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朱玉龙

发布者: [发表时间]:2025-03-29 [来源]:  : 浏览次数:

7B7C


1. 个人简介

朱玉龙,博士,防灾科技学院地震工程与建筑安全学院专任教师中国水力发电工程学会抗震防灾专业委员会青年委员中国岩石力学与工程学会会员中国土木工程学会会员、中国水力发电工程学会会员中国水资源战略研究会会员、日本地盘工学会会员

主要从事多相力学跨尺度多场耦合理论模型与地质灾害(洪水、泥石流、滑坡、雪崩)早期预警系统等方面研究,包括:提出了区域定性-流域定点-局域定量三级灾害预警系统,将日本全国地质灾害早期预警标准推广到季节性寒冷地区;创建了常微分形式的水文-水动力集成理论模型-分布式径流模型(DRM),为广域地表径流分析提供了一种全新的理论模型开发FEM-MPM多数值方法耦合框架,解决了多物理场耦合条件下多孔介质大变形分析的重大难题近年来,在《Hydrology and Earth System Sciences》、《Engineering Geology》、《Landslides》、《Journal of Hydrology》、《Construction and Building Materials、《Journal of Hydrology: Regional Studies等国际顶尖(TOP)期刊和其他SCI/EI期刊发表高水平论文30篇,软著和专利等10余项,主持或参与科研项目10余项,其中国家重点研发计划1项、日本JSPS项目2国家自然科学基金课题2项等

联系方式zhuyulong@cidp.edu.cn

2. 学习与工作经历

[1] 2025.01-至今:防灾科技学院,地震工程与建筑安全学院讲师

[2] 2021.032025.01华北电力大学水利与水电工程学院讲师

[3] 2017.102020.12北海道大学环境工程博士(师从日本工程院院士,国际土力学和岩土工程学会ISSMGE TC202技术委员会主席Ishikawa Tatsuya教授)

[4] 2014.092017.06西南交通大学桥梁与隧道工程硕士(师从晏启祥教授)

[5] 2010.092014.06:西南交通大学,土木工程学士

3. 承担及参与的教学科研项目

科研教研项目

[1] 国家重点研发计划,2025.1-2027.12 冰雪复合链生灾害监测预警与风险防控关键技术,2024YFC3013400,项目骨干,2200

[2] 国家自然科学基金联合基金重点项目,2025.1-2028.12,气候变化与人类活动影响下北方季节性河流生态水文响应与适应性调控,U2443202,第5申报人,技术负责人,260万。

[3] 国家自然科学基金(面上项目),2023.1-2026.12,金沙江下游梯级高坝大库水温变化机理及调控研究,52279064,第3申报人,70.2万。

[4] 中国高等教育学会高等教育科学研究规划课题,(重点项目,一类),2024.6-2026.6,新工科背景下产学研交互式仿真实训平台建设与案例应用研究,24GC02123万,负责人

[5] 中国高等教育学会高等教育科学研究规划课题,(重点项目,二类),2022.6-2024.6,自学考试多元评价体系构建和实施研究,22ZXKS03061参与人,4

[6] 教育部产学合作协同育人项目(教学内容和课程体系改革项目),231106707103316,《水工建筑物》在线虚拟仿真精品课程改革,2024年,第1参与人,5万。

[7] 中央高校基本科研业务费(面上项目)2024.1-2025.12, 山地小流域洪水预报分布式地表径流模型研究,2024MS06910万元,负责人

[8] 中央高校基本科研业务费(面上项目),2021.1-2022.12, 地质灾害早期预警标准的建立与预警系统开发,2021MS0438万元,负责人

[9] 华北电力大学2023年班主任特色教育项目,2023.1-2023.11 “知行合一”本科必修课程的班级实践辅助教学活动,0.2万,负责人

[10] 湖南水利水电职业技术学院,2022.10-2024.12,变化环境下洞庭湖水温演变过程与驱动机制研究,2023-0331参与人,12

[11] 中国水利水电科学研究院,2023.11-2024.6智能监测数据清洗方法研究,KH240100059.8万元,参与(排名第2

[12] 中国水利水电科学研究院,2024.08-2025.12,基于图像分割和语义识别的水工建筑物风险评估方法研究,2024-407,第1参与人,19

[13] 2018.1-2020.3, Japan Society for the Promotion of Science (JSPS), 基础研究(A), 16H02360, 多相力学マルチスケール分析による気候変動下の高緯度寒冷地盤の広域災害リスク評価(基于多相力学和多尺度分析的气候变化下高纬度寒冷地区广域灾害风险评估方法), 4511万日元(276万元人民币), 已结题,参与

[14] 2018.6-2021.3, Japan Society for the Promotion of Science (JSPS),具有挑战性的研究(萌芽), 18K18915, Development of risk assessment method for heavy rain disaster under climate change considering rain habit of high latitude cold ground (气候变化下考虑高纬度寒冷地区降雨特性的强降雨灾害风险评估方法的开发), 611万日元(37万元人民币), 已结题, 参与

[15] 16.2016-2017 地铁盾构区间隧道下穿桥梁施工关键技术研究, 中国电力建设股份有限公司, 项目编号:2016H01040, 已结题, 主研

[16] 17.2015-2016 富水全强风化花岗岩地层非对称小间距隧道施工关键技术研究,中国电建集团铁路建设有限公司, 项目编号:zdzx-07, 已结题, 主研

[17] 2014-2015 新建铁路桥隧设计施工关键技术研究,中国铁路总公司, 项目编号:2014G004-H, 已结题, 参研

4. 代表性教科研论文(*代表通讯作者)

1)科研论文

[1] Zhu Yulong, Gao Yu, Wang Bonan, Binh T. Nguyen, Zhang Yafen, Xue Baolin*. (2025). Distributed simulation of fully coupled hydrological-hydrodynamic model for predicting rainfall-induced runoff/flood in small watersheds. Journal of Hydrology: Regional Studies, 59, 102450. (中科院二区,TOP期刊,IF=4.7)

[2] Zhu Yulong*, Zhang Yafen, Xiang Lu. (2025). Crack Propagation Behavior Modeling of Bonding Interface in Composite Materials Based on Cohesive Zone Method. Buildings, 15(10), 1717. (JCR Q2IF=3.1)

[3] Zhu Yulong, Zhou Yang, Xu Xiaorong, Meng Changqing, Wang Yuankun*. (2024). Ratio Limits of Water Storage and Outflow in Rainfall-runoff Process, Hydrology and Earth System Sciences, 28, 4251-4261, (中科院一区,TOP期刊,IF=5.7)

[4] Zhu Yulong, Liu Ruonan, Zhou Yang, Shui Zhilong, Xu Xiaorong*. (2024). Analytical spatiotemporal distribution equations of viscous slurry grouting pressure during the grouting process in rock fissures. Construction and Building Materials, 430, 136475. (中科院一区,TOP期刊,IF=7.4

[5] Zhu Yulong, Zhang Yafen, Yang Jiaqiang, Binh T. Nguyen, Wang Yuankun*. (2022.9). A novel method for calculating distributed water depth and flow velocity of stormwater runoff during the heavy rainfall events. Journal of Hydrology, 612, 128064. 中科院一区,TOP期刊,IF=6.4

[6] Zhu Yulong, Ishikawa Tatsuya*, Zhang Yafen, Binh T. Nguyen, Srikrishnan Siva Subramanian. (2022.8). A FEM-MPM hybrid coupled framework based on local shear strength method for simulating rainfall/runoff-induced landslide runout. Landslides, 19, 2021-2032. 中科院一区,TOP期刊,IF=6.7

[7] Zhu Yulong, Ishikawa Tatsuya*, Srikrishnan Siva Subramanian, Luo Bin. (2020). Simultaneous analysis of slope instabilities on a small catchment-scale using coupled surface and subsurface flows. Engineering Geology, 275: 105750.中科院一区,TOP期刊,IF=7.4

[8] Binh T. Nguyen, Ishikawa Tatsuya*, Zhu Yulong, Srikrishnan Siva Subramanian, Nguyen, T.T. (2022.4). New simplified transient method for determining the coefficient of permeability of unsaturated soil. Engineering Geology, 106564. 中科院一区,TOP期刊,IF=7.4

[9] Xu Xiaorong, Xiao Anrui, Zhu Yulong, Xu Chao, Zhang Lin, Jin Feng. Heterogeneous temperature characteristics considering rainfall effect during construction of an integrally-poured rock-filled concrete arch dam, Construction and Building Materials, 450, 138626, 2024. (中科院一区,TOP期刊,IF=7.4

[10] Zhang Yafen, Zhu Yulong*. Investigation of Heavy Rainfall Induced Runoff Analysis at Small Catchment Scale by Using Distributed Runoff Models, XVIII World Water Congress(第18届世界水资源大会),主旨报告. https://www.iwra.org/proceedings/congress/resource/IWRA2023_Beijing_China_5_O_3_1_45_Investigation_of_Heavy_Rainfall_Induced_Runoff_Analysis_at_Small_Catchment_Scale_by_Using_Distributed_Runoff_Models.pdf

[11] Zhu Yulong, Ishikawa Tatsuya*, Srikrishnan Siva Subramanian, Luo Bin. (2020). Early warning system for rainfall and snowmelt induced slope failure in seasonally cold regions. Soils and foundations, 61(1): 198-217. JCR Q1IF=3.7

[12] Zhu Yulong, Ishikawa Tatsuya*, Srikrishnan Siva Subramanian. (2020). Simulation of runoff and infiltration using iterative cross-coupled surface and subsurface flows. Japanese Geotechnical Society Special Publication, 8 (3): 41-46. (日本岩土工程学会会刊)

[13] Meng Changqing, Dong Zijiao, Liu Keying, Wang Yuankun, Zhang Yuqing, Zhu Yulong*, 2024, Identification and analysis of evolution characteristics of flash drought based on three-dimensional perspective: A case study in the Jialing River basin, Urban Climate, 53, 101803. (通讯作者,JCR Q1IF=6.4

[14] Zhou Yang, Leng Yiling, Wang Pengyu, Zhang Shanghong, Zhu Yulong*, Yi Yujun. (2024). Effectiveness of Urban Distributed Runoff Model for Discharge and Water Depth Calculation in Urban Drainage Pipe Networks. Journal of Hydrodynamics, 36, 582-591 (2024). (通讯作者,JCR Q1IF=3.4

[15] Zhang Yafen, Zhu Yulong*, Yan Xiaoyu, Li Sshu, Yu Qijing, Wang Yidan. (2022.8). A determination method of rainfall type based on rainfall-induced slope instability. Natural Hazards, 113, 315-328.通讯作者,JCR二区,IF=3.7

[16] Zhu Yulong, Ishikawa Tatsuya*, Yamada J. Tomohito, Srikrishnan Siva Subramanian. (2021.7). Probability assessment of slope instability in seasonally cold regions under climate change. Journal of Infrastructure Preservation and Resilience, 2(1): 1-15. EIDOIhttps://doi.org/10.1186/s43065-021-00034-1

[17] Zhu Yulong, Srikrishnan Siva Subramanian, Ishikawa Tatsuya. (2018.1). Evaluating Applicability of Coupled Numerical Methods for Slope Runout Analysis. 58th Annual meeting of Hokkaido Branch Japanese Geotechnical Society. 309-318.

[18] Zhu Yulong, Ishikawa Tatsuya, Shimizu Yasuyuki. (2018.9). Surface Flow Analysis of Typhoon 10 Induced Slope Failure Based on Digital Elevation Modeling. 9th Symposium on Sediment-Related Disasters. 121-126.

[19] Zhu Yulong, Ishikawa Tatsuya. (2018.12). Effects of Climate Change on Slope Failure in Snowy Cold Regions. 61st Symposium of Japanese Geotechnical Society. No. 6-5, 1-6.

[20] Ishikawa Tatsuya, Zhang Tingyong, He Wentao, Zhu Yulong, Kawamura Shima. (2024). Role of road network for prevention and mitigation of runoff-induced geo-disaster under climate change. Transportation Geotechnics, 101283. (JCR一区,IF=4.9

[21] Zhang Yafen, Liu Ruonan, Zhang Ruicheng. Yan Xiaoyu, Zhao Zhuo. Zhu Yulong. Effect of Constrictivity of Gel/Capillary Pores in Concrete on Chloride Ions Migration. Iran J Sci Technol Trans Civ Eng (2024). (JCR三区,IF=1.7)

[22] Binh T. Nguyen, Ishikawa Tatsuya, He Wentao, Srikrishnan Siva Subramanian, Zhu Yulong. (2024). Effect evaluation of grass on shallow stability of unsaturated volcanic soil slope in seasonal cold region. Bulletin of Engineering Geology and the Environment, 83(1), 30. JCR一区,IF=4.2

[23] Si Junling., Liu Shanpeng, Zhang Huijian, Zhu Yulong, Zheng Yuchao. (2023). Failure investigation and treatments of tunnel entrance collapse in weak diatomaceous soil induced by heavy rainfall through coupling surface and groundwater flows. Engineering Failure Analysis, 107337.JCR一区,IF=4

[24] He Wentao, Ishikawa Tatsuya, Zhu Yulong. (2023). Wide / narrow-area slope stability analysis considering infiltration and runoff during heavy precipitation, Soils and Foundations, 63(1): 101248. JCR一区,IF=3.7

[25] Yang Jiaqiang, Zhu Yulong, Miao Pengyong. (2022). Effect Evaluation of Train Speed and Embankment Stiffness on Ground Vibrations Using Numerical Simulation. Applied Sciences, 12(24), 12536.JCR二区,IF=2.7

[26] Zhou Yang, Yi Yujun, Liu Hongxi, Tang Caihong, Zhu Yulong, Zhang, Shanghong. (2022.10). Effect of geomorphologic features and climate change on vegetation distribution in the arid hot valleys of Jinsha River, Southwest China. Journal of Mountain Science, 19(10), 2874-2885. JCR二区,IF=2.5

[27] Zhang Yafen, Yokota, Hiroshi*, Zhu Yulong. (2019). Sensitivity analyses on chloride ion penetration into undersea tunnel concrete. Journal of Advanced Concrete Technology, 17(10): 592-602. JCR三区,IF=2

[28] Li Xuesen, Ishikawa Tatsuya, Zhu, Yulong. (2024.3). Estimation of landslide during heavy rainfall based on FEM-MPM modelIOP Conf. Ser.: Earth Environ. Sci. 1334 012009.  EI

[29] Binh T. Nguyen, Zhu, Yulong. (2024.3). Simple method to determine coefficient of permeability of unsaturated soil. IOP Conf. Ser.: Earth Environ. Sci. 1330 012058. EI

[30] Zhang Yafen, Yokota Hiroshi, Zhu Yulong. Deterioration of Tunnel Concrete Caused by Chloride Ion Penetration Based on Fluid-Solid Coupling Analysis. The 8th International Conference of Asian Concrete Federation. 1: 603-611, Fuzhou, China, 2018.11.7th-9th.

[31] 杨家强, 朱玉龙, 奚邦禄, . 不同含水率下脏污道砟累积塑性变形预测[J].岩土力学, 2024, 45(S1):715-722. DOI:10.16285/j.rsm.2023.0865.

[32] 石川達也, 朱玉龍, Srikrishnan Siva Subramanian, 羅斌:降雨・融雪に起因する積雪寒冷地斜面の広域土砂災害リスク評価, 令和2年度日本地すべり学会北海道支部研究発表会予稿集, 13-16, 2021.1.

[33] 石川達也, 朱玉龍. 降雨/融雪時の浸透・流出を考慮した三次元斜面安定解析,地盤工学会誌,Vol.71, No.2, pp.4-8, 2023.2

[34] 村上朱明, 笠間清伸, 朱玉龍, 石川達也. 広域斜面安定解析を用いた土砂災害警戒基準の検証,第58回地盤工学研究発表会,13-7-1-032023.7.

[35] 朱玉龙, 赵青, 晏启祥. (2016). 土压平衡盾构隧道下穿城市景观河道受力特性模拟研究. 路基工程. 2016(6): 68-71.  doi:10.13379/j.issn.1003-8825.2016.06.15  

[36] 朱玉龙, 赵青, 朱得海, 李力, 张亚芬. (2016). 盾构隧道施工对邻近桥梁桩基的影响分析. 路基工程, 2016(3):167-170.  doi:10.13379/j.issn.1003-8825.2016.03.35

5. 知识产权

[1] 《工程经济》,项勇,魏瑶,朱玉龙,卢立宇,霍海娥,国家开放大学出版社,北京,2024

[2] Zhu Yulong, Ishikawa Tatsuya, Srikrishnan Siva Subramanian. (2021) Integrated Modeling of Fully Coupled Two-Phase Surface and Subsurface Flow. In: Barla M., Di Donna A., Sterpi D. (eds) Challenges and Innovations in Geomechanics. IACMAG 2021. Lecture Notes in Civil Engineering, vol 125. Springer, Cham. https://doi.org/10.1007/978-3-030-64514-4_71

[3] Zhang Yafen, Yokota Hiroshi, Miao Pengyong, Zhu Yulong. (2021) Application of Knowledge Management and BIM Technology for Maintenance Management of Concrete Structures. In: Wang C.M., Dao V., Kitipornchai S. (eds) EASEC16. Lecture Notes in Civil Engineering, vol 101. Springer, Singapore. https://doi.org/10.1007/978-981-15-8079-6_195

[4] 软件著作权朱玉龙, 张亚芬, 朱得海, 杨家强, 吴金标, 王远坤, 徐小蓉, 陈柘兴. 分布式地表径流计算软件(Drodec v1.0, 登记号:2021SR1552641, 2021.10.25

[5] (软件著作权)徐小蓉, 朱玉龙. 科学研究团队管理与论文管理系统V1.0, 登记号:2022SR0326676, 2022.3.9

[6] (软件著作权)徐小蓉,朱玉龙,徐超,王薇,张林,郭超,大型抽水蓄能电站运行特性虚拟仿真实验教学系统,2024SR05341772024-01-18

[7] (发明专利)朱玉龙,张亚芬,杨家强,王远坤,基于水文-水动力集成模型的洪水高效预警方法及其应用,ZL 2022 1 0419901.9,授权日期:2024.7.23

[8] (发明专利)朱玉龙,王鹏宇,王远坤,冷依凌,武其月,何文峰,基于水文-水动力模型管网排水能力及土地利用规划方法, CN202310215802.3

[9] (发明专利)张亚芬,朱玉龙,余其竞,王艺丹,刘洋, 一种积雪深度和雪质断面的监测车,CN202111461629.22022-03-11

[10] (发明专利)周扬,付晟君,朱玉龙,陈政宇,一种智慧街道局部调温系统,CN202310750220.5

[11] (发明专利)郭苗,申艳,姜姿云,王薇,朱玉龙,一种自由液面吸气漩涡消除装置,CN202310841436.2

[12] (发明专利)郭苗,申艳,王薇,朱玉龙 一种抽水蓄能电站及深邃泵站综合模型试验台及使用方法, CN202310398868.0

[13] (发明专利)周扬,朱玉龙,张尚弘,唐彩红, 一种改进的分布式TANK水文模型及水文预报方法,CN202410349174.2

[14] (实用新型)朱玉龙,汤旭,水智龙,张世平,一种倒门式结构的山坡径流水深测量设备,授权号:ZL 2022 2 0594021.0 授权日期:2022.8.16

[15] (实用新型)朱玉龙,张世平,水智龙,汤旭, 一种用于测量坡面地表径流流速的仪器,授权号:ZL 2022 2 0593978.3,授权日期:2022.8.16

[16] (实用新型)朱玉龙,水智龙,张世平,汤旭,用于处理三格式化粪池第三格污水的装置以及污水处理站,授权号:ZL 2022 2 0549338.2  授权日期:2022.8.16