清华大学环境学院硕士研究生导师——侯德义

清华大学环境学院硕士研究生导师——侯德义

  姓  名：侯德义

  所在单位：地下水与土壤环境教研所

  职  称：副教授，博导

  职  务：院长助理

  邮寄地址：清华大学环境学院，100084

  办公地点：清华大学中意环境节能楼231

  电话/传真：010－62781159

  电子邮件：houdeyi@tsinghua.edu.cn

  教育背景

  1998．9 – 2002．6   清华大学  环境科学与工程系  环境工程学士

  2002．9 – 2003．6   斯坦福大学  土木与环境工程系  土木与环境工程硕士

  2003．6 – 2005．9   斯坦福大学  土木与环境工程系  土木与环境工程Degree of Engineer

  2011．10 – 2014．11  剑桥大学  工程系  环境工程博士

  工作履历

  2015．11 – 今      清华大学  环境学院  副教授、博导、青年千人学者

  2006．04 – 2015．11   Parsons公司  注册工程师、项目经理

  2005．10– 2006．04   美国加州东湾水利局  实习工程师

  学术兼职

  Science of the Total Environment（影响因子5.59）副主编

  Journal of Hazardous Materials（影响因子7.65）副主编

  Critical Reviews in Environmental Science and Technology（影响因子5.98）编委

  Environmental Pollution（影响因子5.71）编委

  Remediation Journal编委

  Environment International （影响因子7.94）、Chemical Engineering Journal （影响因子8.35）、Bioresource Technology （影响因子6.67）、 Chemosphere（影响因子5.11）客座编辑

  EST， JHM， EI等近50个SCI期刊审稿人

  可持续修复论坛（SURF）会员

  美国地球物理协会（AGU）会员，年会分会场主席

  ASTM国际标准协会会员，环境风险管理标准撰写工作组成员

  英国高等教育学院（Higher Education Academy）Associate Fellow

  研究领域

  污染土壤和地下水的绿色及可持续修复技术开发，包括生物炭材料、纳米修复材料、缓释长效绿色修复材料研制等

  有机污染物及重金属在自然状态及人为干扰下的迁移与归宿，包括地下水污染迁移模型及取样优化、氯代烃非平衡态迁移等

  铅、砷、汞等重点污染物的健康风险及防治策略，包括区域污染物分布、污染源削减方法、风险管控及修复优化策略等

  污染场地修复过程中的二次污染的全生命周期建模及环境修复的可持续性评价

  公众参与、环境行为、环境政策与环境管理对污染场地修复的影响

  （本课题组长期招收本科生、研究生、博士后及科研助理，请发简历至houdeyi@tsinghua.edu.cn）

  研究概况

  1．水体污染控制与治理科技重大专项，京津冀地下水污染防治关键技术研究与工程示范－典型污染场地地下水污染防治关键技术研究与工程示范，2018－2020年，课题负责人；

  2．国家自然科学基金面上项目，氯代烃污染土壤修复过程中相间非平衡态空间迁移机理研究，2017－2020，主持；

  3．国家环境保护标准项目，《污染地块风险管控实施技术导则》制定，2018年－2019年。协作单位负责人；

  4．世界银行全球环境基金－环保部对外合作中心项目，《污染地块修复后长期管理技术指南》及《污染地块修复环境社会管理计划技术指南》编制，2018年－2019年，主持；

  5．污染场地安全修复技术国家工程实验室开发基金资助项目，汞复合污染土壤稳定化技术与长效性评估研究，2017年－2018年，主持；

  6．全国土壤污染状况详查－重点行业企业用地土壤污染状况调查技术支撑，2017－2020年，主持；

  7．环境保护部土壤环境管理司委托项目，污染场地修复责任链及绿色可持续修复实施案例研究，2017－2018年，主持；

  8．中组部“人才计划”青年项目，2016年－2018年，主持；

  9．中国环境保护产业协会委托项目，《污染场地绿色可持续修复通则》制定，2016－2018，主持；

  10．环境保护部环境规划院技术支撑能力建设项目，场地绿色修复管理框架及网络平台设计，2016，主持；

  11．澳门特别行政区环境保护局委托项目，土壤环境质量标准深化研究，2016－2017，主要参与；

  12．教育部战略研究项目，土壤及地下水污染防治科技创新战略研究，2016，主要参与；

  13．安乡地下水资源保护区划技术服务项目。2017－2018。主持。

  14．智能高效污染土壤修复机械装备开发技术支持。2016－2020。主持。

  15．清华大学人才引进支撑项目。2015－2016。主持。

  16．中国－挪威国际合作项目，针对土壤污染及气候变化的可持续土壤管理。2017－2020年。主要参与。

  学术成果

  发表文章：

  1.Hou, Deyi (*), Luo, J. (*), Proof-of-Concept Modeling of a New Groundwater Sampling Approach. Water Resource Research. In Press.

  2.Hou, Deyi (*), O’Connor, D., Sonne, C., Ok, Y.S. (*), Trade war threatens sustainability. Science. 364:1242-1243. https://science.sciencemag.org/content/364/6447/1242.2

  3.O’Connor, D., Hou, Deyi (*), Risks of replenishing China's groundwater, Nature. 2019, 569:487-487. https://www.nature.com/articles/d41586-019-01617-5

  4.O'Connor, D., Hou, Deyi (*), Ok, Y.S., Mulder, J., Duan, L., Wu, Q., Wang, S., Tack, F.M.G., Rinklebe, J., Mercury speciation, transformation, and transportation in soils, atmospheric flux, and implications for risk management: A critical review. Environment International. 2019. 126: 747-761.  

  5.O'Connor, D., Zheng, X., Hou, Deyi (*), Shen, Z. (*), Li, G., Miao, G., O'Connell, S., Guo, M., Phytoremediation: Climate change resilience and sustainability assessment at a coastal brownfield redevelopment. Environment International. 2019. 130:104945

  6.Hou, Deyi, Ok, Y.S. (*), Soil Pollution – Speed Up Global Mapping, Nature. 2019, 566:455-455. https://www.nature.com/articles/d41586-019-00669-x

  7.Wang, Y., O'Connor, D., Shen, Z., Lo, I., Tsang, D., Pehkonen, S., Pu, S., Hou, Deyi (*), Green synthesis of nanoparticles for the remediation of contaminated waters and soils: constituents, synthesizing methods, and influencing factors. Journal of Cleaner Production. 2019, 226:540-549.

  8.Jin, Y., O'Connor, D., Ok, Y.S., Tsang, D., Liu, A., Hou, Deyi (*), Assessment of sources of heavy metals in soil and dust at children’s playgrounds in Beijing using GIS and multivariate statistical analysis. Environment International. 2019. 124: 320-328.

  9.Wang, Y., Li, Q., Zhang, P., O'Connor, D., Varma, R., Yu, M. (*), Hou, Deyi (*), One-pot Green Synthesis of Bimetallic Hollow Palladium-platinum Nanotubes for Enhanced Catalytic Reduction of p–Nitrophenol. Journal of Colloid and Interface Science. 2019. 539: 161-167.

  10.Shen, Z., Zhang, J., Hou, Deyi (*), Tsang, D., Ok, Y.S., Alessi, D., Synthesis of MgO-coated corncob biochar and its application in lead stabilization in a soil washing residue. Environmental International. 2019, 122: 357-362.

  11.Jia, X., O'Connor, D., Hou, Deyi (*), Jin, Y., Li, G., Zheng, C., Ok, Y.S., Tsang, D.C.W., Luo, J., Groundwater depletion and contamination: Spatial distribution of groundwater resources sustainability in China. Science of the Total Environment. 2019, 672:551-562.

  12.Shen, Z., Fan, X., Hou, Deyi (*), Jin, F., O'Connor, D., Tsang, D., Ok, Y., Alessi, D., Risk evaluation of biochars produced from Cd-contaminated rice straw and optimization of its production for Cd removal, Chemosphere. 2019. 233:149-156.

  13.O'Connor, D., Pan, S., Shen, Z., Song, Y., Jin, Y., Wu, W., Hou, Deyi (*). Microplastics undergo accelerated vertical migration in sand soil due to small size and wet-dry cycles. Environmental Pollution. 2019. 249:527-534.  

  14.O'Connor, D., Müller-Grabherr, D., Hou, Deyi (*), Strengthening Social-Environmental Management at Contaminated Sites to Bolster Green and Sustainable Remediation via a Survey. Chemosphere. 2019. 225: 295-303.

  15.Wang, L. Cho, D.W., Tsang, D.C.W (*), Cao, X., Hou, Deyi, Shen, Z., Alessi, D., Ok, Y., Poon, C.S., Green Remediation of As and Pb Contaminated Soil using Cement-free Clay-based Stabilization/Solidification. Environment International. 2019. 126: 336-345.

  16.Sun, Y., Cho, D., Graham, N., Hou, Deyi, Yip, A., Khan, E., Song, H., Li, Y., Tsang, D., Degradation of Antibiotics by Modified Vacuum-UV Based Processes: Mechanistic Consequences of H2O2 and K2S2O8 in the Presence of Halide Ions. Science of the Total Environment. 2019, 664:312-321.

  17.Wang, Y., Hou, Deyi (*), Qi, S., O'Connor, D., Luo, J., High stress low-flow (HSLF) sampling: a newly proposed groundwater purge and sampling approach. Science of the Total Environment. 2019, In press.

  18.Zhang, Y., Hou, Deyi (*), O'Connor, D., Shen, Z., Shi, P., Ok, Y.S., Tsang, D., Wen, Y., Luo, M., Lead Contamination in Chinese Surface Soils: Source Identification, Spatial-Temporal Distribution and Associated Health Risks. Critical Reviews in Environmental Science and Technology. In press.

  19.Song, Y., Kirkwood, N., Maksimovic, C., Zhen, X., O'Connor, D., Jin, Y., Hou, Deyi (*), Nature Based Solutions for Contaminated Land Remediation and Brownfield Redevelopment in Cities: A Review. Science of the Total Environment. 2019, 663: 568-579.

  20.Shen, Z., Hou, Deyi (*), Jin, F., Shi, J., Fan, X., Tsang, D., Alessi, D., Effect of production temperature on lead removal mechanisms by rice straw biochars. Science of the Total Environment. 2019, 655: 751-758.

  21.Wang, L., Chen, L., Cho, D., Tsang, D.C.W., Yang, J., Hou, Deyi, Baek, K., Kua, H., Poon, C., Novel Synergy of Si-rich minerals and Reactive MgO for Stabilization/Solidification of Contaminated Sediment. Journal of Hazardous Materials. 2019. 365: 695-706.

  22.Wang, L.; Chen, S.; Sun, Y.; Tsang, D.; Yip, A.; Ding, S.; Hou, Deyi; Baek, K.; Ok, Y.; Efficacy and Limitations of Low-Cost Adsorbents for In-situ Stabilization of Contaminated Marine Sediment. Journal of Cleaner Production. 2019, 212: 420-427.

  23.Peng, T., O'Connor, D., Zhao, B., Jin, Y., Zhang, Y., Tian, L., Zheng, N., Li, X., Hou, Deyi (*). Spatial distribution of lead contamination in soil and equipment dust at children’s playgrounds in Beijing, China. Environmental Pollution. 2019. 245:363-370.

  24.Maco, B., Bardos, P., Coulon, F., Erickson-Mulanax, E., Hansen, L.J., Harclerode, M., Hou, Deyi, Mielbrecht, E., Wainwright, H., Yasutaka, T., Wick, W.D., Resilient remediation: Addressing extreme weather and climate change, creating community value. Remediation Journal. 2018; 29:7-18.

  25.O'Connor, D., Hou, Deyi (*), Ye, J., Zhang, Y., Ok, Y.S., Song, Y., Coulon, F., Peng, T., Tian, L., Lead-Based Paint Remains a Major Public Health Concern: A Critical Review of Global Production, Trade, Use, Exposure, Health Risk, and Implications. Environmental International. 2018, 121:85-101.

  26.Wang, L., Chen, L., Tsang, D.C.W (*), Li, J.S., Baek, K., Hou, Deyi, Ding, S., Poon, C.S. (*), Recycling dredged sediment into fill materials, partition blocks, and paving blocks: Technical and economic assessment. Journal of Cleaner Production. 2018, 199: 69-76.

  27.O'Connor, D., Hou, Deyi (*), Ok, Y.S., Sarmah, A.K., Li, X., Tack, F.M.G., Sustainable in situ remediation of recalcitrant organic pollutants in groundwater with controlled release materials: A review. Journal of Controlled Release. 2018, 283:200-213.

  28.Liu, K., Huisingh, D., Zhu, J., Ma, Y., O'Connor, D., Hou, Deyi (*). Farmers’ Perceptions and Adaptation Behaviours Concerning Land Degradation: A Theoretical Framework and a Case Study in the Qinghai-Tibetan Plateau of China. Land Degradation & Development. 2018, 29:2460-2471.

  29.Ouyang, W., Li, J., Tian, L., Jiang, Y., Xiao, Y., Hou, Deyi, Li, S., Examining the Impacts of Land Use on Cancer Incidence through Structural Equation Modeling: A Case of the Pan-Yangtze River Delta, China, Cities. 2018, 83:11-23.

  30.Shen, Z., Hou, Deyi (*), Xu, W., Zhang., J., Jin, F., Zhao, B., Pan, S., Peng, T., Alessi, D., Assessing Long-term stability of cadmium and lead in a soil washing residue amended with MgO-based binders using quantitative accelerated ageing. Science of the Total Environment. 2018, 643: 1571-1578.

  31.Zhang, P., Hou, Deyi (*), O'Connor, D., Li, X., Pehkonen, S., Varma, R., Wang, X. Green and Size-Specific Synthesis of Stable Fe-Cu Oxides as Earth-Abundant Adsorbents for Malachite Green Removal. ACS Sustainable Chemistry & Engineering. 2018, 6:9229-9236.

  32.Zhang, Y., Hou, Deyi (*), Xiong, G., Duan, Y., Cai, C., Wang, X., Li, J., Tao, S., Liu, W. (*) Structural equation modeling of PAHs in ambient air, dust fall, soil, and cabbage in vegetable bases of Northern China. Environmental Pollution. 2018, 239:13-20.

  33.Wang, L., Yu, K., Li, J., Tsang, D. (*), Poon, C., Yoo, J., Baek, K., Ding, S., Hou, Deyi, Dai, J., Low-Carbon and Low-Alkalinity Stabilization/Solidification of High-Pb Contaminated Soil. Chemical Engineering Journal. 2018, 351:418-427.

  34.Shen, Z., Hou, Deyi (*), Zhang, P., Wang, Y., Zhang, Y., Shi, P., O'Connor, D., Lead-based paint in children’s toys sold on China’s major online shopping platforms. Environmental Pollution. 2018, 241:311-318.

  35.刘锴，宋易南，侯德义 (*)。污染地块修复的社会可持续性与公众知情研究。《环境保护》，2018。46:37-42。

  36.Fan, C., Tian, L. (*), Zhou, L., Hou, Deyi, Song, Y., Qiao, X., Li, J. Examining the impacts of urban form on air pollutant emissions: Evidence from China. Journal of Environmental Management. 2018, 212:405-414.

  37.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. 2018, 619-620: 815-826.

  38.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. 2018, 174:977-987.

  39.侯德义 (*)，宋易南。农田污染土壤的绿色可持续修复：分析框架与相关思考, 《环境保护》，2018。

  40.Hou, Deyi (*), Li, G., Nathanail, P., An emerging market for groundwater remediation in China: Policies, statistics, and future outlook. Front. Environ. Sci. Eng. 2018, 12(1): 16

  41.Jia, H., Hou, Deyi, Dai, M., Lu, H., Yan, C. (*), Effects of root exudates on the mobility of pyrene in mangrove sediment-water system. Catena, 2018, 162:396-401.  

  42.O’Connor, D., Peng, T., Li, G., Wang, S., Duan, L., Mulder, J., Cornelissen, G., Cheng, Z., Yang, S., Hou, Deyi (*), Sulfur-modified rice husk biochar: A green method for the remediation of mercury contaminated soil. Science of the Total Environment. 2018, 621:819-826.

  43.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. 2018, 619-620: 185-193.

  44.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. 2018, 88:103-112.

  45.Song, Y., Hou, Deyi (*), 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.

  46.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. 2018, 171:1396-1406.

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

  48.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. 2018, 29:1005-1018.

  49.O’Connor, D., Hou, Deyi (*), Targeting cleanups towards a more sustainable future. Environmental Science: Processes & Impacts. 2018, 20:266-269.

  50.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.  

  51.Zhang, P., Lo, I., O'Connor, D., Pehkonen, S., Cheng, H., Hou, Deyi (*). High efficiency removal of methylene blue using SDS surface-modified ZnFe2O4 nanoparticles. Journal of Colloid And Interface Science. 2017, 508:39-48.

  52.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. 2017, 231:1188-1200.

  53.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.  

  54.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.

  55.Hou, Deyi (*), Li, F., Complexities Surrounding China's Soil Action Plan. Land Degradation & Development. 2017, 28: 2315-2320.  

  56.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..

  57.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.  

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

  59.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.

  60.侯德义，李广贺。污染土壤绿色可持续修复的内涵与发展方向分析。环境保护，2016。

  61.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.

  62.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.  

  63.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.

  64.谷庆宝(*), 侯德义, 伍斌, 蒋晓云, 李发生, 污染场地绿色可持续修复理念、工程实践及对我国的启示, 环境工程学报, 2015, 9(8): 4061-4068.

  65.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.

  66.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.  

  67.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.

  68.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.

  69.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.

  70.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.

  71.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.  

  72.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.

  73.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.

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

  75.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.

  76.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.

  77.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.

  78.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.

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

  80.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.

  81.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.