屈伸

屈伸

BOB手机版官网

“骏马计划B2岗”研究员

硕士研究生导师

E-mail：shenqu@imu.edu.cn

研究方向

煤矿地下水、地下水环境、水文地球化学

教育工作经历

2022.07-至今bob手办官网安卓版 ，BOB手机版官网 ，“骏马计划B2岗”研究员

2016.09-2022.06中国地质大学（北京），水文地质学，博士（硕博连读）

2012.09-2016.06中国地质大学（北京），地下水科学与工程，学士

主持及参加项目

1.bob手办官网安卓版 “骏马计划B2岗”，高层次引进人才科研启动专项经费，主持

2.中国地质大学（北京）基本科研业务费专项资金资助项目“采矿扰动下含水层参数和水化学的演化研究”，主持

3.国家重点研发计划“大型煤矿和有色矿矿井水高效利用技术与示范”，参与

4.国家自然科学基金面上项目“采矿扰动下含水层参数多尺度变化特征及尺度效应研究”，参与

科研成果（*通讯作者，^#共同作者）

1.Mao, H.^#, Wang, C.^#,Qu, S.*, Liao, F., Wang, G.*, Shi, Z. (2022) Source and evolution of sulfate in the multi-layer groundwater system in an abandoned mine—Insight from stable isotopes and Bayesian isotope mixing model.Science of the Total Environment, 859: 160368.

2.Qu, S., Duan, L.*, Shi, Z., Mao, H., Wang, G., Liu, T., Yu, R., Peng, X. (2022) Identifying the spatial pattern, driving factors and potential human health risks of nitrate and fluoride enriched groundwater of Ordos Basin, Northwest China.Journal of Cleaner Production, 376: 134289.

3.Qu, S., Liang, X., Liao, F.*, Mao, H., Xiao, B., Duan, L., Shi, Z., Wang, G., Yu, R. (2022) Geochemical fingerprint and spatial pattern of mine water quality in the Shaanxi-Inner Mongolia Coal Mine Base, Northwest China.Science of the Total Environment, 854: 158812.

4.Qu, S., Duan, L.*, Shi, Z.*, Liang, X., Lv, S., Wang, G., Liu, T., Yu, R. (2022) Hydrochemical assessments and driving forces of groundwater quality and potential health risks of sulfate in a coalfield, northern Ordos Basin, China.Science of the Total Environment, 835: 155519.

5.Qu, S., Wang, G.*, Shi, Z., Zhu, Z., Wang, B., Jin, X. (2022) Mining activity induced coupling evolution of aquifer parameters, groundwater level and hydrochemistry in overburden aquifer in a coalfield.Mine water and the Environment, 96.

6.Qu, S., Shi, Z.*, Wang, G., Zhang, H., Han, J., Liu, T., Jin, X. (2021) Detection of hydrological responses to longwall mining in an overburden aquifer.Journal of Hydrology, 603: 126919.

7.Qu, S., Shi, Z.*, Liang, X., Wang, G., Han, J. (2021) Multiple factors control groundwater chemistry and quality of multi-layer groundwater system in Northwest China coalfield — Using self-organizing maps (SOM).Journal of Geochemical Exploration, 227: 106795.

8.Qu, S., Shi, Z.*, Liang, X., Wang, G., Jin, X. (2021) Origin and controlling factors of groundwater chemistry and quality in the Zhiluo aquifer system of northern Ordos Basin, China.Environmental Earth Sciences, 80: 439.

9.Qu, S., Shi, Z.*, Wang, G., Han, J. (2020). Application of multiple approaches to investigate hydraulic connection in multiple aquifers system in coalfield.Journal of Hydrology, 595: 125673.

10.Qu, S., Wang, G.*, Shi, Z., Zhou, P., Xu, Q., Zhu, Z. (2020) Temporal changes of hydraulic properties of overburden aquifer induced by longwall mining in Ningtiaota coalfield, northwest China.Journal of Hydrology, 2020, 582: 124525.

11.Qu, S., Shi, Z.*, Wang, G., Xu, Q., Zhu, Z., Han, J. (2020) Using water level fluctuations in response to Earth-tide and barometric pressure changes to measure the in situ hydrogeological properties of an overburden aquifer in a coalfield.Hydrogeology Journal, 28: 1465–1479.

12.Qu, S., Wang, G.*, Shi, Z., Xu, Q., Guo, Y., Ma, L., Sheng, Y. (2018) Using stable isotopes (δD, δ¹⁸O, δ³⁴S and⁸⁷Sr/⁸⁶Sr) to identify sources of water in abandoned mines in the Fengfeng coal mining district, northern China.Hydrogeology Journal, 26(5): 1443–1453.

13.Wang, C., Liao, F.*, Wang, G.*,Qu, S., Mao, H., Bai, Y. (2022) Hydrogeochemical evolution induced by long-term mining activities in a multi-aquifer system in the mining area.Science of the Total Environment, 854: 158806.

14.Lv, S., Zhang, Z.*, Sun, N., Shi, Z.*, Li, J.,Qu, S.(2022) Regional Groundwater Water Quality Assessment and Contamination Source Identification by a Self-Organizing Map and Entropy Method in Pinggu Basin, Northeast Beijing.Frontiers in Environmental Science, 10: 946914.

15.Zhang, W., Liu, T., Duan, L., Zhou, S., Sun, L., Shi, Z.,Qu, S., Bian, M., Yu, D., Singh, V. (2022) Forecasting groundwater level of karst aquifer in a large mining area using partial mutual information and NARX hybrid model.Environmental Research, 213: 113747.

16.Xu, Q., Wang, G.*, Liang, X.,Qu, S., Shi, Z., Wang, X. (2021) Determination of Mining-Induced Changes in Hydrogeological Parameters of Overburden Aquifer in a Coalfield, Northwest China: Approaches Using the Water Level Response to Earth Tides.Geofluids, 5516997.

17.Zhang, B., Zhao, D.*, Zhou, P.,Qu, S., Liao, F., Wang, G.* (2020) Characteristics of Groundwater and Dominant Water–Rock Interactions in the Delingha Area, Qaidam Basin, Northwest China.Water, 12(3): 836.

18.屈伸，史浙明*，梁向阳，王广才，刘廷玺（2022）大海则井田多层含水层系统水化学特征及演化规律.环境化学. 41(8).

19.屈伸，张伟峰，杨少东，张栋良，王丽萍*（2018）不同“水梦”无机吸附剂对黄河水泥沙吸附影响与适用性分析.灌溉排水学报，37(1): 78-84.

20.史浙明，屈伸，许庆宇，王广才，韩佳谦（2021）覆岩水力及岩石力学监测方法及系统.发明专利（CN113153282A）

个人荣誉

北京市优秀毕业生

杨遵仪奖学金

中国地质大学（北京）优秀博士学位论文