职称：讲师

地址：兰州市七里河区兰工坪路287号—综合楼

邮编：730050

E-mail：renwenhao2019@gmail.com

教育经历

2019.09-2025.12：长安大学，水利工程，博士

2018.09-2019.06：长安大学，水利工程，硕士

2014.09-2018.06：长安大学，地下水科学与工程，学士

工作履历

2025.12-至今：兰州理工大学yd222云顶线路检测，讲师。

教学工作

硕士生课程：

本科生课程：

本科生实践教学：

学术/社会兼职

担任Journal of Hydrology，Journal of Cleaner Production，Journal of Hydrology: Regional Studies，Science of the Total Environment，Renewable Energy，Irrigation and Drainage，Water Environment Research，Water等国际期刊审稿人，担任Water期刊客座编辑。

研究领域

寒旱区水资源与水环境，环境水文地球化学，地下水循环与演化，水文生态与水安全

欢迎水利工程、水利水电工程、水文与水资源、地下水科学与工程等学科学生报考。

奖励与荣誉

[1]2023年，长安大学优秀共产党员

[2]2021年，长安大学优秀研究生

科研项目及学术成果

科研项目：

[1]西风-季风断面和关键点上非均匀下垫面水分循环特征和规律，国家重大科技专项第二次青藏高原综合科学考察研究（2019QZKK010313），103万元，2019-2024，项目骨干

[2]地下水与人工补水对旱区湖泊水盐演化的协同作用机制与调控研究，国家自然科学基金青年基金，24万，2021-2023，项目骨干

[3]江村沟生活垃圾填埋场原位生态修复项目，西安市市政府住房和城乡建设局，2019-2022，1110万，参与

[4]西安市环境水文地质问题调查评价，西安地质调查中心，2018-2019，40万元，参与

[5]咸阳市主城区及周边地区地下型饮用水环境现状调查，咸阳市市政府环境保护局，2017-2018，34万元，参与

学术成果：

[1]Ren W, Qian H, Zhou S, et al. Hydrological imbalance in Nam Co Lake, the third-largest lake on the Tibetan Plateau[J]. Journal of Hydrology, 2025: 133956.

[2]Ren W, Gao Y, Qian H, et al. The Evolution and Drivers of Hydrochemistry in Nam Co Lake, the Third Largest Lake on the Tibetan Plateau, over the Last 20 Years[J]. Sustainability, 2025, 17(5): 2180.

[3]Ren W, Gao Y, Qian H, et al. Spatiotemporal variation characteristics of groundwater storage and its driving factors and ecological effects in Tibetan Plateau[J]. Remote Sensing, 2023, 15(9): 2418.

[4]Ren W, Zhang Q, Qian H. Comprehensive assessment of water quality of ten rivers in Zhengzhou main urban area[C]//IOP Conference Series: Earth and Environmental Science. IOP Publishing, 2021, 647(1): 012197.

[5]Zhang Q, Ren W, Qian H, et al. Temporal-spatial evolution characteristics of meteorological drought in Guanzhong Basin based on SPEI drought index[C]//IOP Conference Series: Earth and Environmental Science. IOP Publishing, 2021, 647(1): 012198.

[6]Jia H, Qu W, Ren W, et al. Impacts of chemical weathering and human perturbations on dissolved loads of the Wei River, the Yellow River catchment[J]. Journal of hydrology, 2021, 603: 126950.

[7]Gao Y, Qian H, Ren W, et al. Hydrogeochemical characterization and quality assessment of groundwater based on integrated-weight water quality index in a concentrated urban area[J]. Journal of cleaner production, 2020, 260: 121006.

[8]Chen J, Gao Y, Qian H, et al. Hydrogeochemical evidence for fluoride behavior in groundwater and the associated risk to human health for a large irrigation plain in the Yellow River Basin[J]. Science of the Total Environment, 2021, 800: 149428.

[9]Zhang Q, Qian H, Ren W, et al. Early warning and formation mechanism analysis of groundwater environment in irrigation area, Guanzhong Basin[J]. Applied Water Science, 2025, 15(8): 214.

[10]Hou K, Qian H, Zhang Y, et al. Evolutionary process of soil grain-size fractals in irrigation areas of northern China: a pedological analysis of ancient irrigation wisdom[J]. Catena, 2025, 257: 109160.

[11]杨超,屈文岗,任文豪,等.银川盆地地热水水化学特征及形成机理[J]. Science Technology & Engineering, 2024, 24(30).

[12]Xu, P., Qian, H., Li, W., Ren, W., Yang, F., & Wang, L. New insights into the seepage behavior of heavy metal-contaminated loess and its underlying geochemical mechanism[J]. Journal of Hydrology, 2023, 620: 129476.