姓　　名：	侯德義
所在單位：	地下水與土壤環(huán)境教研所
職　　稱：	副高級，博導
職       務：	院長助理
郵寄地址：	清華大學環(huán)境學院，100084
辦公地點：	？？？清華大學中意環(huán)境節(jié)能樓231
電話/傳真：	010-62781159
電子郵件：	houdeyi@tsinghua.edu.cn

 

 

 

 

教育背景

1998.9 – 2002.6      清華大學    環(huán)境科學與工程系    環(huán)境工程學士

2002.9 – 2003.6      斯坦福大學    土木與環(huán)境工程系    土木與環(huán)境工程碩士

2003.6 – 2005.9      斯坦福大學    土木與環(huán)境工程系    土木與環(huán)境工程Degree of Engineer

2011.10 – 2014.11  劍橋大學   工程系    環(huán)境工程博士

工作履歷

2015.11 – 今               清華大學    環(huán)境學院    副教授、博導、青年千人學者

2006.04 – 2015.11      Parsons公司    注冊工程師、項目經(jīng)理

2005.10– 2006.04      美國加州東灣水利局    實習工程師

學術(shù)兼職

可持續(xù)修復論壇（SURF）會員

美國地球物理協(xié)會（AGU）會員，年會分會場主席

ASTM國際標準協(xié)會會員，環(huán)境風險管理標準撰寫工作組成員

英國高等教育學院（Higher Education Academy）Associate Fellow

EST, JHM, JCP, STOTEN等十多個SCI期刊審稿人

研究領域

污染土壤和地下水的綠色及可持續(xù)修復技術(shù)開發(fā)，包括生物炭材料、納米修復材料、緩釋長效綠色修復材料研制等

有機污染物及重金屬在自然狀態(tài)及人為干擾下的遷移與歸宿，包括地下水污染遷移模型及取樣優(yōu)化、氯代烴非平衡態(tài)遷移等

鉛、砷、汞等重點污染物的健康風險及防治策略，包括區(qū)域污染物分布、污染源削減方法、風險管控及修復優(yōu)化策略等

污染場地修復過程中的二次污染的全生命周期建模及環(huán)境修復的可持續(xù)性評價

公眾參與、環(huán)境行為、環(huán)境政策與環(huán)境管理對污染場地修復的影響

（本課題組長期招收本科生、研究生、博士后及科研助理，請發(fā)簡歷至houdeyi@tsinghua.edu.cn）

研究概況

1. 水體污染控制與治理科技重大專項，京津冀地下水污染防治關(guān)鍵技術(shù)研究與工程示范-典型污染場地地下水污染防治關(guān)鍵技術(shù)研究與工程示范，2018-2020年，課題負責人；

2. 國家自然科學基金面上項目，氯代烴污染土壤修復過程中相間非平衡態(tài)空間遷移機理研究，2017-2020，主持;

3. 全國土壤污染狀況詳查-重點行業(yè)企業(yè)用地土壤污染狀況調(diào)查技術(shù)支撐，2017-2020年，主持；

4. 環(huán)境保護部土壤環(huán)境管理司委托項目，污染場地修復責任鏈及綠色可持續(xù)修復實施案例研究，2017-2018年，主持；

5. 中組部“千人計劃”青年項目，2016年-2018年，主持;

6. 中國環(huán)境保護產(chǎn)業(yè)協(xié)會委托項目，《污染場地綠色可持續(xù)修復通則》制定，2016-2018，主持；

7. 環(huán)境保護部環(huán)境規(guī)劃院技術(shù)支撐能力建設項目，場地綠色修復管理框架及網(wǎng)絡平臺設計，2016，主持；

8. 澳門特別行政區(qū)環(huán)境保護局委托項目，土壤環(huán)境質(zhì)量標準深化研究，2016-2017，主要參與;

9. 教育部戰(zhàn)略研究項目，土壤及地下水污染防治科技創(chuàng)新戰(zhàn)略研究，2016，主要參與;

10. 安鄉(xiāng)地下水資源保護區(qū)劃技術(shù)服務項目。2017-2018。主持。

11. 智能高效污染土壤修復機械裝備開發(fā)技術(shù)支持。2016-2020。主持。

12. 清華大學人才引進支撐項目。2015-2016。主持。

13. 中國-挪威國際合作項目，針對土壤污染及氣候變化的可持續(xù)土壤管理。2017-2020年。主要參與。

獎勵與榮譽

入選第六批中組部“青年千人計劃”，2015

學術(shù)成果

發(fā)表文章

1. O’Connor, D., Peng, T., Li, G., Wang, S., Duan, L., Mulder, J., Cornelissen, G., Cheng, Z., Yang, S., Deyi Hou (*), Sulphur-modified rice husk biochar: A green method for the remediation of mercury contaminated soil. Science of the Total Environment. November, 2017.

2. O’Connor, D., Peng, T., Zhang, J., Tsang, D.C.W., Alessi, D.S., Shen, Z., Bolan, N.S., Hou, Deyi (*), Biochar application for the remediation of heavy metal polluted land: A review of in situ field trials. Science of the Total Environment. November, 2017.

3. Zhao, B. 1, O’Connor, D. 1, Zhang, J., Peng, T., Shen, Z., Tsang, D.C.W., Hou, Deyi (*), Effect of pyrolysis temperature, heating rate, and residence time on rapeseed stem derived biochar. Journal of Cleaner Production. November, 2017.

4. Shen, Z., Hou, Deyi (*), Zhao, B., Xu, W., Yong Sik Ok, Nanthi S. Bolan, Daniel S. Alessi, Stability of heavy metals in soil washing residue with and without biochar addition under accelerated ageing. Science of the Total Environment. November, 2017.

5. Alam, M. S., Swaren, L., von Gunten, K., Cossio, M., Bishop, B., Robbins, L. J., Hou, D., Flynn, S. L., Ok, Y. S., Konhauser, K. O., Alessi, D. S. (*), Application of surface complexation modeling to trace metals uptake by biochar-amended agricultural soils. Applied Geochemistry. October, 2017.

6. Hou, Deyi (*), Yinan Song, Junli Zhang, Min Hou, O'Connor, D., Melissa Harclerode, Climate change mitigation potential of contaminated land redevelopment: a city-level assessment method. Journal of Cleaner Production. October, 2017.

7. Song, Y., Deyi Hou (*), Zhang, J., O'Connor, D., Li, G., Gu, Q., Li, S., Liu, P., Environmental and socio-economic sustainability appraisal of contaminated land remediation strategies: A case study at a mega-site in China. Science of the Total Environment. 2018, 610-611: 391-401.

8. Thangarajan, R., Bolan, N. (*), Kunhikrishnan, A., Wijesekara, H., Xu, Y., Tsang, D., Song, H., Ok, Y., Deyi Hou. The potential value of biochar in the mitigation of gaseous emission of nitrogen. Science of the Total Environment. 2018, 612: 257-268.

9. Shen Z., Tian D., Zhang X., Tang L., Su M., Zhang L., Li Z. (*), Hu S. (*), Hou Deyi, (2017). Mechanisms of biochar assisted immobilization of Pb2+ by bioapatite in aqueous solution. Chemosphere, 190:260-266. 

10. Zhang, P., Lo, I., O'Connor, D., Pehkonen, S., Cheng, H., Deyi Hou (*). High efficiency removal of methylene blue using SDS surface-modified ZnFe2O4 nanoparticles. Journal of Colloid And Interface Science. August, 2017.

11. Hou, Deyi (*), Ding, Z., Li, G., Wu, L., Hu, P., Guo, G., Wang, X., Ma, Y., O'Connor, D., Wang, X., A Sustainability Assessment Framework for Agricultural Land Remediation in China. Land Degradation & Development. July 2017.

12. Hou, Deyi (*), O'Connor, D., Nathanail, P., Tian, L., Ma, Y., Integrated GIS and multivariate statistical analysis for regional scale assessment of heavy metal soil contamination: a critical review. Environmental Pollution. July, 2017.

13. Qi, S., Hou, Deyi (*), Luo, J. (*), Optimization of groundwater sampling approach under various hydrogeological conditions using a numerical simulation model. Journal of Hydrology. 2017, 552:505-515. 

14. Hou, Deyi (*), Qi, S., Zhao, B., Rigby, M., O'Connor, D., Incorporating life cycle assessment with health risk assessment to select the ‘greenest’ cleanup level for Pb contaminated soil. Journal of Cleaner Production. 2017, 162:1157-1168.

15. Hou, Deyi (*), Li, F., Complexities Surrounding China's Soil Action Plan. Land Degradation & Development. May 2017.

16. Hou, Deyi (*), Gu, Q., Ma, F., O’Connell, S., Life Cycle Assessment Comparison of Thermal Desorption and Stabilization/Solidification of Mercury Contaminated Soil on Agricultural Land. Journal of Cleaner Production. 2016, 139: 949-956..

17. Hou, Deyi (*), Guthrie, P, and Rigby M., Assessing the trend in sustainable remediation: a questionnaire survey of remediation professionals in various countries. Journal of Environmental Management. August, 2016. 

18. Hou, Deyi (*), Divergence in Stakeholder Perception in Sustainable Remediation. Sustainability Science, 2016, 11(2): 215-230.

19. Ma, Y., Shi, Y., Hou, D., Zhang, X., Chen, J., Wang, Z., Xu, Z., Li, F., Du, X. Treatability of volatile chlorinated hydrocarbon-contaminated soils of different textures along a vertical profile by mechanical soil aeration: A laboratory test. Journal of Environmental Sciences. 2016.

20. 侯德義，李廣賀。污染土壤綠色可持續(xù)修復的內(nèi)涵與發(fā)展方向分析。環(huán)境保護，2016。

21. Hou, Deyi (*), Li, G., Green and Sustainable Remediation Movement in the New Millennium and its Relevance to China. Twenty Years Research and Development on Soil Pollution and Remediation in China. 2016.

22. Ma, Y., Du, X., Shi, Y., Hou, Deyi, Dong, B., Li, H., Xu, Z., Xie, Y., Fang, J., Li, Z., Cao, Y., Li, F. (*). Engineering practice of mechanical soil aeration for the remediation of volatile organic compounds-contaminated sites in China: Advantages and challenges. Frontiers of Environmental Science & Engineering. September, 2016.

23. Chen, Y., Hou, Deyi, Spain, J.C., Luo, J(*). Effects of rate-limited mass transfer on modeling vapor intrusion with aerobic biodegradation. Environmental Science and Technology. August 2016. 

24. O'Connell, S. (*) and Hou, Deyi, Resilience: A Nnew Consideration for Environmental Remediation in an Era of Climate Change, Remediation Journal, 2015, 26(1): 57-67.

25. 谷慶寶(*), 侯德義, 伍斌, 蔣曉云, 李發(fā)生, 污染場地綠色可持續(xù)修復理念、工程實踐及對我國的啟示, 環(huán)境工程學報, 2015, 9(8): 4061-4068.

26. Ma, F., Peng, C., Hou, Deyi, Wu, B., Zhang, Q., Li, F., Gu, Q. (*), Citric Acid Facilitated Thermal Treatment: An Innovative Method for the Remediation of Mercury Contaminated Soil, Journal of Hazardous Materials, 2015, 300: 546-552.

27. Hou, Deyi (*), Al-Tabbaa, A. and Hellings, J, Sustainable site clean-up from megaprojects: Lessons from London 2012, Proceedings of ICE - Engineering Sustainability, 2015, 168(2): 61-70. 

28. Luo, J. (*), Kurt, Z., Hou, Deyi, and Spain, J., Modeling Aerobic Biodegradation in the Capillary Fringe, Environmental Science and Technology, 2015, 49(3): 1501-1510.

29. Hou, Deyi (*), Al-Tabbaa, A, Guthrie, P, Hellings, J., Using a Hybrid LCA Method to Evaluate the Sustainability of Sediment Remediation at the London Olympic Park, Journal of Cleaner Production, 2014, 83: 87-95.

30. Hou, Deyi (*), O’Connor, D. and Al-Tabbaa, A., Modeling the Diffusion of Contaminated Site Remediation Technologies, Water, Air, & Soil Pollution, 2014, 225(9): 1-6.

31. Hou, Deyi (*), O’Connor, D. and Al-Tabbaa, A., Comparing the Adoption of Contaminated Land Remediation Technologies in the US, UK, and China, Remediation Journal, 2014, 25(1): 33-51.

32. Ma, F., Zhang, Q., Xu, D., Hou, Deyi, Li, F., and Gu, Q. (*), Mercury Removal from Contaminated Soil by Thermal Treatment with FeCl3 at Reduced Temperature, Chemosphere, 2014, 117: 388-393. 

33. Hou, Deyi (*), Al-Tabbaa, A, Guthrie, P, The adoption of sustainable remediation behaviour in the US and UK: A cross country comparison and determinant analysis, Science of the Total Environment, 490(8): 905-913.

34. Hou, Deyi (*), Al-Tabbaa, A, Chen, H and Mamic, I., Factor analysis and structural equation modelling of sustainable behaviour in contaminated land remediation, Journal of Cleaner Production, 2014, 84: 439-449.

35. Hou, Deyi (*) and Al-Tabbaa, A., Sustainability: A new imperative in contaminated land remediation, Environmental Science and Policy, 2014, 39: 25-34. 

36. Hou, Deyi (*), Al-Tabbaa, A, and Luo, J. Assessing effects of site characteristics on remediation secondary life cycle impact with a generalised framework, Journal of Environmental Planning and Management, 2014, 57(7): 1083-1100.

37. Hou, Deyi (*) and Luo, J. Evaluation of Apparent Permeability and Field Assessment of Aged Asphalt Capping Systems, Journal of Environmental Engineering. 2013, 139 (2): 167-175.

38. Hou, Deyi (*), Luo, J., and Al-Tabbaa, A., Shale Gas Can be a Double Edged Sword for Climate Change, Nature Climate Change, 2012, 2 (6): 385-387.

39. Hou, Deyi (*), Al-Tabbaa, A., Guthrie, P., and Watanabe, K. Sustainable Waste and Materials Management: National Policy and Global Perspective, Environmental Science and Technology, 2012, 46 (5): 2494？2495.

40. Hou, Deyi (*), Vision 2020: More Needed in Materials Reuse and Recycling to Avoid Land Contamination, Environmental Science and Technology, 2011, 45 (15), 6227-6228.

41. Hou, Deyi (*) and Leu, J., Optimizing the Remedial Process at a Petroleum Contaminated Site Using a Three Tier Approach. Journal of Environmental Engineer. 2009, 135 (11): 1171–1180.

42. Boehm, A. B. (*), Hou, Deyi, Whitman, R. L, Nevers, M. B., and Weisberg, S. B. (2007). Now-casting recreational water quality. A chapter in Statistical Framework for Water Quality Criteria and Monitoring. Edited by Larry Wymer and Alfred Dufour.

43. Hou, Deyi, Rabinovici, S. J., Boehm, A. B. (*). Enterococci Predictions from Partial Least Squares Regression Models in Conjunction with a Single-Sample Standard Improve the Efficacy of Beach Management Advisories. Environmental Science and Technology. 2006, 40 (6): 1737  1743.