永利集团3044(中国)官网-App Store

地下空间工程系

严成增*

发布时间:Mar 16, 2018点击量:

1.基本信息

教授、博士生导师、香江学者、入选20232022年全球前2%顶尖科学家榜单,获2021年度Scott Sloan最佳论文奖,20222021年度领跑者5000中国精品科技期刊顶尖学术论文奖主要从事有限-离散元法(FDEM)、岩土材料多尺度、多物理场、多相断裂破碎数值模拟方法、高性能并行计算、机器学习、数字孪生及其在能源(石油天然气水力压裂开采)、岩土(边坡、隧道)等领域的应用研究,研制了相应的数值模拟软件。

担任SCI期刊Applied sciences特刊Multiphysics Modeling for Fracture and Fragmentation of Geomaterials”客座主编。

邮箱:yancz@cug.edu.cn 微信:hkust_2019

欢迎对研究方向感兴趣的同学报考土木工程,地质工程、资源与环境专业(地质工程方向)的推免和统考硕士研究生(专硕和学硕均可)和土木工程博士研究生,同时欢迎优秀调剂生。

 

2.教育与工作经历

2020.05-至今 中国地质大学(武汉)永利集团3044 教授

2017.05-2020.04 中国地质大学(武汉)永利集团3044 特任教授

2019.12-2021.12 香港科技大学 香江学者

2010.09-2015.06 中国科学院大学 岩土工程 博士学位

3.科研项目

(1)2019年度香江学者计划(XJ2019040), 2020.1-2021.12 (主持)

(2)国家自然科学基金面上项目(11872340), 2019.1-2022.12 (主持)

(3)国家自然科学青年基金项目(11602006), 2017.1-2019.12 (主持)

(4)多物理场断裂分析软件MultiFracS的国产DCU加速器并行化, 2022.4-2023.4 (主持)

(5)横向项目:盾构开挖和TBM掘进过程的数值仿真研究2022.9-2023.12. (主持)

(6)横向项目:酸压裂缝起裂及扩展数值模拟研究,2022.10-2022.11. (主持)

(7)开放基金:爆破破岩断裂破碎全过程精细建模及爆破损伤控制,2022.11-2024.10. (主持)

(8)横向项目:开挖爆破对既有隧道影响及控制措施研究, 2019.1-2021.12 (主持)

(9)横向项目:基于高保真数值模拟+机器学习的地下工程变形破坏快速预测方法,2021.1-2022.12 (主持)

(10)中国地质大学(武汉)杰出人才培育基金项目(G1323541791), 2017-2020 (主持)

(11)北京市自然科学青年基金项目(1174012), 2017.1-2018.12 (主持)

(12)中国博士后科学基金项目(No:2015M580953), 2015.11-2016.12 (主持)

(13)朝阳区博士后科研活动经费资助(No:2016ZZ-01-08), 2016.6-2017.4 (主持)

4.学术论文

(1)Ali S, Yan Chengzeng*, Wang T, Zheng Y, et al. Evaluating the impact of calcite and heterogeneity on the mechanical behavior of coal: A numerical study with grain-based finite-discrete element method. Engineering Fracture Mechanics, 2024.

(2)Yan Chengzeng*, Wang T, Zheng Y, et al. Insights into the Effect of Water Content on Mudstone Fragmentation and Cutter Force during TBM Cutter Indentation via the Combined Finite-Discrete Element Method. Rock Mechanics and Rock Engineering, 2024: 1-36.

(3)Guo H, Yan Chengzeng*, Zhang G, et al. Mechanical analysis of toppling failure using FDEM: A case study for soft-hard interbedded anti-dip rock slope. Computers and Geotechnics. 2024, 165: 105883.

(4)Zheng Y, Yan Chengzeng*, Zheng H. Modified joint element constitutive model for FDEM to simulate the nonlinear mechanical behavior of rocks. Computers and Geotechnics. 2023.

(5)Luo Z, Yan Chengzeng*, Ke W, et al. A surrogate model based on deep convolutional neural networks for solving deformation caused by moisture diffusion. Engineering Analysis with Boundary Elements, 2023.

(6)Wang T, Yan Chengzeng*, Han D, Ali S, Zheng H. Insights into the breaking mechanism and fragment pattern of soft rock assisted by free face under TBM wedge cutter indentation. Engineering Fracture Mechanics, 2023, 109580.

(7)Wang T, Gao R, Yan Chengzeng*. Dynamic fragmentation and chip formation of water-soaked rock in linear cutting with a coupled moisture migration fracture model. Computers and Geotechnics. 2023, 163: 105723.

(8)Yan Chengzeng*, Wang Y, Xie X, et al. A 2D continuous-discrete mixed seepage model considering the fluid exchange and the pore pressure discontinuity across the fracture for simulating fluid-driven fracturing. Acta Geotechnica. 2023, 10.1007/s11440-023-01974-6.

(9)Yan Chengzeng, Zheng Y, Wang G. A 2D adaptive finite-discrete element method for simulating fracture and fragmentation in geomaterials. International Journal of Rock Mechanics and Mining Sciences. 2023,169:105439.

(10)Wang T, Yan Chengzeng*, Zheng H, et al. Optimum spacing and rock breaking efficiency of TBM double disc cutters penetrating in water-soaked mudstone with FDEM. Tunnelling and Underground Space Technology. 2023,138:105174.

(11)Wang T, Yan Chengzeng*. Investigating the influence of water on swelling deformation and mechanical behavior of mudstone considering water softening effect. Engineering Geology. 2023,318:107102.

(12)Yan Chengzeng*, Zhao Z, Yang Y, Zheng H. A three-dimensional thermal-hydro-mechanical coupling model for simulation of fracturing driven by Multiphysics. Computers and Geotechnics. 2023, 155,105162.

(13)Wang T, Yan Chengzeng*, Zheng H, et al. Microfracture behavior and energy evolution of heterogeneous mudstone subjected to moisture diffusion. Computers and Geotechnics. 2022, 150:104918.

(14)Yan Chengzeng, Ma H, et al. A two-dimensional moisture diffusion continuous model for simulating dry shrinkage and cracking of soil. International Journal of Geomechanics.2022,22(10):04022172.

(15)Wang T, Yan Chengzeng*, Wang G, et al. Numerical study on the deformation and failure of soft rock roadway induced by humidity diffusion. Tunnelling and Underground Space Technology. 2022,126:104565.

(16)Yan Chengzeng, Guo H, et al. Three-dimensional continuous-discrete pore-fracture mixed seepage model and hydromechanical coupling model to simulate rock fracture driven by fluid. Journal of Petroleum Science and Engineering. 2022,215(B): 110510.

(17)Wang T, Yan Chengzeng*, Zheng Y, et al. Numerical study on the effect of meso-structure on hydraulic conductivity of soil-rock mixtures. Computers and Geotechnics. 2022, 146:104726.

(18)Yan Chengzeng, Gao Y, Guo H. A FDEM based 3D discrete mixed seepage model for simulating fluid driven fracturing. Engineering Analysis with Boundary Elements. 2022, 140:447-463.

(19)Yan Chengzeng, Wang T, Gao Y, Ke W, Wang G. A three-Dimensional grouting model considering hydromechanical coupling based on the combined finite-discrete element method. International Journal of Geomechanics. 2022, DOI: 10.1061/(ASCE)GM.1943-5622.0002448.

(20)Yan Chengzeng, Luo Z, Zheng Y, et al. A 2D discrete moisture diffusion model for simulating desiccation fracturing of soil. Engineering Analysis with Boundary Elements. 2022, 138:42-64.

(21)Yan Chengzeng, Xie X, Ren Y, Ke W, Wang G. A FDEM-based 2D coupled thermal-hydro-mechanical model for multiphysical simulation of rock fracturing.  International Journal of Rock Mechanics and Mining Sciences. 2022, 149:104964.

(22)Yan Chengzeng, Wei D, Wang G. Three-dimensional finite discrete element-based contact heat transfer model considering thermal cracking in continuous-discontinuous media. Computer Methods in Applied Mechanics and Engineering. 2022, 388:114228.

(23)Yan Chengzeng, Tong Y, Luo Z, Ke W, Wang G. A two-dimensional grouting model considering hydromechanical coupling and fracturing for fractured rock mass. Engineering Analysis with Boundary Elements. 2021,133(1): 385-397.

(24)Yan Chengzeng, Zheng Y, Ke W, Wang G. A FDEM 3D moisture migration-fracture model for simulation of soil shrinkage and desiccation cracking. Computers and Geotechnics. 2021, 140:104425.

(25)Yan Chengzeng, Wang T, Ke W, Wang G. A 2D FDEM-based moisture diffusion–fracture coupling model for simulating soil desiccation cracking. Acta Geotechnica. 2021, 16:2609-2628.

(26)Yan Chengzeng, Wang X, Huang D, Wang G.A new 3D continuous-discontinuous heat conduction model and coupled thermomechanical model for simulating the thermal cracking of brittle materials. International Journal of Solids and Structures. 2021, 229(15):11123.

(27)Yan Chengzeng, Fan H, Huang D, Wang G. A 2D mixed fracture-pore seepage model and hydromechanical coupling for fractured porous media. Acta Geotechnica. 2021,16(10): 3061–3086.

(28)Yan Chengzeng, Yang Y, Wang G. A new 2D continuous-discontinuous heat conduction model for modeling heat transfer and thermal cracking in quasi-brittle materials. Computers and Geotechnics. 2021, 137:104231.

(29)Yan Chengzeng, Zheng Y, Huang D, Wang G. A coupled contact heat transfer and thermal cracking model for discontinuous and granular media. Computer Methods in Applied Mechanics and Engineering. 2021, 375:113587.

(30)Yan Chengzeng, Fang H, Zheng Y, et al. Simulation of thermal shock of brittle materials using the finite-discrete element method. Engineering Analysis with Boundary Elements. 2020, 115:142-155.

(31)Yan Chengzeng, Tong Y. Calibration of microscopic penalty parameters in the combined finite-discrete element method. International Journal of Geomechanics. 2020, 20(7):04020092.

(32)Yan Chengzeng, Ren Y, Yang Y. A 3D thermal cracking model for rock based on the combined finite-discrete element method. Computational Particle Mechanics. 2020, 7:881-901.

(33)Yan Chengzeng, Jiao Y-Y. A 2D discrete heat transfer model considering the thermal resistance effect of fractures for simulating the thermal cracking of brittle materials. Acta Geotechnica. 2020, 15:1303-1319.

(34)Yan Chengzeng, Jiao Y-Y, Zheng H. A threedimensional heat transfer and thermal cracking model considering the effect of cracks on heat transfer. International Journal for Numerical and Analytical Methods in Geomechanics. 2019;43(10):1825- 1853.

(35)Yan Chengzeng, Jiao Y-Y. FDEM-TH3D: A three-dimensional coupled hydrothermal model for fractured rock. International Journal for Numerical and Analytical Methods in Geomechanics. 2019;43(1):415-440.

(36)Yan Chengzeng, Jiao Y-Y. A 2D coupled hydro-thermal model for the combined finite-discrete element method. Acta Geotechnica. 2019;14(2):403-416.

(37)Yan Chengzeng, Jiao Y-Y. A 2D fully coupled hydro-mechanical finite-discrete element model with real pore seepage for simulating the deformation and fracture of porous medium driven by fluid. Computers & Structures. 2018;196:311-326.

(38)Yan Chengzeng, Jiao Y-Y, Zheng H. A fully coupled three-dimensional hydro-mechanical finite discrete element approach with real porous seepage for simulating 3D hydraulic fracturing. Computers and Geotechnics. 2018;96:73-89.

(39)Yan Chengzeng, Zheng H. A coupled thermo-mechanical model based on combined finite-discrete element method for simulating thermal cracking of rock. International Journal of Rock Mechanics and Mining Sciences. 2017;91:170-178.

(40)Yan Chengzeng, Zheng H. FDEM-flow3D: a 3D hydro-mechanical coupled model considering the pore seepage of a rock matrix for simulating three-dimensional hydraulic fracturing. Computers and Geotechnics. 2017;81:212-228.

(41)Yan Chengzeng, Zheng H. A new potential function for the calculation of contact forces in the combined finite–discrete element method. International Journal for Numerical and Analytical Methods in Geomechanics. 2017;41(2):265-283.

(42)Yan Chengzeng, Zheng H, Sun G, Ge X. Combined finite-discrete element method for simulation of hydraulic fracturing. Rock Mechanics and Rock Engineering. 2016;49(4):1389-1410.

(43)Yan Chengzeng, Zheng H. A two-dimensional coupled hydro-mechanical finite-discrete model considering porous media flow for simulating hydraulic fracturing. International Journal of Rock Mechanics and Mining Sciences. 2016;88:115-128.

(44)Yan Chengzeng, Zheng H. Three-dimensional hydromechanical model of hydraulic fracturing with arbitrarily discrete fracture networks using finite-discrete element method.International Journal of Geomechanics. 2016;17(6):04016133.

(45)Tang Z, Yan Chengzeng*. New empirical criterion for evaluating peak shear strength of unmatched discontinuity with different joint wall compressive strengths. Rock Mechanics and Rock Engineering. 2022, https://doi.org/10.1007/s00603-022-02939-z.

(46)Han D, Fan H*, Yan Chengzeng*, et al. Heat conduction and cracking of functionally graded materials using an FDEM-based thermo-mechanical coupling model. Applied Sciences. 2022, 12(23), 12279.

(47)Ke W, Wang X*, Yan Chengzeng*, Qiao C. Numerical study of rock damage mechanism induced by blasting excavation using finite discrete element method. Applied Sciences. 2022,12(15):7517.

(48)Huang K, Dai Z, Yan Chengzeng, et al. Swelling behaviors of heterogeneous red-bed mudstone subjected to different vertical stresses. Journal of Rock Mechanics and Geotechnical Engineering, 2023.

(49)Huang Kang, Dai Zhangjun, Yan Chengzeng, Chen Shanxiong. Numerical study on the swelling and failure of red-layer mudstone subgrade caused by humidity diffusion. Computers and Geotechnics. 2023, 156,105272.

(50)Ding H, Fu X, Sheng Q, et al. Study on Macroscopic Mechanical Behavior and Meso-failure Evolution of Gabbro of Different Particle Sizes. Rock Mechanics and Rock Engineering. 2023:1–17.

(51)Li Y M, Zhao G F, Jiao Y, Yan Chengzeng, et al. A benchmark study of different numerical methods for predicting rock failure. International Journal of Rock Mechanics and Mining Sciences, 2023, 166: 105381.

(52)Huang M, Jiao YY, Luo J, Yan Chengzeng, et al. Numerical investigation on heat extraction performance of an enhanced geothermal system with supercritical N2O as working fluid. Applied Thermal Engineering. 2020, 176:115436.

(53)Yang Y, Sun G, Zheng H, Yan Chengzeng. An improved numerical manifold method with multiple layers of mathematical cover systems for the stability analysis of soil-rock-mixture slopes. Engineering Geology. 2020, 246: 105373.

(54)Zou JP, Jiao YY, Tang Z, Ji YL, Yan Chengzeng, Wang JC. Effect of mechanical heterogeneity on hydraulic fracture propagation in unconventional gas reservoirs. Computers and Geotechnics, 2020, 125: 103652.

(55)严成增,郑 宏,孙冠华,葛修润.模拟水压致裂的二维FDEM-flow方法. 岩石力学与工程学报, 2015, 35 (1): 67-75 (EI).

(56)严成增,郑 宏,孙冠华,葛修润. 三维FEM/DEM中摩擦力的实施及验证. 岩石力学与工程学报, 2014, 33 (6): 1248-1256 (EI)

(57)严成增,郑 宏,孙冠华,葛修润. 基于FDEM-flow研究地应力对水力压裂的影响. 岩土力学 2016, 37(1): 237-246 (EI)

(58)严成增,郑 宏,孙冠华,葛修润. 基于OpenMP的二维有限元-离散元并行分析方法. 岩土力学, 2014, 35 (9): 2717-2724 (EI)

(59)严成增,郑 宏,孙冠华,葛修润. 基于数字图像技术的岩土材料有限元-离散元分析. 岩土力学, 2014, 35 (8): 2408-2414 (EI)

(60)严成增,孙冠华,郑 宏,葛修润. 基于局部单元劈裂的FEM/DEM自适应分析方法. 岩土力学, 2014, 35 (7): 2064-2070 (EI)

(61)严成增,郑 宏,葛修润. 基于统一标定的FEM/DEM势接触力计算. 岩土力学 2015, 36 (1): 249-256 (EI)

(62)严成增,孙冠华,郑 宏,葛修润. 爆炸气体驱动下岩体破裂的有限元-离散元模拟. 岩土力学, 2015, 36(8): 2419-2425 (EI)

(63)严成增. 模拟水压致裂的另一种二维 FDEM-flow 方法. 岩土力学, 2017, 38(6): 1789-1796. (EI)

(64)严成增,郑 宏,孙冠华,葛修润. 粗粒料多边形表征及二维FEM/DEM分析. 岩土力学, 2015, 36(supp.2):95-103 (EI)

(65)严成增. FDEM-TM方法模拟岩石热破裂. 岩土工程学报, 2018,40(7):1198-1204. (EI)

(66)严成增,郑 . 基于FDEM-flow的多孔水力压裂模拟.长江科学院院报, 2016,33(7):63-67. (核心)

(67)严成增,郑宏. 基于FDEM-flow方法研究非均质性对水力压裂的影响. 地下空间与工程学报, 2016,12(supp.2):625-631.

(68)尹小涛, 郑宏, 王水林, 李春光, 严成增. 基于颗粒流数值实验的碎石含量和尺寸对碎石土边坡稳定性影响机制研究(C). 颗粒材料计算力学研究进展. 2012 (会议)

5.学术讲座及会议报告

2023.12,仿真秀在线讲座,特邀讲座2小时

2023.11,武汉,工程地质前沿数值方法即物质点法分析研讨会特邀报告

2023.11,合肥,第三届损伤与断裂力学及其工程应用研讨会,特邀报告

2023.11,千岛湖,高性能离散元计算分析软件研发探讨会,特邀报告

2023.10,北京,China Rock 2023 MultiFracS技术培训班,8个小时

2023.10,石家庄,工业软件基础科学和共性技术研讨会 专题报告

2023.08,武汉,第十一届地面岩石工程高端论坛 特邀报告

2023.05,南京,第十六届全国青年岩石力学与工程学术大会 专题报告

2023.04,济南,第六届连续-非连续分析方法及应用学术研讨会 特邀报告

2023.04,武汉,全国岩土力学数值分析与解析方法研讨会 专题报告

2023.04,成都,数值计算在地球科学中的应用学术论坛 特邀报告

2023.03,武汉,陈宗基讲座,大会报告

2023.01,北京,中国石油勘探开发研究院,特邀讲座2.5个小时

2022.12,加拿大多伦多大学举办的FDEM Global Workshop, 特邀报告,半小时

2022.11北京,China Rock 2022 MultiFracS技术培训班,8个小时

2022.10,寇享学术在线讲座,特邀讲座2小时

2022.09,武汉,中交二航局技术中心,特邀讲座2小时

2022.09,仿真秀在线讲座,特邀讲座2小时

2022.09,武汉,中国科学院武汉岩土力学研究所,2.5小时

2022.05,海口,海南大学,特邀讲座1.5小时

2022.03,武汉,中国科学院武汉岩土力学研究所,特邀讲座 2.5小时

2022.01,西安,长安大学,特邀讲座3小时

2021.12,香港,香港理工大学,特邀讲座2小时

2021.10,北京,第二届岩土工程国产软件发展论坛特邀报告

2021.06,天津,天津大学-北洋岩石力学论坛系列讲座特邀报告2.5小时

2020.12,香港,The 24th Annual Conference of HKSTAM 2020专题报告

2019.11,北京,China Rock 2019第十六次中国岩石力学与工程学术年会,多场多尺度岩土力学与工程,专题报告

2019.09,武汉,“石根华客座教授聘任仪式”暨非连续变形分析学术研讨会,大会报告

2019.07,成都,2019(第二届)中国油气勘探开发技术论坛,大会报告

2019.04,武汉,岩土物理化学前沿交叉青年论坛,特邀报告

2018.11,北京, China Rock 2018第十五次中国岩石力学与工程学术年会, 深部岩体力学及深地热开发新进展 特邀报告

2018.11,北京, China Rock 2018第十五次中国岩石力学与工程学术年会, 非常规油气岩石力学与钻采新技术 专题报告

2018.11,武汉, 第一届全国资源能源领域青年学者论坛 专题报告

2018.11,武汉, 武汉大学土木建筑永利集团3044 特邀讲座 1.5小时

2018.11,武汉, CouFrac: International Conference on Coupled Processes in Fractrued Geological Media: Observation, Modeling, and Application 专题报告

2018.04,郑州,第二届连续-非连续数值分析方法及应用学术研讨会(GDEM) 专题报告

2018.03,昆明,2018年陈宗基讲座 大会报告

2017.12,南宁,首届绿城岩土论坛 特邀报告

2017.10,沈阳,第十四届青年岩石力学大会 专题报告

2016.11,重庆,第九届青年岩土力学大会 专题报告

2016.11,武汉,2016年陈宗基讲座 专题报告

2016.08,兰州,第十二届全国岩土力学数值分析与解析方法研讨会 专题报告

2016.08,大连,The 7th International Conference on Discrete Element Methods 专题报告

 

版权信息:©永利集团3044ALL Rights Reserved    地址:湖北省武汉市洪山区鲁磨路388号永利集团3044