專業註冊
美國加利福尼亞州註冊高級工程師,註冊號77178
獲獎榮譽
北京“中關村高端領軍人才”入選者(2017)
江蘇省第五期“333工程”入選者(2016)
江蘇省高層次創新創業人才引進計畫(2015)
第三屆中國江蘇創新創業大賽三等獎(2015)
南京領軍型科技創業人才(2014)
紹興330海外英才計畫A類項目入選者(2013)
中國科學院百人計畫入選者(2013)
美國地下水協會傑出地下水項目獎(ARCADIS):地下水保護獎 (2013)
馬里蘭大學研究生獎學金(2000-2002)
杜邦獎學金,大連理工大學(1995,1996,1998)
大連理工大學優秀畢業生(1997)
學會任職
美國國家地下水協會會員(National Groundwater Association, NGWA)
國際水文地質專家協會會員(International Association of Hydrogeologists)
江蘇省環境科學學會專家
研究領域
污染場地調查和修復技術可持續性管理;
污染場地調查與原位修復技術(熱修復、原位生物修復、原位化學氧化還原和滲透性反應牆等);
土壤和地下水修復材料和修復設備研發;
土壤和地下水污染修復技術與原理;
土壤和地下水中污染物遷移轉化規律;
礦山開發對土壤和環境水資源(地下水和地表水)定量環境影響評估。
主要成果
代表性著作
Pecht, M.G., R.E. Kaczmarek, X. Song, D.A. Hazelwood, R.A. Kavetsky, and D.K. Anand, 2012. Rare Earth Materials: Insights and Concerns, CALCE EPSC Press, University of Maryland, College Park, Maryland, USA.
授權專利
宋昕, 徐坷坷, 唐偉, 王新博. 基於零價鐵-PRB還原修復飽和含水層氯代烴類DNAPL污染源的實驗裝置, 201720865197.4.
宋昕, 林娜, 郭亮, 殷鵬華, 胡志豪. 一種利用磁鐵礦和鋁土礦礦渣原位修復地下水中汞污染的方法, 201610035059.3.
宋昕, 魏昌龍, 王晴. 一種模擬地下環境中污染物在飽和非均質含水層中遷移轉化的三維可視模擬裝置, 201621037180.1.
宋昕, 陳星, 唐洪濤, 丁達. 一種土壤熱修復可行性模擬實驗裝置, 201720699247.6.
吳駿, 陳夢舫, 李春平, 羅飛, 晏井春, 宋昕.一種工業場地污染防控方法, 201310727879.5.
宋昕, 劉建國. 一種一體化綜合土壤原地聯合修復設備, 201410177784.5.
申請專利
宋昕,任家強,陳星,劉朝陽,丁達. 一種污染土壤熱修復小試研究實驗裝置和方法, 201810229839.0.
王晴,宋昕,唐詩月,魏昌龍. 一種修復氯代烴污染地下水的方法, 201810637701.4.
宋昕,妮·卡瑪·科祖·杜瓦爾,林娜. 一種評估納米粒子在地下環境中運移和歸趨的模擬實驗裝置和方法, 201810145567.6.
宋昕, 徐坷坷, 唐偉, 王新博. 基於零價鐵-PRB還原修復飽和含水層氯代烴類DNAPL污染源的實驗裝置及方法, 201710581572.7.
宋昕, 楊淼焱, 王晴, 唐詩月. 一種溴代烴厭氧降解菌劑的製備方法及套用, 201710383110.4.
宋昕, 丁達, 魏昌龍, 陳星, 任家強, 唐洪濤, 呂正勇. 一種污染土壤熱修復可行性研究實驗裝置和方法, 201710334174.5.
宋昕, 魏昌龍, 王晴. 一種模擬地下環境中污染物在多孔介質中遷移轉化的三維可視模擬裝置, 201610802188.0.
宋昕, 陳星, 張微, 呂正勇, 張岩坤. 過氧化硫酸鈉的套用, 201610154907.2.
宋昕, 程瑩瑩, 徐坷坷. 一種降解地下水中重質非水相液體成分複合氯代烴污染的方法, 201510921817.7.
宋昕, 郭亮,殷鵬華. 一種場地用地下水水位及電導率自動測試及數據儲存裝置, 201410209744.4.
期刊論文
1. Koju, N. K., X. Song*, Q. Wang, Z. H. Hu, C. Colombod (2018)."Cadmium removal from simulated groundwater using alumina nanoparticles: behaviors and mechanisms". Environmental Pollution, 240, 255-266.
2. Wei, C. L., Q. Wang, X. Song*, X. Chen, R. J. Fan, D. Ding, and Y. Liu (2018). "Distribution, source identification and health risk assessment of PFASs and two PFOS alternatives in groundwater from non-industrial areas". Ecotoxicology and Environmental Safety, 152: 141-150.
3. Hu, Z. H., X. Song*, C. L. Wei, J. G. Liu (2017). "Behavior and mechanisms for sorptive removal of perfluorooctane sulfonate by layered double hydroxides". Chemosphere, 187: 196-205.
4. Zhou, D. M., X. Song, F. J. Zhou, B. H. Gu (2017). "Soil Environment and Pollution Remediation". Pedosphere-Preface, 27(3): 387-388.
5. Wei, C. L., X. Song*, Q. Wang, Z. H. Hu (2017). "Sorption kinetics, isotherm and mechanisms of PFOS on soils with different physicochemical properties". Ecotoxicology and Environmental Safety, 142: 40-50.
6. Koju, N. K., X. Song*, Q. Wang (2017). "Effective remediation of low-concentration cadmium in groundwater using nano-scale magnesia". Environmental Science and Pollution Research, 24(11): 10819-10832.
7. 徐坷坷, 宋昕*, 程瑩瑩, 王晴 (2017). "正己烷萃取-氣相色譜法測定地下水中5 種揮發性氯代烴的方法最佳化研究". 水資源保護, 33(3) (2017): 47-51.
8. Qiao, W. C., J. P. Chu, S. J. Ding, X. Song, L. Yu* (2017). "Characterization of a thermo-alkalistable laccase from Bacillus subtilis cjp3 and its application in dyes decolorization". Journal of Environmental Science and Health, 52: 710-717.
9. Yu, L.*, M. Y. Cao, P. T. Wang, S. Wang, Y. R. Yue, W. D. Yuan, W. C. Qiao, F. Wang, X. Song* (2017). "Simultaneous decolorization and biohydrogen production from xylose by Klebsiella oxytoca GS-4-08 in presence of azo dyes with sulfonate and carboxyl". Applied and Environmental Microbiology, 83(10): e00508-17.
10. 林娜, 宋昕*, 郭亮, 殷鵬華, 胡志豪 (2017). "天然磁鐵礦和商用Fe3O4 修復Hg(II)污染地下水的模擬研究" . 土壤, 49(1): 118-128.
11. Jameson, N. J., X. Song, M. Pecht (2016). "Conflict minerals in electronic systems: an overview and critique of legal initiatives". Science and engineering ethics, 22(5): 1375-1389.
12. Yu, L.*, Q. Tang, Y. J. Zhang, R. P. Chen, X. Liu, W. C. Qiao, W. W. Li, H. H. Ruan, X. Song* (2016). "A novel Fe (III) dependent bioflocculant from Klebsiella oxytoca GS-4-08: culture conditions optimization and flocculation mechanism". Scientific Reports, 6. doi:10.1038/srep34980.
13. Song, X., Q. Wang, D. M. Zhou (2016). "Reply to Chen et al.: Ten-Point Soil Plan: China’s Declaration of War on Soil Contamination". Science-eLetters, http://science.sciencemag.org /content/344/6185/691.1.e-letters.
14. Yin, P. H., Z. H. Hu, X. Song*, J. G. Liu, N. Lin (2016). "Activated Persulfate Oxidation of Perfluorooctanoic Acid (PFOA) in Groundwater under Acidic Conditions". International Journal of Environmental Research and Public Health, 13(6): 602-616.
15. 宋昕*, 林娜, 殷鵬華 (2015). "中國污染場地修復現狀及產業前景分析". 土壤, 47(1):1-7.
16. Colombo,* C., G. Palumbo, E. Di Iorio, X. Song et al. (2015). "Influence of Hydrothermal Synthesis Conditions on Size, Morphology and Colloidal Properties of Hematite Nanoparticles". Nano-Structures & Nano-Objects, 2:19-27.
17. Stagge, J. H., E. A. Seagren, and X. Song* (2015). "Sorption of Naphthalene onto Natural and Surfactant-Amended Soils". Journal of Environmental Engineering (ASCE), 142(4): 06015010.
18. Ha, J-H, E. A. Seagren, and X. Song* (2014). "Oxygen Transport across the Capillary Fringe in LNAPL-Pool Source Zones". Journal of Environmental Engineering (ASCE), 140(12): 04014040. DOI: 10.1061/(ASCE)EE.1943-7870.0000866.
19. Song, X*. and E. A. Seagren (2014). "Laboratory-scale in Situ Bioremediation in Heterogeneous Porous Media: Biokinetics-Limited Scenario". Journal of Contaminant Hydrology, 158: 78-92.
20. Song, X., M-H. Chang, and M. Pecht* (2013). "Rare-Earth Elements in Lighting and Optical Applications and Their Recycling". JOM, 65(10): 1276-1282.
21. Johnson, M. A., X. Song, E. A. Seagren* (2013). "A Quantitative Framework for Understanding the Complex Interactions of Competing Interfacial Processes and in situ Biodegradation". Journal of Contaminant Hydrology, 146: 16-36.
22. Song,* X. and E. A. Seagren (2008). "In Situ Bioremediation in Heterogeneous Porous Media: Dispersion-Limited Scenario". Environmental Science & Technology, 42(16): 6131-6140.
會議論文
1. Song, X. and G. Leone (2013). "Modeling Application in Evaluating Environmental Impact due to Phosphate Mining Activities". Reliable Mine Water Technology (Vol I): 469-475, Denver, Colorado, USA.
2. Hamper, M., X. Song et al. (2009). "Simulation of Groundwater Protection System Alternatives for the Thornton Composite Reservoir of the Metropolitan Water Reclamation Distract of Greater Chicago Tunnel and Reservoir System". 33rd International Association of Hydraulic Engineering and Research Congress, August 10-14, 2009, Vancouver, British Columbia, Canada.
3. Song, X. and S. Potter (2007). "Monitored Natural Attenuation Evaluation: Apparent Effect Associated with Heterogeneities in Subsurface". Battelle Press - 9th International In Situ and On-Site Bioremediation Symposium, Baltimore, Maryland, USA.
4. Cecan, L., F. Natitus, X. Song et al. (2006). "Using MODFLOW-MT3D to Evaluate Groundwater Natural Resource Damage". MODFLOW and More: Managing Ground Water Systems, The Colorado School of Mines, Golden, Colorado, USA.
會議報告
1. Song, X. (2016). "International University Cooperation on Land Protection in European-Asiatic Countries". Cluster meeting of E+ CBHE projects, December 15-16, 2016, Beijing, China
2. Hu Z. H. and X. Song (2016). "Efficient Removal of Perfluorooctane Sulfonate (PFOS) in Groundwater Using Layered Double Hydroxide (LDH) ". The 5th International Conference on Soil Pollution and Remediation, September 24-26, 2016, Hangzhou, China
3. Song, X. (2016). "Current Situation of Soil Environmental Pollution and Countermeasures of Prevention and Control in China". The Steering Committee meeting of Erasmus+ project "International University Cooperation on Land Protection in European-Asiatic Countries”, June 14-15, 2016, Nitra, Slovakia
4. Song, X. (2016). "Reductive Degradation of PFOS in Groundwater Using Nano-Scale Zero Valent Iron". 2016 NGWA Groundwater Summit, April 24-27, 2016, Denver, Colorado, USA
5. Song, X. (2015). "Estimation of Dual-Domain Mass-Transfer Coefficient Using Multiple Approaches for Groundwater Remediation". GSA 2015, November 1-4, 2015, Baltimore, Maryland, USA
6. Song, X. (2015). "Modeling Application in Evaluating Interactions between Groundwater and Surface Water due to Phosphate Mining Activities". the 42nd IAH 2015 CONGRESS, September 13-18, 2015, Roman, Italy
7. Lin, N., L. Guo and X. Song (2015). "Remediation of Mercury in Groundwater with Iron-Containing Materials". The 13th International Conference on the Biochemistry of Trace Elements, July 12-19, 2015, Fukuoka, Japan
8. Song, X. (2015). "Soil Contamination and Remediation in China: Current Status and Outlook". The Guy F. Atkinson Distinguished Lecture Series in University of Utah, March 23-26, Salt Lake City, Utah, USA
9. Song, X. (2015). "In Situ Chemical Oxidation of Perfluorinated Compounds Using Innovatively Catalyzed Persulfate", 2015 NGWA Groundwater Summit, March 16-18, 2015, San Antonio, Texas, USA
10. Song, X. and N. Lin (2014). "Remediation of Mercury in Groundwater with Iron Compounds". GSA 2014, October 19-22, Vancouver, BC, Canada
11. Song, X. (2014). Keynote talk on "Contaminated Site Remediation Industry in China". 2014 NGWA Groundwater Summit, May 4 - 7, Denver, Colorado, USA
12. Song, X. (2014). "Remediation of Mercury and Arsenic in Groundwater with Iron Compounds". 2014 NGWA Groundwater Summit, May 4 - 7, Denver, Colorado, USA
13. 宋昕 (2014). “石油污染場地原位化學氧化修復案例分析”. “中國土壤學會土壤環境專業委員會第十七次會議” 暨“2014年土壤環境保護與生態文明建設國際研討會”, 4月19 -21日, 中國長沙
14. 宋昕 (2013). “美國鉻Cr (VI) 修復案例分析及其對我國污染場地修復的啟示”。第三期污染場地調查、評估與修復研討會, 12月16日, 中國南京
15. 宋昕 (2013). “美國“超級基金”污染場地修復成功案例”. 2013年污染場地治理修復國際論壇, 10月22-23日, 中國北京
16. 宋昕 (2013). “中國污染場地現狀與修復前景分析”. 2013年CEO發展大會: 中國國際節能環保與新型城鎮化高峰論壇, 9月26-27日, 中國上海
17. Song, X. and D. Lipson (2013). "Estimation of Dual-Domain Mass-Transfer Coefficient Using Multiple Approaches for Groundwater Remediation". MODFLOW 2013 and More: Integrated Hydraulic Modeling, June 6-8, the Colorado School of Mines, Golden, Colorado, USA.
18. Song, X. and G. Leone (2013). "Modeling Application in Evaluating Environmental Impact on Water Resources due to Phosphate Mining Activities". IMWA2013 - Reliable Mine Water Technology, August 5-9, 2013, Golden, Colorado, USA.
19. Song, X. and D. Nelson (2013). "Field-Scale Application of In-Situ Reductive Dechlorination: Trichloroethene (TCE) Transformation Mechanism and Rate". 2013 NGWA Groundwater Summit, April 28-May 1, 2013, San Antonio, Texas, USA.
20. Song, X. and G. Leone (2011). "Modeling Application in Evaluating 1,4-Dioxane Remediation Alternatives for a Site with Unique Groundwater Flow Conditions". 2011 NGWA Groundwater Summit and 2011 Groundwater Protection Council Spring Meeting, May 1-5, 2011, Baltimore, Maryland, USA.
21. Song, X. and G. Leone (2011). "Modeling Application in Evaluating Impact on Water Resources due to Phosphate Mining Activities". MODFLOW 2011 and More: Integrated Hydraulic Modeling, June 6-8, the Colorado School of Mines, Golden, Colorado, USA.
22. Song, X. and G. Leone (2010). "Evaluation of Groundwater-Surface Water Interactions due to Phosphate Mining Activities." 2010 GSA Denver Annual Meeting, to be presented on November, 2010, Denver, Colorado, USA.
23. Song, X. and G. Leone (2010). "Modeling Application in Evaluating Groundwater-Surface Water Interactions due to Mining Activities." 2010 NGWA Groundwater Summit and 2010 Groundwater Protection Council Spring Meeting, April 11-15, 2010, Denver, Colorado, USA.
24. Song, X., C. Divine et al. (2009). “Practical Modeling Applications to Support in situ Remediation System Design and Assessment.” 2009 Groundwater Summit: The Science and Engineering Conference, April 19-23, 2009, Tucson, Arizona, USA.
25. Wuerl, B., X. Song et al. (2008). "Innovative Substrate Delivery System Design to Support in situ Treatment of a Cr (VI) Plume." The Sixth International Conference on Remediation of Chlorinated Recalcitrant Compounds, Monterey, California, USA.
26. Song, X. and S. Potter (2007). "Monitored Natural Attenuation Evaluation: Apparent Effect Associated with Heterogeneities in Subsurface." Ninth International in situ and on site Bioremediation Symposium, Baltimore, Maryland, USA.
27. Song, X. E. A. Seagren et al. (2006). "Engineered in situ Bioremediation Application at Chlorinated Solvents Contaminated Facilities." MODFLOW 2006 and More, the Colorado School of Mines, Golden, Colorado, USA.
28. Cecan, L., F. Natitus, X. Song et al. (2006). "Using MODFLOW-MT3D to Evaluated Groundwater Natural Resource Damage." MODFLOW 2006 and More, the Colorado School of Mines, Golden, Colorado, USA.
29. Song, X. and E. A. Seagren (2005). "Engineered in situ Bioremediation in Heterogeneous Porous Media: Biokinetics-Limited Scenario (Experimental Results)." 2005 AEESP Research and Educational Conference, Potsdam, New York, USA.
30. Song, X. and E. A. Seagren (2005). "Engineered in situ Bioremediation in Heterogeneous Porous Media: Biokinetics-limited Scenario (Experimental Results)." Eighth in situ and on site Bioremediation Symposium, Baltimore, Maryland, USA.
會議組織
1. 會議主席,組織並主持了“2018污染場地熱修復技術研討會” ,2018年1月18-19日,中國南京。
2. 會議主席,組織並主持了中德“土壤和地下水環境中持久性有機污染現狀、遷移轉化及其修復技術”雙邊研討會,2016年4月17-22日,中國南京。
3. 會議組委會,組織了“歐盟Erasmus+: International University Cooperation on Land Protection in European-Asiatic Countries(IUCLAND)項目啟動會”,2016年1月13-15日,中國南京。
4. 大會主席,組織並主持了“2014 污染場地調查和修復技術研討會”,2014年11月10-12日,中國南京。
項目經驗節選
1. 《原長沙鉻鹽廠鉻污染整體治理項目》整體治理方案中試試驗及相關服務項目(長沙市鉻污染物治理有限公司,2181萬元,2018.5.25-2018.8.31,主持)。
2. 土壤污染風險評價與場地污染修復(科學院項目/STS計畫項目子課題,90萬元,2018.1.1-2019.6.30,主持)。
3. 土壤和地下水中持久性有機污染物的現狀、遷移及其修復(中德研討會項目,國家級,17.7萬元,2017.4.17-2017.4.22,主持)。
4. PFOS典型替代物F-53B在土壤和地下水中的環境行為及其修復研究(國家自然科學基金面上項目,41771354,63萬元, 2018.01-2021.12,主持)。
5. 典型VOCs污染場地原位強化生物修復技術研究與示範(江蘇省科技計畫項目社會發展--面上項目,BE2017779,40萬元,2017.07-2020.06,主持)。
6. 地下水環境中PFOS和PFOA的遷移行為及活化過硫酸鹽對其氧化降解研究(國家自然科學基金面上項目,41571460,77.4萬元,2016.01-2019.12,主持)。
7. International University Cooperation on Land Protection in European-Asiatic Countries(歐盟Erasmus+項目,2015-3471/001-001,58萬元,2015.10-2018.10,參與)。
8. 長三角複合有機污染場地土壤和地下水原位修復關鍵技術研究與示範(中國科學院重點部署項目,KFZD-SW-303,500萬元,2016.01-2017.12,主持)。
9. 我國典型污染場地原位生物及其聯合物化修復技術研究(中國科學院重點部署項目,KZZD-EW-TZ-13,200萬元,2013.03-2017.03,主持)。
10. 污染場地風險評估:編制風險評估方案;指導風險評估水文地質調查和補充調查工作的進行;根據場地前期調查及補充調查數據,開發場地概念模型,對場地關注污染物進行風險評估;計算場地重金屬砷背景值,分析場地土壤樣品進行浸出實驗,確定場地科學合理的修複目標值;進行修復技術方案的篩選。
1) 浙江省環境保護科學設計研究院,2014-2015
2) 杭州信息科技有限公司,2016
3) 杭州信江科技發展有限公司,2017
11. 污染場地修復藥劑研發項目(浙江康銳環境科技有限公司,2014-2015):研發重金屬鉻、汞的修復藥劑及施用方法。
12. 原位強化還原脫氯(Enhanced Reductive Dechorination)生物修復系統的設計與實施(Sierra Army Depot,Herlong,California,2008-2013):對含氯溶劑的污染場地土壤和地下水修復技術篩選進行可行性分析,開展現場中試實驗和示蹤實驗,進行全面生物修復系統的設計和工程實施,對生物修復系統的有效性進行長期系統評估。
13. 磷酸鹽礦業開採環境影響及復墾設計的評估(Agrium Conda Phosphate Operations,Caribou,Idaho,2012-2013):為Idaho東南地區的地下水流動系統建立了概念模型;建立了地下水流動模型模擬地下水和地表水的相互作用,評估了磷酸鹽礦業開採活動對地下水和地表水資源的潛在影響,對復墾設計方案進行評估。
14. 磷酸鹽礦業開採環境影響及復墾設計的評估(Monsanto Company,Caribou,Idaho,2007-2012):通過柱浸實驗確定採礦活動中下列污染物釋放參數:鎘,鐵,錳,鎳,硒,硫酸鹽,溶解性總固體(TDS)和鋅;開發區域地下水流動和溶質運移模型以:(1)模擬開採前的地下水系統與地表水的區域性相互作用,(2)為開採活動造成的對地表水和地下水資源的潛在影響進行定量分析,(3)對復墾方案進行分析評估,從而為復墾系統設計提供技術參數。此項目獲得了2013年美國地下水協會的最佳地下水保護項目獎。
15. 含鉻污染場地原位還原吸附沉澱修復系統的設計(保密客戶,Merced,California,2006-2011):開展污染場地現場中試實驗和示蹤實驗,建立地下水流動和污染物遷移模型為修復系統提供設計參數支持,負責設計全面生物修復系統。
16. 含鉻污染場地原位還原吸附沉澱修復系統的設計(保密客戶,Hinkley, California, 2007-2010):為原位反應區設計提供水文地質參數,最佳化全面反應區修復系統的設計參數和操作參數。
17. 美國芝加哥城市水資源管理和城市水庫環境影響報告書(Metropolitan Water Reclamation District of Greater Chicago, Chicago, Illinois 2007-2008):建立地下水流動模型定量分析了建立Thornton Composite Reservoir(Metropolitan Water Reclamation District of Greater Chicago (MWRDGC) Tunnel and Reservoir Plan (TARP))對地下生活造成的潛在影響,為地下水保護系統設計提供了技術參數。
18. 污染場地概念模型及修複方案的可行性分析
1) British Petroleum Portfolio (2008-2013)
2) Chevron Portfolio (2008-2013)
3) Brenntag Pacific, Inc. (2011-2012)
4) Lockheed Martin (2010-2011)
5) Union Pacific Rail Road (2010)
6) Pacific Gas & Electricity (2009-2010)
7) General Motors Corporation, Moraine, Ohio (2008)
8) Phoenix-Goodyear Airport North Superfund Site, Goodyear, Arizona (2007)
9) Maybrook Trust, Harriman, New York (2007)
10) Lake City Army Ammunition Plant, Independence, Missouri (2006)
11) The Former Hamilton Sunstrand Facility, Denver, Colorado (2006)
12) Fort Gordon Military Reservation, Fort Gordon, Georgia (2005)
13) PennSauken Sanitary Landfill, Camden, New Jersey (2005)
19. 包氣帶模型模擬(Chevron,Sacramento, California, 2010;Former Tracy Yard, Tracy, California,2008;Coffeyville Resources Refining and Marketing, Coffeyville, Kansas, 2007):利用數值模型SESOIL和VLEACH對包氣帶進行模擬,定量分析浸出液對地下水質量的影響。
20. 填埋場概念模型和數值模型分析及其管理(Former Golden Eagle Refinery and Former Gardena Valley Landfill, Carson, California, 2008; Oliver Landfill Site, Waterford Township, Pennsylvania, 2007):發展填埋場概念模型,利用數值模型定量分析填埋場浸出液對地下水的影響,為填埋場修復系統設計提供技術參數。
21. 污染場地自然衰減(Monitored Natural Attenuation)分析(Lake City Army Ammunition Plant, Independence, Missouri, 2007):計算自然衰減速率,分析自然衰減和原位反應區對於地下水修復的貢獻,設計自然衰減的監測井的布置。
22. 地下水抽取和處理系統(Pump & Treat)有效性分析(Lake City Army Ammunition Plant, Independence, Missouri, 2006; Former Whittaker Ordinance Facility, Hollister, California, 2005):利用MODALL模型對在運行的地下水抽取和處理系統進行最佳化,在防止污染物遷移的前提下,降低抽取速率,提高系統運行效率。
23. 地下水異質性,界面和生物降解的研究(National Science Foundation Funded Project, University of Maryland, College Park, Maryland,2000-2005):啟動美國國家自然科學基金項目“地下水異質性,界面和生物降解:定義原位生物修復限制因子”,建立一套用於原位修復系統的定量設計框架。
24. Phase I和Phase II大氣環境影響評估(北京高速公路Phase I和Phase II環境影響評估Beijing, China, 1998-2000):開展北京高速公路Phase I和Phase II大氣環境影響評估。
25. 廢水處理廠設計(海城污水處理廠,大連,中國,1997):系統設計大連海城污水處理廠的處理設備。