[27] 陈亮,罗春木,秦快乐.堤基非稳定水压力传递滞后效应研究,防灾减灾工程学报,2018.12

[28] 陈亮,何健健,高为壮单孔反稀释模型理论与试验研究,三峡大学学报,2017.10

[29] 姚斌斌,陈亮,李月奇堤坝渗漏广义示踪法室内试验研究,河北工程大学学报2017.6

[30] 陈亮,雷文,张红宇.非稳定流作用下管涌发生发展的室内试验及理论分析,岩土工程学报,2013.4(EI)

[31] 陈亮,卢亮.土体干湿循环过程中的体积变形特性研究,地下空间工程与学报,2013.4

[32] 陈亮,李飞,黄德文.两区模型和变密度模型溶质运移试验对比分析,水利水运工程学报,2013.6

[33] 陈亮,张红宇,雷文无黏性土管涌出砂与渗透性非均匀发展试验研究,岩土工程学报,2012.8(EI)

[34] 梁越,陈亮,陈建生.考虑流固耦合作用的管涌发展数学模型研究,岩土工程学报,2011.8(EI)

[35] 陈亮,卢廷浩,袁俊平.土力学课程教学中的几点体会,东南大学学报(哲学社会科学版),2008.3

 

2. 著作

[1] 陈亮,梁越,张红宇. 无粘性土二元结构空隙流动管涌模型与试验,新葡的京集团35222vip出版社,2013.12.01

[2] 王俊杰,陈亮,梁越. 地下水渗流力学(普通高等教育土木与交通类十二五规划教材) 中国水利水电出版社,2013.06.01

[3] 卢廷浩,刘斯宏,陈亮,袁俊平. 土力学(普通高等教育土木与交通类十一五、十二五规划教材),高等教育出版社, 2010.01.

[4] 叶合欣,黄锦林,陈亮. 堤坝基岩集中渗漏机理与探测,科学出版社,2019.6

 

3. 授权发明专利

[1] 陈亮,陈成,何健健;  ZL201611143982.5; 一种变水头发生装置; 发明专利; 2019.3

[2] 陈亮,高为壮,夏兵兵; ZL201410049473.0 超深水下定深取样的取样方法及取样装置; 发明专利;2016-08-17

[3] 陈亮,高为壮,夏兵兵; ZL201310671817.7 深细井内机械式投源剂均匀投放方法及其投放装置; 发明专利;2016-03-23

[4] 赵敬川,陈亮,赵小龙; ZL201310052803.7 一种研究海堤工程管涌现象的试验装置及试验方法; 发明专利 ;2015-03-04

[5] 陈亮,赵敬川,吴炫; ZL201310038457.7 一种消力池底部渗漏位置的探测方法; 发明专利;2015-08-26

[6] 陈亮,侯超虎,赵天龙; ZL201210025305.9 一种煤层地下燃空区的体积建模方法; 发明专利;2015-03-04

[7] 黄德文,陈亮,林家彬; ZL201310039360.8 一种利用冰封栓塞分段封堵钻孔的装置及方法; 发明专利;2015-07-29

[8] 陈亮,詹沪成,黄德文; ZL201210495052.1 一种地下水水平渗透流速的反稀释测量方法; 发明专利;2015-06-17

[9] 陈亮,赵敬川,夏兵兵; ZL201310138570.2 一种多元堤基管道式管涌型渗透变形的模型及试验方法; 发明专利 ;2014-11-19

[10] 陈亮,王宝田,黄德文; ZL201310038456.2 一种变水头分段渗透系数测量设备及测量方法; 发明专利;2014-12-31

[11] 梁越,陈建生,陈亮; ZL201010103917.6 一种以温度为示踪剂的地下水流速流向探测方法及装置; 发明专利;2014-03-26

[12] 陈亮,梁越,陈建生; ZL200910026153.2 一种研究土体渗透性破坏现象的试验方法及其试验装置; 发明专利;2013-09-25

[13] 陈亮,梁越,陈建生; ZL200910026152.8 一种溶质运移弥散性参数测定方法及其测量装置; 发明专利;2013-09-25

[14] 李刚,陈亮,卢廷浩; ZL201110333475.9 一种浊液搅拌效果的判断装置及方法; 发明专利;2013-06-05

[15] 李刚,陈亮,林统; ZL201110056080.9 一种含水层渗透系数测试系统和测试方法; 发明专利;2013-01-02

[16] 陈亮,袁俊平,高英; ZL201110045837.4 一种土体裂隙深度的探测方法和探测装置; 发明专利;2012-10-24

[17] 陈亮,梁越,吴珺华; ZL200910234282.0 防渗膜防渗效果探测方法; 发明专利;2011-04-20

 

 

联系方式:

13851786012

Chenliang@hhu.edu.cn