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郭巧娜简介

发布时间: 2017-04-18      访问次数: 7389

姓名

郭巧娜

性别


 

汉族

出生日期

1981

政治面貌

党员

时间

14

学历

研究生

学位

博士

现任职务

/

技术职称

教授/

通信地址

江苏省南京市江宁区佛城西路8号地球科学与工程学院

邮编

211100

电话

/

Email

guoqiaona2010@hhu.edu.cn

手机

15150513750

郭巧娜,工学博士,教授,士生导师。主要从事地质工程专业水文地质方的教学与科研工作,研究方向包括地下水运动及溶质运移模拟研究、地下水资源评价以及工程地下水理论应用等,主讲课程包括地下水动力学、地下水资源评价与管理、水文地质数值计算等。先后主持或参加国家自然基金重大研究计划、国家自然科学基金面上基金、国家重点研发计划课题、国家自然科学基金青年基金、江苏省自然科学基金青年基金、中国博士后科学基金、水利部公益性行业专项以及其它科技项目20多项。获得教育部科学技术进步二等奖1项和甘肃省科技进步等奖1,参编专著1部,行业规范1部,授权国家发明专利10项。在国内外知名学术期刊及会议上发表SCIEIISTP等检索论文40多篇,代表作主要发表在国际水文地质学知名期刊Journal of Geophysical ResearchAdvances in Water ResourcesHydrological ProcessesHydrogeology JournalFrontiers in Marine Science等上。

1.教育工作背景

2021.5-至今     河海大学  地球科学与工程学院       教授

2015.5-2021.5    河海大学  地球科学与工程学院      副教授

2012.6-2015.6    河海大学  土木工程博士后流动站    博士后

2010.7-2015.5    河海大学  地球科学与工程学院       讲师

2005.9-2010.6    中国地质大学(武汉) 水文学及水资源   博士

2008.9-2009.9    美国Temple University大学土木工程系 联培博士

2001.9-2005.6    中国地质大学(武汉)   环境工程       学士

2. 研究经历

[1] 国家自然科学基金面上基金:淤泥质海滩地下水与海水动力交互作用及海底地下水排泄量研究(编号:41772235),国家自然科学基金委员会,2018.1-2021.12,主持

[2] 国家自然科学青年基金:滨海浅层非均质含水层中溶质运移机理和过程研究(编号41402201),国家自然科学基金委员会,2015.1-2017.12,主持

[3] 江苏省自然科学青年基金:近岸水动力作用下滨海浅层含水层中污染物运移机理研究(编号BK20140843),江苏省科技厅,2014.7-2017.6,主持

[4] 中国博士后科学基金面上基金:滨海多层含水层系统中陆源海底地下水排泄量研究(编号2012M520990),中国博士后科学基金会2012.9-2014.6,主持

[5] 中央高校基本科研业务费:辽东湾东部海岸带海底地下水排泄及其环境效应研究编号B210202108,河海大学,2021.1-2022.12,主持

[6] 中央高校基本科研业务费:基于物模和数模方法研究人类活动影响下海水入侵规律(编号2019B16814,河海大学,2019.1-2020.12,主持

[7] 中央高校基本科研业务费:淤泥质潮滩海水-地下水交互作用及海底地下水排泄量研究(编号2016B05814),河海大学,2017.1-2018.12,主持

[8] 中央高校基本科研业务费:山前平原区河岸含水层中地下水流及溶质运移研究(编号2011B06514),河海大学2011.5-2013.4,主持

[9] 南京水利科学研究院委托项目:重点区域地下水控制指标研究(编号:820027316),2020.1-2020.12,主持

[10] 南京水利科学研究院委托项目:黄渤海典型海水入侵区地下水及海水水样采集分析(编号:820036616),2020.6-2020.9,主持

[11] 南京水利科学研究院委托项目:地下水水位监测数据质量分析(编号:819040016),2019.1-2019.12,主持

[12] 南京水利科学研究院委托项目:地下水水源论证数值模型标准化(编号:818029916),2018.1-2018.12,主持

[13] 南京水利科学研究院委托项目:典型区地下水点源污染运移数值模拟(编号:817022416),2017.1-2017.12,主持

[14] 中国地质调查局成都地质调查中心委托项目:眉山市新功熊去氧胆酸生产项目地下水环境影响数值模拟评价(编号:817022516)2017.3-2017.4,主持

[15] 水利部综合事业局委托项目:水样品常规离子测试(编号815096616),2014.5-2014.12,主持

[16] 国家自然科学基金-重大研究计划:雅鲁藏布江流域地下水的分布特征与演变规律(编号:518015411),国家自然科学基金委员会,2018.1-2021.12,课题骨干

[17] 国家重点研发计划“水资源高效开发利用”重点专项资助项目:黄渤海沿海地区地下水管理与海水入侵防治研究课题三(编号2016YFC0402803),国家科学技术部,2016.7-2020.12,课题骨干

[18] 中国电建集团华东勘测设计研究院有限公司委托项目:金沙江白鹤滩水电站施工详图设计阶段枢纽工程水文地质条件及渗流场研究(编号816014516),2015.7-2016.6,课题骨干

[19] 河北恒源水务科技有限公司委托项目:海水入侵区取用水影响分析研究(编号817116216),2017.11-2018.12,课题骨干

[20] 水利部公益性行业科研专项:疏勒河灌区地下水演变规律及评价方法(编号201301083),2013.01-2015.6,课题骨干

[21] 水利部公益性行业科研专项:山前平原区河道水污染对地下水的影响研究(编号201001020),2010.10-2011.12,课题骨干

3. 期刊论文

[1] Guo Qiaona, Zhao Yue, Li Mengjun, Liu Jinhui. Radium isotope assessment of submarine groundwater discharge and associated nutrient inputs in Eastern Liaodong Bay, China. Frontiers in Marine Science, 2022, 9:916109. (SCI)

[2] Guo Qiaona, Zhao Yue, Hu Zili and Li Mengjun. Contamination transport in the coastal unconfined aquifer under the influences of seawater intrusion and inland freshwater recharge. International Journal of environmental research and public health, 2021, 18, 762. (SCI)

[3] Guo Qiaona, Zhang Yahui, Zhou Zhifang, and Zhao Yue. Saltwater transport under the influence of sea-level rise in coastal multilayered aquifers. Journal of Coastal Research, 2020, 36(5), 1040-1049. Coconut Creek (Florida), ISSN 0749-0208. (SCI)

[4] Guo Qiaona, Zhang Jinming, Hu Zili, Zhou Ziwen. Hydrochemical evolution of groundwater in coastal plain area of the downstream of Daqing river, Liaodong Bay, China. Journal of Coastal Research, 2020, 36(3), 608-618. (SCI)

[5] Guo Qiaona, Zhang Yahui, Zhou Zhifang, and Hu Zili. Transport of Contamination under the Influence of Sea Level Rise in Coastal Heterogeneous Aquifer. Sustainability, 2020, 12, 9838. (SCI)

[6] Guo qiaona, Huang Jiangwei, Zhou Zhifang, and Wang Jinguo. Experiment and numerical simulation of seawater intrusion under the influences of tidal fluctuation and groundwater exploitation in coastal multi-layered aquifers. Geofluids, 2019, ID2316271. (SCI)

[7] Guo qiaona, Zhou Zhifang, Huang Guojiao, and Dou Zhi. Variations of groundwater quality in the multi-layered aquifer system near the Luanhe River, China. Sustainability, 2019, 11, 994. (SCI)
[8] Guo qiaona, Zhou zhifang, and Wang Shan. The Source, Flow Rates, and Hydrochemical Evolution of Groundwater in an Alluvial Fan of Qilian Mountain, Northwest China. Water, 2017, 9, 912; doi:10.3390/w9120912. (SCI)

[9] Guo qiaona, Li Hailong. Terrestrial-originated submarine groundwater discharge through deep multilayered aquifer systems beneath the seafloor. Hydrological Processes, 2015, 29(2), 295-309. Doi: 10.1002/hyp.10163. (SCI)

[10] Guo qiaona, Li Hailong, Michel C. Boufadel, and Liu Jin. A field experiment and numerical modeling of a tracer at a gravel beach in Prince William Sound, Alaska. Hydrogeology Journal, 2014, 22(8), 1795-1805. (SCI)

[11] Guo qiaona, Li Hailong, Zhou Zhifang, and Huang Yong. Rainfall infiltration-derived submarine groundwater discharge from multi-layered aquifer system terminating at the coastline, Hydrological Processes, 2012, 26(7), 985-995. doi: 10.1002/hyp.8188. (SCI)

[12] Guo qiaona, Li Hailong, Michel C. Boufadel, and Youness Sharifi. Hydrodynamics in a gravel beach and its impact on the Exxon Valdez oil, Journal of Geophysical Research-Oceans, 2010, 115, C12077, doi: 10.1029/2010JC006169. (SCI)

[13] Guo qiaona, Li Hailong, Michel C. Boufadel, Xia Yuqiang, and Li Guohui. Tide-induced groundwater head fluctuation in coastal multi-layered aquifer systems with a submarine outlet-capping. Advances in Water Resources, 2007, 30(8), 1746-1755. (SCI)

[14] Guo Qiaona, Huang Jiangwei. Analysis of the influence of the interlayer staggered zone in the basalt of Jinsha River Basin on the main buildings. IOP Conference Series-Earth and Environmental Science, 2018. (EI)

[15] Guo Qiaona, Zhou Zhifang, Li Zhaofeng. Estimation of the groundwater discharge through the edge of Changma alluvial fan in the Shule River Basin, northwestern China. IOP Conference Series: Earth and Environmental Science, 2017. (EI)

[16] Guo Qiaona, Li Hailong. A comparison study of trace elements along two transects in tidal mangrove marsh at Dongzhaigang, Hainan, China, Advanced Materials Research, 2013, 1379-1382, doi:10.4028/www.scientific.net/AMR.779-780.1379 (ISTP)

[17] Guo Qiaona, Zhou Zhifang, Li Hailong. Rainfall infiltration-derived submarine groundwater discharge from coastal multi-layered aquifer system, 2011 2nd International Conference on Mechanic Automation and Control Engineering (MACE 2011) -Proceedings, July 15-17, p2402-2405. (EI)

[18] Guo Qiaona, Li Hailong. Submarine groundwater discharge through deep confined aquifer system extending under the sea, International Conference on Modeling, Simulation and Optimization (CMSO2009), December 26-27, 2009, Beijing, China. (ISTP)

[19] Guo Qiaona, Li Hailong, Xia Yuqiang, Li Guohui. Tide-induced groundwater head fluctuation in a coastal three-layered aquifer system. In: the 34th Congress of International Association of Hydrogeology (IAH), October 9-13, 2006, Beijing, China.

[20] Zhou Zhifang, Zhang Boran, Guo Qiaona(通讯作者), Zhu Shumei. Experimental and Numerical Studies on the Vertical Flow of Variable Density Fluid in Different Directions. Geofluids, 2019, UNSP 2175983. (SCI)

[21] Zhu Shumei, Zhou Zhifang, Guo Qiaona, and Ma Jun. A Study on the Cause of Layered Seawater Intrusion in the Daqing River Estuary of Liaodong Bay, China. SUSTAINABILITY, 2020, 12(7), 2842. (SCI)

[22] Ma Jun, Zhou Zhifang, Guo Qiaona, Zhu Shumei, Dai Yunfeng, and Shen Qi. Spatial Characterization of Seawater Intrusion in a Coastal Aquifer of Northeast Liaodong Bay, China. SUSTAINABILITY, 2019, 11(24), 7013. (SCI)

[23] Dou Zhi, Sleep Brent, Mondal Pulin, Guo Qiaona, Wang Jinguo, and Zhou Zhifang. Temporal Mixing Behavior of Conservative Solute Transport through 2D Self-Affine Fractures. PROCESSES, 2018, 6(9), 158. (SCI)

[24] Zhou Zhifang, Lin Mu, Guo Qiaona, and Chen Meng. Scale effect and value criterion of the permeability of the interlayer staggered zones in the basalt of Jinsha River basin, China. Hydrogeology Journal, 2018, 26(5), 1731-1748. (SCI)

[25] Chen Meng, Zhou Zhifang, Zhao Lei, Lin Mu, Guo Qiaona, and Li Mingwei. Study of the Scale Effect on Permeability in the Interlayer Shear Weakness Zone Using Sequential Indicator Simulation and Sequential Gaussian Simulation. Water, 2018, 10(6), 779. (SCI)

[26] Dou Zhi, Zhou Zhifang, Guo Qiaona, and Lu Xiaohui. Effects of Flow Fluctuation on Dilution and Spreading in a Self-Affine Fracture. Water environment research, 2017, 89(8), 752-762. (SCI)

[27] Li Zhaofeng, Zhou Zhifang, Dai Yunfeng, Huang Yong, Guo Qiaona, and Zhou Cuiying. Contaminant transport in a small deformation aquitard affected by the delayed drainage phenomenon. Hydrological Processes, 2017, 31(24), 4429-4439. (SCI)

[28] Zhuang Chao, Zhou Zhifang, Illman Walter A., Guo Qiaona, and Wang Jinguo. Estimating hydraulic parameters of a heterogeneous aquitard using long-term multi-extensometer and groundwater level data. Hydrogeology Journal, 2017, 25(6), 1721-1732. (SCI)

[29] Huang Yong, Zhou Zhifang, Guo Qiaona, Tang Yuzhou and Lu Wenlong. Factors affecting the measurement of the vertical hydraulic conductivity of a streambed sediment using standpipe tests. Hydrological Processes, 2014, 28(20), 5204-5211. (SCI)

[30] Huang Yong, Zhou Zhifang, Wang Jinguo, Dou Zhi, and Guo Qiaona. Spatial and temporal variability of the chemistry of the shallow groundwater in the alluvial fan area of the Luanhe river, North China. Environmental Earth Sciences, 2014, 72(12), 5123-5137. (SCI)

[31] Huang Yong, Yu Z, Zhou Zhifang, Wang Jinguo, and Guo Qiaona. Modeling Flow and Solute Transport in Fractured Porous Media at Jinping I-Hydropower Station, China. Journal of Hydrological Engineering, 2014, 19(9), 05014007. (SCI)

[32] Zhou Zhifang, Guo Qiaona, and Dou Zhi. Delayed drainage of aquitard in response to sudden change in groundwater level in adjacent confined aquifer: Analytical and experimental studies, Chinese Science Bulletin, 2013, 58(25), 3060-3069. (SCI)

[33] 郭巧娜, 赵岳, 周志芳, 林锦, 戴云峰, 李孟军.人类活动影响下的龙口海岸带海底地下水排泄通量研究, 地学前缘, 2022, 29(4): 468-479.

[34] 郭巧娜, 李孟军, 赵岳, 窦智, 周志芳.基于改进模型的辽东湾东岸营口海域海底地下水排泄量计算, 长江科学院院报, 2022, 39(10): 8-15.

[35] 郭巧娜. 海滩含水层中海潮引起的地下水位波动, 工程勘察, 2010, 38(5): 36-39.

[36] 郭巧娜,李海龙. 滨海深部含水层地下水排泄量评估, 人民长江, 2010, 41(8): 30-35.

[37] 郭巧娜,李海龙,夏玉强,李国徽. 滨海多层含水层系统中海潮引起的地下水位波动,地下水,2007, 29(2): 27-31.

[38] 戴云峰,林锦,郭巧娜,孙晓敏,陈永强,刘九夫. 快速评价海水入侵区地层渗透性实验研究.水利学报,202051(10)1234-1247.

[39] 周志芳,李思佳,王哲,郭巧娜,石安池,陈朦,沈琪. 白鹤滩水电站错动带非线性渗透参数的原位试验确定. 岩土工程学报,202042(3)430-437.

[40] 周志芳,庄超,李鸣威,郭巧娜,李雅冰. 水库库盘变形的特征及其地质成因分析. 工程地质学报,201927(1)38-47.

[41] 周志芳,李鸣威,庄超,郭巧娜. 溪洛渡水电站谷幅变形成因与形成条件. 河海大学学报. 自然科学版,201846(6)497-505.

[42] 庄超, 周志芳, 李兆峰, 郭巧娜. 一种确定超固结弱透水层水力参数的方法. 岩土力学, 2017, 38(1), 61-66.

[43] 李追, 周志芳, 郭巧娜. 疏勒河流域花海灌区地下水位动态演变趋势.河海大学学报. 自然科学版, 2016, 44(3), 252-257.

[44] 李海龙,任亚坤,李国徽,郭巧娜. 露头处具有淤泥层的滨海含水层系统中海潮引起的水头波动,地球科学中国地质大学学报, 200833(2), 273-278.

4. 国际学术交流

[1] 2020.11 第六届地下水科学青年论坛,报告题目:沿海地区地下水开采与海水入侵作用机理研究.

[2] 2018.07 国际地下水高层论坛,报告题目:Transport of Contamination in Coastal Heterogeneous Aquifer.

[3] 2017.08 第一届巴东国际地质灾害学术论坛,报告题目:Study on genetic mechanism of valley deformation in Xiluodu hydropower project of Jinsha River.

[4] 2016.09 第二届中国大地测量与地球物理学学术大会,报告题目:Groundwater hydrochemical characteristics and evolution processes in the alluvial fan of Qilian Mountain.

[5] 2013.10 第三届亚太滨海含水层管理会议,报告题目:Field Experiment and Numerical Modeling of Tracer in a Gravel Beach in Prince William Sound, Alaska,3rd Asia-Pacific Coastal Aquifer Management Meeting.

5. 发明专利

[1] 一种模拟海水沿河道上溯入侵滨海含水层的装置及方法.专利授权号: ZL202210353983.1,授权日期:2023.3.14. 发明专利(1/5

[2] 一种模拟地下承压层盐分运移规律的装置及其使用方法.专利授权号:ZL 201910047735.2授权日期2021.12.28. 发明专利1/3

[3] 一种模拟滨海浅层非均质海滩污染物运移的装置及方法.专利授权号:ZL201610220390.2,授权日期:2018.06.08.发明专利(1/3

[4] 一种模拟在蒸发作用下泉口盐分排泄的装置及方法.专利授权号:ZL201610389983.1,授权日期:2018.07.06.发明专利(1/3

[5] 现场确定外管弱透水层水文地质参数的外管降深双管法.专利授权号:ZL201611146674.8,授权日期:2019.04.30.发明专利(2/4

[6] 现场确定内管弱透水层水文地质参数的外管降深双管法.专利授权号:ZL201611146682.2,授权日期:2019.04.30.发明专利(2/4

[7] 现场确定内管弱透水层水文地质参数的内管降深双管法.专利授权号:ZL201611149726.7,授权日期:2019.07.12.发明专利(3/4

[8] 现场确定外管弱透水层水文地质参数的内管降深双管法.专利授权号:ZL201611149601.4,授权日期:2019.07.12.发明专利(3/4

[9]一种非点源侵入的溶质运移实验装置.专利授权号:ZL201610118997.X,授权日期:2018.03.09.发明专利(4/4

[10]原位确定弱透水层固结系数和变形滞后指数的双管外管法.专利授权号:ZL201611149736.0,授权日期:2019.06.21.发明专利(4/4

[11]原位确定弱透水层固结系数和变形滞后指数的双管内管法.专利授权号:ZL201611147354.4,授权日期:2019.05.28.发明专利(4/4

[12]一种确定弱透水层水文地质参数的方法.专利授权号:ZL201210276528.2,授权日期:2015.04.29.发明专利(4/5

6. 获奖

[1] 变化环境下疏勒河地表水与地下水转换规律及调控技术,2022甘肃省科技进步奖二等奖,排名4/15

[2] 深厚覆盖层释水变形理论与工程应用, 2015年获教育部高等学校科学研究优秀成果奖二等奖, 排名7/10

[3] 疏勒河灌区地下水演变规律及评价方法, 2017年度甘肃省水利科技进步奖一等奖,甘肃省水利厅, 排名5/15

[4] 2013年获河海大学校级讲课竞赛三等奖。

[5] 2020年获河海大学校级讲课竞赛提名奖。



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