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研究助理教授

郭芷琳

  • 简历
  • 科研
  • 教学
  • 发表论著

郭芷琳,博士毕业于美国亚利桑那大学环境科学专业。参与美国能源部与中国科技部合作项目以及美国环保部超级基金项目。与中国水利水电科学院、国家气候中心合作开发模拟了华北平原,加州中央谷底平原的水盐平衡和盐碱化的过程,以及气候变化对地下水水质水量的影响。通过参与美国环保部超级基金项目,研究了影响污染地地下水修复的主要因素,并提出了创新性污染场地特性判定和参数估计方法。

 

教育背景
2012.08-2015.08, 美国亚利桑那大学,环境科学,博士
2010.08-2012.05,美国佛罗里达大学,环境工程科学, 硕士
2006.09-2010.06, 山西大学,资源环境与城乡规划管理, 学士

 

工作经历
2019.07-至今: 南方科技大学环境科学与工程学院,研究助理教授
2016.01-2019.07: 美国加州大学戴维斯分校博士后,开发流域污染物迁移模型
2015.08-2016.01: 美国亚利桑那大学高级研究员,从事地下水流及污染物运移数值模拟
 

 

研究领域
(1)地下水流及污染物运移数值模拟
(2)污染场地修复模拟研究
(3)流域尺度污染物迁移的升尺度研究

 

主持或参与科研项目(课题)情况
1. 深圳市软科学研究计划,深圳市可持续发展典型案例及发展对策研究,2019.09-2020/09, 30万,在研,主持。
2. U.S Department of Energy (美国能源部),CERC-WET,Energy consequences of ongoing conversion of groundwater systems into closed hydrologic basins due to overdraft, 2016-2021, 200万美金,在研,主要参与人员
3. The National Institute of Environmental Health Sciences Superfund Research Program(美国国家环境健康科学机构超级基金研究项目),P42ES04940,Mass-Transfer and Mass Flux Dynamics of Chlorinated-Solvents in Heterogeneous System, 2010.08-2015.08, 300万美金,结题,主要参与人员
4. US Department of Defense Strategic Environmental Research and Development Program,ER-1614, Impact of DNAPL Source-Zone Architecture on Contaminant Mass Flux and Plume Evolution in Heterogeneous Porous Media,2008-2013,85.4万美金,结题,参与

 

发表论著
1. Zhilin Guo, Graham Fogg, Christopher Henri, “Upscaling of regional scale transport under transient conditions: evaluation of the Multi‐rate Mass Transfer model.” Water Resource Research. 55, 10.1029/2019WR024953,2019.
2. Zhilin Guo, Mark L. Brusseau, Graham E. Fogg, “Determining the long-term operational performance of pump and treat and the possibility of closure for a large TCE plume.” Journal of Hazardous Materials, 365(5), 796-803, 2019.
3. Zhilin Guo, Graham Fogg, Mark Brusseau, Jose Lopez, “Case study of modeling the contaminants transport in groundwater for a site with large heterogeneity at Tucson.” Accepted by Hydrogeology Journal. 2018.
4. Zhilin Guo, Mark L. Brusseau, “The Impact of Well-Field Configuration on Contaminant Mass Removal and Plume Persistence for Homogeneous versus Layered Systems”. Hydrological Processes, 31, 4748-4756,2017.
5. Zhilin Guo, Mark L. Brusseau, “Modified Well-Field Configurations for Improved Performance of Contaminant Elution and Tracer Tests”. Water, Air, & Soil Pollution,228 (7): 261.2017.
6. Zhilin Guo, Mark L. Brusseau, “The Impact of Well-Field Configuration and Permeability Heterogeneity on Contaminant Mass Removal and Plume Persistence”, Journal of Hazardous Materials, 333(5), 109-115.2017.
7. Mark L. Brusseau, Zhilin Guo, “The Integrated Contaminant Elution and Tracer Test Toolkit, ICET3, for Improved Characterization of Mass Transfer, Attenuation, and Mass Removal”. Journal of Contaminant Hydrology, 208, 17-26. 2018.
8. Mark Brusseau, Kenneth Carroll, Zhilin Guo, Jon Mainhagu, “Borehole Diffusive Flux Apparatus for Characterizing Diffusive Mass-transfer in Subsurface Systems". Environmental Earth Sciences. 77:648, 2018.
9. Mark L. Brusseau, Zhilin Guo, “Assessing contaminant-removal conditions and plume persistence through analysis of data from long-term pump-and-treat operations”, Journal of Contaminant Hydrology, 164: 16-24, 2014.
10. D.E. Matthieu, III, M.L. Brusseau, Z. Guo, M. Plaschke, K.C. Carroll1, F. Brinker, “Persistence of a Groundwater Contaminant Plume after Hydraulic Source Containment at a Chlorinated-Solvent Contaminated Site”, Groundwater Monitoring and Remediation. 34, 4: 23-32,2014.

研究领域
(1)地下水流及污染物运移数值模拟
(2)污染场地修复模拟研究
(3)流域尺度污染物迁移的升尺度研究

 

主持或参与科研项目(课题)情况
1. 深圳市软科学研究计划,深圳市可持续发展典型案例及发展对策研究,2019.09-2020/09, 30万,在研,主持。
2. U.S Department of Energy (美国能源部),CERC-WET,Energy consequences of ongoing conversion of groundwater systems into closed hydrologic basins due to overdraft, 2016-2021, 200万美金,在研,主要参与人员
3. The National Institute of Environmental Health Sciences Superfund Research Program(美国国家环境健康科学机构超级基金研究项目),P42ES04940,Mass-Transfer and Mass Flux Dynamics of Chlorinated-Solvents in Heterogeneous System, 2010.08-2015.08, 300万美金,结题,主要参与人员
4. US Department of Defense Strategic Environmental Research and Development Program,ER-1614, Impact of DNAPL Source-Zone Architecture on Contaminant Mass Flux and Plume Evolution in Heterogeneous Porous Media,2008-2013,85.4万美金,结题,参与

发表论著
1. Zhilin Guo, Graham Fogg, Christopher Henri, “Upscaling of regional scale transport under transient conditions: evaluation of the Multi‐rate Mass Transfer model.” Water Resource Research. 55, 10.1029/2019WR024953,2019.
2. Zhilin Guo, Mark L. Brusseau, Graham E. Fogg, “Determining the long-term operational performance of pump and treat and the possibility of closure for a large TCE plume.” Journal of Hazardous Materials, 365(5), 796-803, 2019.
3. Zhilin Guo, Graham Fogg, Mark Brusseau, Jose Lopez, “Case study of modeling the contaminants transport in groundwater for a site with large heterogeneity at Tucson.” Accepted by Hydrogeology Journal. 2018.
4. Zhilin Guo, Mark L. Brusseau, “The Impact of Well-Field Configuration on Contaminant Mass Removal and Plume Persistence for Homogeneous versus Layered Systems”. Hydrological Processes, 31, 4748-4756,2017.
5. Zhilin Guo, Mark L. Brusseau, “Modified Well-Field Configurations for Improved Performance of Contaminant Elution and Tracer Tests”. Water, Air, & Soil Pollution,228 (7): 261.2017.
6. Zhilin Guo, Mark L. Brusseau, “The Impact of Well-Field Configuration and Permeability Heterogeneity on Contaminant Mass Removal and Plume Persistence”, Journal of Hazardous Materials, 333(5), 109-115.2017.
7. Mark L. Brusseau, Zhilin Guo, “The Integrated Contaminant Elution and Tracer Test Toolkit, ICET3, for Improved Characterization of Mass Transfer, Attenuation, and Mass Removal”. Journal of Contaminant Hydrology, 208, 17-26. 2018.
8. Mark Brusseau, Kenneth Carroll, Zhilin Guo, Jon Mainhagu, “Borehole Diffusive Flux Apparatus for Characterizing Diffusive Mass-transfer in Subsurface Systems". Environmental Earth Sciences. 77:648, 2018.
9. Mark L. Brusseau, Zhilin Guo, “Assessing contaminant-removal conditions and plume persistence through analysis of data from long-term pump-and-treat operations”, Journal of Contaminant Hydrology, 164: 16-24, 2014.
10. D.E. Matthieu, III, M.L. Brusseau, Z. Guo, M. Plaschke, K.C. Carroll1, F. Brinker, “Persistence of a Groundwater Contaminant Plume after Hydraulic Source Containment at a Chlorinated-Solvent Contaminated Site”, Groundwater Monitoring and Remediation. 34, 4: 23-32,2014.