闫旭峰,男,汉族,1987.8.5生于重庆市,2010.9-2018.11在四川大学、香港理工大学本硕博学习。任职于四川大学山区河流保护与治理全国重点实验室/水利水电学院,2018.12 –2020.09 任助理研究员, 2020.09 - 至今 任副研究员(四川大学优秀青年教师破格),硕士生导师,入选四川省高层次引进人才(峨眉计划)。主要研究方向:山区河流植被水沙运动及河床演变理论分析及数值模拟、山洪水沙过程监测模拟及其灾害防治理论与技术。主持包括国家自然科学基金项目(青年、面上)、国家重点研发计划专题3项、二次科考子任务等多项国家级项目子课题、四川省自然科学基金面上项目。在《Water Resources Research》《Journal of Hydrology》《Journal of Hydraulic Engineering》《Journal of Hydraulic Research》等期刊发表学术期刊近50篇,授权发明专利10项。担任Catena,Journal of Hydraulic Engineering, Journal of Hydrology, Science of The Total Environment, Environmental Fluid Mechanics等国际著名学术期刊审稿人。担任《应用基础与工程科学学报》(EI)和《华北水利水电大学学报》青年编委、《FRONT EARTH SC》(SCI)编委。担任2019年世界泥沙大会(ISRS2019)分会场主席,任国际水文科学协会中国委员会陆地侵蚀分委员会(CNC-IAHS-CCE)青年委员。四川省长江生态环境保护民主监督专家组成员。长期与香港理工大学、香港大学、奥地利维也纳大学保持合作。
主持的主要科研项目:
l 国家自然科学基金面上项目(52479069):人为强干扰条件下山前卵砾石河流形态演化机理研究,2025/1-2028/12,主持
l 国家重点研发计划子课题(2023YFC3008301-04):气候变化条件下高山区灾害链风险源判识指标与表征,2024/1-2026/12,主持
l 第二次青藏高原综合科学考察研究任务子专题子课题子任务(2019QZKK0204-01):水系固体物质通量观测及推移质多源信号智能采集系统研发-多功能水下机器人试制,2019/11-2022/10,主持
l 国家重点研发计划子课题(2019YFC1510702-04):山洪水沙多要素一体化智能监测与传输技术,2020/1-2022/12,主持
l 国家自然科学基金青年项目(51909178):植被河段宽级配泥沙分选造床与河势变迁动力机制研究,2020/1-2022/12,主持
l 四川省自然科学基金-面上项目(2023NSFSC0283):汶川震区河流固体物源监测及水沙灾害风险研究,2023/1-2024/12,主持
l 长江水利委员会长江科学院实验室开放基金:2022/1-2023/12,主持
l 国家自然科学基金-联合基金项目(U20A20111):冰碛土滑坡-泥石流-堰塞湖灾害链发展过程的机理与模拟,2021/1-2024/12,参研
近年发表的主要学术论文:
(1)作为第一作者/通讯作者发表的期刊论文
l Yan XF, Wang XK*. Improving modeling of submerged canopy flows with a vortex-based Spalart–Allmaras model[J]. Journal of Hydrology, 2024: 131174.
l Nie YP, Wang XK, Yan XF*. CFD-DEM-based evaluation of main-channel sediment transport processes subject to supplement from a steep tributary[J]. Engineering Geology, 2024: 107498.
l Lan L, Wang YG, Chen HS, Gao XR, Wang XK, Yan XF*. Improving on mapping long-term surface water with a novel framework based on the Landsat imagery series[J]. Journal of Environmental Management, 2024, 353: 120202.
l Song SY, Wang XK, Duan HF, Stocchino A, Yan XF*. Numerical investigation of a three-dimensional flow structure influenced by the lateral expansion of a partially distributed submerged canopy[J]. Physics of Fluids, 2024, 36(8).
l Wang ZR, Zhang SJ, Jiang YX, Yao ZD, Yan XF*. Evaluating shallow mixing layer in partially-distributed canopy flows using DA-LES: bed friction, water shallowness and canopy denseness[J]. Engineering Applications of Computational Fluid Mechanics, 2024, 18(1): 2298075.
l Wang YG, Kong J, Lan L, Zhong L, Wang XK, Yan XF*. Assessing the Gumbel-Logistic Model’s performance in modeling long-term rainfall series in a high-latitude plain region[J]. Theoretical and Applied Climatology, 2024: 1-15.
l Wang XK, Cheng K, Luo M, Yan XF*. Numerical assessment of hydro‐morphodynamics affected by altered upstream discharge in the Dujiangyan reach of the Min River, China[J]. Hydrological Processes, 2024, 38(3): e15113.
l Chen HS, Wang XK, Lei S, Wang XX, Yan XF*. Soil erosion characteristics in an earthquake-impacted mountainous basin based on RUSLE model: implications for geohazards[J]. Journal of Soils and Sediments, 2023: 1-22.
l Yan XF, Duan HF, Wai WHO, Wang XK*. Bed morphology adjustment under the impact of a near-bank emergent model vegetation patch[J]. Journal of Hydraulic Research, 2023, 61(5): 735-753.
l Yan XF, Duan HF, Zhang YH, Wang XK*. Momentum fluxes across multiple mixing interfaces subject to partially-distributed submerged canopy flows[J]. Journal of Hydrology, 2023, 662: 129742.
l Yan XF, Jia YY, Zhang Y, Fang LB*, Duan HF, Wang XK. Hydrodynamic adjustment subject to a submerged canopy partially obstructing a flume: Implications for junction flow behavior[J]. Ecohydrology, 2023, 16(2): e2467.
l Yan XF, Duan HF, Wai WHO, Li CW, Wang XK*. Spatial Flow Pattern, Multi‐Dimensional Vortices, and Junction Momentum Exchange in a Partially Covered Submerged Canopy Flume[J]. Water Resources Research, 2022, e2020WR029494.
l Jia YY, Yao ZD, Duan HF, Wang XK, Yan XF*. Numerical assessment of canopy blocking effect on partly-obstructed channel flows: from perturbations to vortices[J]. Engineering Applications of Computational Fluid Mechanics, 2022, 16(1): 1761-1780.
l Luo M, Ye C, Wang XK, Huang E, Yan XF*. Analytical Model of Flow Velocity in Gravel-Bed Streams under the Effect of Gravel Array with Different Densities[J]. Journal of Hydrology, 2022, 127581.
l Yan XF, Duan HF, Liu TH, Xu ZX, Wang XK*. Geomorphologic changes around a mid-river bar system at a meandering reach in the lower Yangtze River, China: impacts of the Three Gorges Dam (TGD) and human activities. Catena, 2022. 212, 106038.
l Yan XF, Duan HF, Yang QY, Liu TH, Sun Yi, Wang XK*. Numerical assessments of bed morphological evolution in mountain river confluences under effects of hydro-morphological factors [J]. Hydrological Processes, 2022, , e14488.
l Liu TH, Wang YK, Wang XK, Duan HF, Yan XF*. Morphological environment survey and hydrodynamic modeling of a large bifurcation-confluence complex in Yangtze River, China [J]. Science of The Total Environment, 2020,139705.
l Luo M, Huang E, Li W, Yan XF*. Evaluating bulk velocities and dispersion effect in a steep gravel-bed channel by detecting tracer clouds[J]. Measurement, 2022, 188: 110590.
l Yan XF, Xu H, Lu H, Zhou JW, Wang XK, Wang L. Assessment and Analysis of a Rainfall–Time-Lagging Water-Related Disaster in Mountainous Areas[J]. Frontier in Earth Science, 2021, 9, 659708.
l Yan XF, Duan HF*, Wang XK, Wang ML, Lee PJ. Investigation of transient wave behavior in water pipelines with blockages[J]. Journal of Hydraulic Engineering, 2021, DOI: 10.1061/(ASCE)HY.1943-7900.0001841 .
l Yi Z, Sun Y, Wang X, Liu DXD, Yan XF*. Numerical analysis of hydrodynamics influenced by a deformed bed due to a near-bank vegetation patch[J]. Water Supply, 2022, 22(2): 1546-1556.
l Xu ZX, Zhang CL, Yao Q, Wang XK, Yan XF*. Hydrodynamics and bed morphological characteristics around a boulder in a gravel stream [J]. Water Supply. 2020,20 (2): 395–407 .
l Xu ZX, Ye C, Zhang YY, Wang XK, Yan XF*. 2D numerical analysis of the influence of near-bank vegetation patches on the bed morphological adjustment [J]. Environmental Fluid Mechanics. 2020, 20(4): 707-738
l Yan XF*, Wai WHO, Li CW. Characteristics of flow structure of free-surface flow in a partly obstructed open channel with vegetation patch[J]. Environmental fluid mechanics, 2016, 16(4): 807-832.
l 吕君楠,蒋雨轩,姚致东,叶晨,闫旭峰*.挺水植被布局对矩形浅池水体流态的影响[J].工程科学与技术,2024,56(04):194-204.
l 闫旭峰*,姚致东,徐辉,旦增平措.山区宽窄相间河段输水能力变化规律[J].工程科学与技术,2022,54(06):43-50.
l 闫旭峰,许泽星,孙桐,王协康*.山区河流宽窄相间河段山洪水沙输移2维数值试验[J].工程科学与技术,2021,53(06):148-154.
l 闫旭峰,周苏芬,黄尔,刘兴年,王协康*.植被条件下坡面薄层水流动力学特性试验研究[J].四川大学学报:工程科学版,2012,44(2),26-30.
l 闫旭峰,易子靖,刘同宦,刘兴年,王协康*. 渐变河道水流结构及局部水头损失特性研究[J]. 长江科学院院报,2011,28(9): 1-5.
(2)作为其他作者发表的重要期刊论文
l Zhang YH, Duan HF*, Yan XF, Stocchino A. Experimental study on the combined effects of patch density and elongation on wake structure behind a rectangular porous patch[J]. Journal of Fluid Mechanics, 2023, 959: A36.
l Zhang YH, Duan HF*, Yan XF, Stocchino A. Quantifying wake dynamics subjected to stream vegetation patch elongation: The influence of patch-edge vortices. Physics of Fluids, 2024, 36(5).
l Luo M, Zheng HW, Yan XF, Wang L, Liu XN, Danzeng PC, Dawa QS, Xu WL, Huan E*. The pulse of Yarlung Tsangpo River: Ultra-high-resolution insights into the flow and sediment[J]. Journal of Hydrology, 2024: 131804.
l Li YT, Wai WHO, Zhan JM*, Hu WQ, Yan XF. Evolution of Three-Dimensional Flow Field and Vortex Structures around a Single Spur Dike during the Scouring Process[J]. Journal of Hydraulic Engineering, 2024, 150(1): 04023057.
l Yang P, Xu Z, Yan XF, Wang XK*. Establishing a rainfall dual-threshold for flash flood early warning considering rainfall patterns in mountainous catchment, China[J]. Natural Hazards, 2024, 120(7): 6657-6684.
l 杨兴国*,曹志翔,邢会歌, 金建立,李海波,范刚,叶飞,闫旭峰.冰碛土滑坡—泥石流—堰塞湖灾害链发展过程机理与模拟技术研究构想[J].工程科学与技术,2022,54(03):1-13.
常用邮箱:xufeng.yan@scu.edu.cn
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