职称职务:教授
研究领域:生态水文,生态处理与修复技术
联系电话:**, **
邮 箱:huangj@nankai.edu.cn
教育背景1986-1990 天津大学,水资源与港湾工程系,获工学学士学位
1988-1990 天津大学,技术经济系,获工学学士第二学位
2002-2006 加拿大圭尔夫大学,物理工程学院,获博士学位
科研教学经历2010-2015 南开大学,环境科学与工程学院,教授
2010-2014 天津大学,建筑工程学院,教授
2009-现在 加拿大圭尔夫大学,工程学院,兼职教授
2007-2010 加拿大MMM集团公司工作,任高级项目工程师
2006-2007 加拿大圭尔夫大学,工程学院,博士后研究
2003-2006 加拿大CHI(计算水利研究所)兼职,项目工程师
学术与社会任职1. 加拿大土木工程学会(CSCE)资深会员(Fellow),国际事务委员会委员,副主席(Deputy Chair)
2. 加拿大注册工程师协会会员,
3. 世界水信息(Hydroinformatics, IAHR/IWA)委员会委员,领导团队成员
4. 亚洲太平洋地球科学学会(AOGS)水文科学委员会 秘书
科研项目在中国,加拿大,美国,阿拉伯地区,南美洲完成生态水文及生态修复等多项科研及咨询项目
(一)国际项目(代表性项目)
1) 美国加利福尼亚州Sears Point Bay湿地修复重建研究
2) 加拿大新斯科舍省Halifax城市CSO(Combined Sewer Outflow)研究
3) 加拿大安大略省Barrie市Lover’s Creek 流域水文研究
4) 加拿大大多伦多地区(TRCA)防洪预警系统开发研究
5) 加拿大安大略省Oakville城市北部开发中的低影响开发方式研究(BMP/LID Study for North Oakville Development, Town of Oakville, Ontario)
6) 加拿大安大略省 Don River 水质监测及模拟研究
7) 南美厄瓜多尔首都基多国际机场暴雨管理系统研究及设计
8) 美国绿色建筑LEED认证项目(20多项)
(二)国内项目
1) 2007-2010:科技部国际合作项目(2007DFA70860)中加合作项目石羊河生态修复与示范(于2011 年获水利部大禹科学技术奖一等奖,证书号DYJ**-G08,项目参与人)
2) 2010-2012:教育部新世纪优秀人才(NCET-09-0586),气候变化与饮用水水源安全(项目负责人)。
3) 2011-2011:天津空港经济区生态水系水质提升方案研究(项目负责人)
4) 2011-2011:国家气象局气象关键技术集成与应用项目(CMAGJ2011M05):设计暴雨和城市雨涝风险预估技术研究与示范(项目负责人)
5) 2011-2011:水利部水资源费项目:漳河平原段生态治理与修复方案研究(项目负责人)
6) 2012-2014:水利部公益性项目(**):黄河河口地区水资源利用与水生态修复技术(子课题负责人)
7) 2012-2013: 水利部海河水利委员会:水资源保护规划内源及外源污染控制技术研究(项目负责人)
8) 2012-2012 天津空港经济区, 天津空港经济区环河北路河水生态修复-人工湿地设计及研究 (4万平米表流人工湿地)
9) 2013-2014:天津空港经济区, 天津空港经济区西四道景观湖入河河水生态修复-人工湿地设计及研究 (5.7万平米潜流+表流人工湿地)
10) 2012-2014:新加坡国立大学 “湄公河流域防洪减灾与气候变化研究”
学术论著[1]Huang, J*., Li, Y.; Yin, J.; McBean, E.; (2015). Precipitation Regional Extreme Mapping as a Tool for Ungauged Areas and the Assessment of Climate Changes, Hydrological Processes, (Accepted on Nov) (SCI, IF2.696)
[2]Yu, X., Huang, J.* and Lin, C. (2015) Research on the Applicability of LSPC Model in Semi-Arid Area by Multiple Years Continuous Modelling of Daily Runoff. South-to-North Water Transfers and Water Science &Technology, 2015. (Accepted)
[3]Zhang, Y., Huang, J.* , Qi, L., Li, S., and Zhao, F. (2015) Numerical Simulation of Three-Dimensional Hydrodynamic Based on EFDC Model in Yuqiao Reservoir. Advances in Water Science, 2015. (Accepted)
[4]Choulnard, A., Anderson, B., Wotton, B. and Huang, J. (2015). Comparative study of cold-climate constructed wetland technology in Canada and Northern China for water resource protection, Environmental Reviews, (Accepted)
[5]Huang, J*., Lin, X.; Wang, H.; Wang, J.; (2015). The precipitation driven correlation based mapping method (PCM) for identifying the critical source areas of non-point source pollution, Journal of Hydrology, Volume 524, May 2015, Pages 100–110,doi:10.1016/j.jhydrol.2015.02.011 (SCI, IF3.053)
[6]Zhang, Y., Huang, J*., Chen, L., Qi, L., (2015). Eutrophication Forecasting and Management by Artificial Neural Network: a Case Study at Yuqiao Reservoir in North China, Journal of Hydroinformatics, doi:10.2166/hydro.2015.115, (SCI, IF1.153)
[7]Huang, J*., Du, M. ;McBean, E.; Wang, H.; Wang, J-H (2014). A coupled Bayesian and fault tree methodology to assess future groundwater conditions in light of climate change, Hydrology and Earth System Sciences (Discussion) 11, 9361–9397, 2014 , doi:10.5194/hessd-11-9361-2014 (SCI, IF 3.642)
[8]Huang, J*., Gao, X.; Balch, G.; Wootton, B.; Jorgensen, S.; Anderson, B.; (2014). Modelling of Vertical Flow Constructed Wetlands for Treatment of Domestic Sewage and Stormwater Runoff by SubWet 2.0, Ecological Engineering, 74, 8-12; http://dx.doi.org/10.1016/j.ecoleng.2014.10.027 (SCI, IF3.014)
[9]Huang, J*., and Xiang, W.; (2014). Investigation of Point Source and Non-Point Source Pollution for Panjiakou Reservoir in North China by Modelling Approach, Water Quality Research Journal of Canada, V50 (2), pp 167–181, doi: 10.2166/wqrjc.2014.019 (SCI, IF0.909)
[10]Huang, J*., Li, Y.; Niu, S.; Zhou, S.; (2014). Assessing the Performances of LID Alternatives by Long Term Simulation for Semi-Arid Area in Tianjin, Northern China, Water Science and Technology. doi:10.2166/wst.2014.228 (SCI, IF1.102)
[11]Zhang, C, McBean, E., and Huang, J. (2014) "A Virtual Water Assessment Methodology For Cropping Pattern Investigation", Water Resources Management, June 2014, Volume 28, Issue 8, pp 2331-2349 (SCI, IF2.171), DOI 10.1007/s11269-014-0618-y
[12]Qi, L., Zhang, Y., Peng, J., Qi, C., Huang, J. and Liu, D., (2014). Water requirement of vegetation and infiltration method to determine ecological water requirement of dried up, Water Science and Technology 2014;69(3):566-572. doi: 10.2166/wst.2013.743 (SCI, IF1.212)
[13]牛帅,黄津辉*,曹磊, 李彧 (2015).基于水文循环的低影响开发评价[J].建筑节能,2015,43(288):79-84.
[14]林晓娟, 黄津辉*, 郭勇,侯思妍(2015)岳城水库流域污染源模拟研究[J].水资源保护, 2015,31(1):74-79.
[15]张亚,黄津辉*,戚蓝,李胜军,赵芳兴(2014)基于EFDC模型的于桥水库三维水动力数值模拟 [J].水科学进展,(已接受). EI
[16]张亚,黄津辉*,王立明,林超.浅水富营养水库中藻类生物量与营养盐关系[J].天津大学学报(自然科学与工程技术版),2014(1) 36-41. EI
[17]李婷婷, 黄津辉*.漳河平原河段河道渗漏量研究[J].南水北调与水利科技, 2014,11(3):31-34
[18]高翔, 黄津辉*,张忠广.人工湿地处理污水处理厂尾水中试试验[J].南水北调与水利科技,2014, 12(1)54-.
[19]黄津辉*,向文艳, 户超等.天津市设计暴雨方法比较及公式修正[J].天津大学学报 (自然科学与工程技术版),2013,46(4):354-360. EI
[20]李慧峰, 黄津辉*, 林超. SUBWET 模型在人工湿地设计中的应用[J].环境科学,2013,34(7):2628-2636.
[21]曹磊,杨冬冬,黄津辉.基于LID理念的人工湿地规划建设探讨——以天津空港经济区北部人工湿地为例[J].天津大学学报(社会科学版).2013,14(2):144-149.
[22]李慧峰, 黄津辉*, 周绪申,林超等.两株耐冷低温菌的分离鉴定及应用的初步研究[J].安徽农业科学,2013,41(3):1204-1206.
[23]张忠广,黄津辉*;林超等.基于LID理念的城市综合水资源管理规划研究[J].水电能源科学,2013,31(7):29-32.
[24]张忠广,黄津辉*;林超.人工湿地基质挂膜降解COD小试试验[J],环境科技,2013,26(1):4-7.
[25] 范泽华,戚蓝,黄津辉*等.气候变化对石羊河流域水资源影响分析[J].水利水电技术,2012,43(1):
[26]Sheng, H., Huang, J. and McBean, E. (2011). Reply to comment on "Using Bayesian Statistics to Estimate the Coefficients Of a Two-Component Second-order Chlorine Bulk Decay Model for a Water Distribution System". Water Research, 2011,45(6), 2355-2357. http://dx.doi.org/10.1016/j.watres.2011.01.008 ,(SCI, IF5.323)
[27]Huang, J., and McBean, E.. Data Mining to Identify Contaminant Intrusion Events into Water Distribution Systems. ASCE Journal of Water Resources Planning and Management, 2009,135(6), 466-474. (SCI, IF1.76)
[28]Lee, M., McBean, E., Schuster, C., and Huang, J., (2009). A Fault Tree and Fuzzy Logic Methodology for Risk Assessment of Drinking Water Supply Failures, ASCE Journal of Water Resources Planning and Management, 135(6), 547-552. (SCI, IF1.76)
[29]Huang, J. and McBean, E. A. (2008). Using Bayesian Statistics to Estimate the Chlorine Wall Decay Coefficients for a Water Supply System, ASCE Journal of Water Resources Planning and Management, 134(2), 129-137. (SCI, IF1.76)
[30]Huang, J. and McBean, E. A. (2007). Using Bayesian Statistics to Estimate the Coefficients of a Two- Component Second-Order Chlorine Decay Model for a Water Distribution System, Water Research, 41(2), 287-294. http://dx.doi.org/10.1016/j.watres.2006.10.027 , (SCI, IF5.323)
[31]Ostfeld et al; (2008). The Battle of Water Sensor Networks (BWSN): A Design Challenge for Engineers and Algorithms, ASCE Journal of Water Resources Planning and Management, 134(6), 556-558. (SCI, IF1.76)
[32]Huang, J. and McBean E A.; (2007). Chapter 19, Water Quality Modeling using Fault Tree Method. Contemporary Modeling of Urban Water Systems, Monograph
15. Published by CHI, Guelph, ISBN: **1636.
[33]Huang, J. and McBean, E. A. (2006). Chapter 11, Comparison of Analytical and Simulation Approaches for Assessing Robustness of Reliability for Water Distribution Systems. Intelligent Modeling of Urban Water Systems, Monograph 14, Published by CHI, Guelph, ISBN: **.
[34]Huang, J., McBean, E., and James, W. (2005). Chapter 7, A Review of Reliability Analysis for Water Quality in Water Distribution Systems, Urban Water Systems, James, et al. (editors), Monograph 13, Published by CHI, Guelph, ISBN: **.
[35]Huang, J.; James, W. and James, W. R. C. (2005). Chapter 3, A Lifecycle Cost Based Design Optimization Model for Stormwater Management System. Effective Modelling of Urban Water Systems, Monograph 13, Published by CHI, Guelph, ISBN: **.
[36]Huang, J* (2014). The Development of a Design and Modelling Framework for Grey Water Reuse in Tianjin, China, ASCE International Conference on Sustainable Infrastructure 2014, Long Beach, USA, November 6-8, 2014. (Keynotes Speech), http://dx.doi.org/10.1061/**45.050
[37]Huang, J., McBean, E. A. and Shen, H.(2008). Data Mining as a Tool to Identify Contaminant Sources in Water Distribution Systems, 10th International Water Distribution System Analysis conference, Kruger National Park, South Africa. August 17-20, 2008, www.uj.ac.za/wdsa2008 EI, http://dx.doi.org/10.1061/41024(340)97
[38]Huang, J. and McBean, E. A. (2006). Use of Bayesian Statistics to Study Chlorine Decay for a Water Distribution System, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)148
[39]Huang, J., McBean, E. A., and James, W. (2006). Multi-objective Optimization Approach for Monitoring Sensor Placement in Water Distribution Systems, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)113
会议论文:
[1]Huang, J* (2015). The Practise and Challenge of Sponge City Development in China. 10th International Conference on China Urban Water Development, Zhuhai, Nov 4-5, 2015
[2]Huang, J* (2015). Framework for Eutrophication Study in a Large- Scale Reservoir with Consideration of Climate Change. Sustainable Utilization and Management of Water Resources under Changing Environment, Guangzhou, Oct 24-25, 2015
[3]Huang, J* (2015). Sponge City Planning with Consideration of Climate Change. CHES Annual Conference 2015, Nanjing, Oct 26-28, 2015
[4]Huang, J*, Yu Li., (2015). Implementing LIDs for Urban Planning of a New Town by the Data Mining Methodology with Consideration of Climate Change. AOGS Annual Conference 2015, Singapore, August 2-7, 2015
[5]Huang, J*, Yu Li., (2015). The Change of Precipitation Distribution Patterns for Urban Areas in North China, AOGS Annual Conference 2015, Singapore, August 2-7, 2015
[6]Huang, J*, Yu Li., (2015). Assessment of Climate Change Impact by Regional Storm Frequency Mapping for Upper Yangtze River Basin. International Workshop on Typhoon and Flood-APEC Experience Sharing on Hazardous Events and Risk Management (2015 IWTF) (Distinguished Speaker), Taipei, Taiwan, May 27-29, 2015
[7]Huang, J*, Yu Li., (2015). Development of Regional Storm Frequency Maps for the Upper Yangtze River Basin and Its application to Assess Climate Change CSCE 22nd Hydrotechnical Conference, Montreal, Canada April 29-May 2, 2015
[8]Huang, J*, Gao,X., (2014). A Numeric Model for Assessing the performance of Constructed Wetlands, Smart Water Grid International Conference, Incheon, South Korea, November 25-27, 2014. (Invited Speaker)
[9]Huang, J*, Nan Zhang and Li, Y., (2014). New Methods for Assessing LID's hydrological Performances under changing climate conditions, Smart Water Grid International Conference, Incheon, South Korea, November 25-27, 2014. (Invited Speaker)
[10]Huang, J* (2014). The Development of a Design and Modelling Framework for Grey Water Reuse in Tianjin, China, ASCE International Conference on Sustainable Infrastructure 2014, Long Beach, USA, November 6-8, 2014. (Keynotes Speaker), http://dx.doi.org/10.1061/**45.050
[11]Huang, J*, Tingting Li, Yu Li (2014). TMDL Study for Zhang River Basin under Current and Future Climate Condition, China, AOGS 11th Annual Meeting, Sapporo, Japan, July 28-August 01, 2014.
[12]Huang, J*, and Tingting Li (2014). Partitioning of Evapotranspiration Components for Crop Area in Huanghuaihai Basins, China, AOGS 11th Annual Meeting, Sapporo, Japan, July 28-August 01, 2014.
[13]Huang, J* and Tingting Li (2014). Estimation of Evapotranspiration by Using MODIS Data for Central and Northern China, Hydroinformatics International Conference, New York, USA, August 25-28, 2014.
[14]Lin, X. and Huang, J (2014). Simulation of Non-point Source Pollution in Zhang River Basin, Hydroinformatics International Conference, New York, USA, August 25-28, 2014.
[15]Huang, J* (2013). Retrieval of soil evaporation and vegetation transpiration by using MODIS data for central and northern China, CHES Annual Conference, Guangzhou, P.R. China, Nov 25-28, 2013.
[16]Huang, J* (2013). Separation of Transpiration and Evaporation by Using Modis Remote Sensing Data, Integrated Research on Disaster Risk , Sanya, P.R. China, Nov 12-13, 2013.
[17]Huang, J* (2013). Coupled Modelling Tools for Design and Control of Grey Water Reuse, Smart Water Grid International Conference, Incheon, Korea, Nov 12-13, 2013.
[18]Huang, J* and Xiang, W. (2013). A Study of Design Storm in an Urban Area of North China, IAHR 2013 Congress, Chengdu, P.R. China, Sept 9-14, 2013.
[19]Li, T. and Huang, J* (2013).Retrieval of Soil Evaporation and Vegetation Transpiration for Yellow River Delta by Using An Operational Two-layer Model. 6th Conference of the APHW, Seoul, South Korea, August 19-21, 2013.
[20]Lin, X. and Huang, J* (2013).Modeling Water Quantity and Hydrological Process in the Zhuozhang River Basin Using SWAT. 6th Conference of the APHW, Seoul, South Korea, August 19-21, 2013.
[21]Huang, J* (2013). An Areal Reduction Study of Design Storm in an Urban Area of North China, AOGS 10th Conference, Brisbane, Australia, June 23-28, 2013.
[22]Huang, J* (2013). Recent Climate Change Research in Northern China and Its Implication for Sustainable Infrastructure, Asian Congress on Citizen and Environment Safety and Security (ACCESS), June 5-7,2013, Singapore(Keynotes Speaker)
[23]Huang, J* (2013). Recent research on climate change for Tianjin City and its implication on water infrastructure, April 21-25, 2013, Kaohsiung, Taiwan(Keynotes Speaker)
[24]Huang, J* (2012). Rainfall Analysis for City of Tianjin, 2012 Chinese Hydraulic Engineering Society Annual Conference, Wuhan, P.R. China, Nov 6-8, 2012.
[25]Huang, J* (2012). Changing Hydrologic Cycle in Urban Setting and LID, Advanced Workshop in Changing Hydrologic Cycle and Water Security, Tianjin, P.R. China, Nov 3, 2012.
[26]Raghavan, S.; Li, S.; Fan; Vu, Minh; Son, N.; Huang, J., Liong, S. (2012). Hydrological Response in a Changing Climate Over Haihe River Basin in Northern China, 10th Hydroinformatics International Conference, Hamburg Germany, July 9-14, 2012
[27]Huang, J., Xiang, W. and Zhang, H., (2012). An Integrated Water Management Strategy to Solve Water Quality and Water Shortage Issues in a Rapid Urban Development Area in North China, 1st International Specialty Conference on Sustaining Public Infrastructure, Edmonton, Alberta, June 6-9, 2012
[28]Cao, L., Yang, D., Huang, J, (2012), Integrating LID in an Ecological Infrastructure Development Conceptual Design, A Case Study of the Northern Artificial Wetland in Tianjin Airport Economic Zone, 47th Central Canadian Symposium on Water Quality Research, Brampton, Canada, February 12-13, 2012.
[29]McBean, E and Huang, J* (2011). Groundwater: Assessment of Sustainability in a Climate Changing World, 2011 Chinese Hydraulic Engineering Society Annual Conference, Beijing, P.R. China, Oct 12-13, 2010.
[30]Huang, J., (2010). A Flood Reduction Master Plan Study in Canada , International Session, 2010 Chinese Hydraulic Engineering Society Annual Conference, Guiyang, Guizhou Province, P.R. China, Nov 2-4, 2010.
[31]Huang, J. (2010). Water Crisis and Climate Change, Young Scientist Forum, Summer Davos Tianjin, Sept 4-9, 2010, Tianjin, P. R. China.
[32]Huang, J., Sun, J., Zhang, Y., and Guo, J. (2010). The Potential Impact of Climate Change on Water Availability in Tianjin and Hai River Basin, World City Water Forum, Incheon, Republic of Korea, August 10-13, 2010 .
[33]Huang, J., McBean, E. A. and Shen, H.(2008). Data Mining as a Tool to Identify Contaminant Sources in Water Distribution Systems, 10th International Water Distribution System Analysis conference, Kruger National Park, South Africa. August 17-20, 2008, www.uj.ac.za/wdsa2008 EI, http://dx.doi.org/10.1061/41024(340)97
[34]Huang, J. and McBean, E. A. (2007). Identification of Contaminant Intrusion Events Into Water Distribution Systems With Limited Numbers of Sensors, 2007 AWWA Annual Conference and Exhibitions, Toronto, ON Canada, June 24-28, 2007
[35]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). A Fuzzy Logic Methodology To Assess The Risk Of Water Supply Failures For Three Water Utilities In Canada, 2007 AWWA Annual Conference and Exhibitions, Toronto, ON Canada, June 24-28, 2007
[36]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). Use of a fuzzy logic model to investigate potential failures of drinking water systems, World Environmental & Water Resources Congress 2007, Tampa, Florida, USA, May 15-19
[37]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). A Fault Tree and Fuzzy Logic Methodology for risk Assessment of Drinking Water Supply Failures, OWWA/OMWA Joint Annual Conference & Trade Show 2007, Blue Mountains, ON Canada, May 6-9, 2007
[38]Huang, J. and McBean, E. A. (2007). Contamination Intrusion Identification in Water Distribution System, OWWA/OMWA Joint Annual Conference & Trade Show 2007, Blue Mountains, ON Canada, May 6-9, 2007
[39]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). A Fault Tree and Fuzzy Logic Methodology for risk Assessment of Drinking Water Supply Failures, OWWA/OMWA Joint Annual Conference & Trade Show 2007, Blue Mountains, ON Canada, May 6-9, 2007
[40]Huang, J. and McBean, E. A. (2006). Use of Bayesian Statistics to Study Chlorine Decay for a Water Distribution System, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)148
[41]Huang, J., McBean, E. A., and James, W. (2006). Multi-objective Optimization Approach for Monitoring Sensor Placement in Water Distribution Systems, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)113
[42]Huang, J., McBean, E. and Schuster, C. (2006). Using Bayesian Parameter Estimation for Multicomponent Chlorine Decay Kinetics Study in a Water Distribution System, Presented at CWWA 12th National Drinking Water Conference, Saint John, New Brunswick, April 1-4, 2006, http://www.cwwa.ca/12thconferencepresentations_e.asp
[43]Huang, J., and McBean, E., (2006) Chlorine Residual Decay in Water Distribution Systems, Presented at CSCE Annual Meeting, Calgary, Alberta, May 23-26, 2006
[44]Huang, J. and McBean, E. A. (2006). Failure Mechanisms and Monitoring Methodologies pertinent to Detection of Exposure Risks in Water Distribution Networks. Presented at 2006 International Conference on Stormwater and Urban Water Systems Modeling, Toronto, ON. Feb.23-24, 2006
[45]Huang, J. and McBean, Edward A. (2005). Assessing the Topology and Hydraulic Reliability for Water Distribution Systems, Presented at TIES Conference on Environmetrics 2005, Beijing China, August 22-26
[46]Huang, J., and McBean, E., Comparison of Analytical and Simulation Approaches for Assessing Robustness of Reliability for Water Distribution Systems" presented at Urban Stormwater Conference, Toronto, Ontario, February 2005
[47]Huang, J., McBean, E., and James, W. (2004). Reliability Analyses for Water Quality in Water Distribution Systems", presented at Stormwater and Urban Water Systems Modeling Conference, Toronto, Ontario February 19-20, 2004
[48]Huang, J., James, W. and James, W. R. C. (2003). Integration of GIS with 3-D Design Model for Stormwater Management System. International Conference of GIS and Remote Sensing in Hydrology, Water Resources, and Environment". Yichang city, Hubei Province, P.R China. Sept 16-19. http://www.hydroinfor.zsu.edu.cn
[49]James, W. and Huang, J. (2002). A Low Impact BMP for Urban Stormwater Management System: Permeable Pavement, Presented at fifth International Eco-city conference, Shenzhen, China. August 19-23, 2002.
[50]James, W. and Huang, J. (2002). Integration of design models with GIS, the web and group decision support, 5th International Eco-city conference, Shenzhen, China. August 19-23, 2002.
荣誉与奖励1. 2009年 “教育部新世纪优秀人才”(NCET-09-0586)
2. 2011年 水利部大禹水利科技进步奖一等奖,证书号DYJ**-G08
3. 2015年 加拿大土木工程学会(Canadian Society for Civil Engineering), 终身会员 (Fellow)
2010-2014 天津大学,建筑工程学院,教授
2009-现在 加拿大圭尔夫大学,工程学院,兼职教授
2007-2010 加拿大MMM集团公司工作,任高级项目工程师
2006-2007 加拿大圭尔夫大学,工程学院,博士后研究
2003-2006 加拿大CHI(计算水利研究所)兼职,项目工程师
学术与社会任职1. 加拿大土木工程学会(CSCE)资深会员(Fellow),国际事务委员会委员,副主席(Deputy Chair)
2. 加拿大注册工程师协会会员,
3. 世界水信息(Hydroinformatics, IAHR/IWA)委员会委员,领导团队成员
4. 亚洲太平洋地球科学学会(AOGS)水文科学委员会 秘书
科研项目在中国,加拿大,美国,阿拉伯地区,南美洲完成生态水文及生态修复等多项科研及咨询项目
(一)国际项目(代表性项目)
1) 美国加利福尼亚州Sears Point Bay湿地修复重建研究
2) 加拿大新斯科舍省Halifax城市CSO(Combined Sewer Outflow)研究
3) 加拿大安大略省Barrie市Lover’s Creek 流域水文研究
4) 加拿大大多伦多地区(TRCA)防洪预警系统开发研究
5) 加拿大安大略省Oakville城市北部开发中的低影响开发方式研究(BMP/LID Study for North Oakville Development, Town of Oakville, Ontario)
6) 加拿大安大略省 Don River 水质监测及模拟研究
7) 南美厄瓜多尔首都基多国际机场暴雨管理系统研究及设计
8) 美国绿色建筑LEED认证项目(20多项)
(二)国内项目
1) 2007-2010:科技部国际合作项目(2007DFA70860)中加合作项目石羊河生态修复与示范(于2011 年获水利部大禹科学技术奖一等奖,证书号DYJ**-G08,项目参与人)
2) 2010-2012:教育部新世纪优秀人才(NCET-09-0586),气候变化与饮用水水源安全(项目负责人)。
3) 2011-2011:天津空港经济区生态水系水质提升方案研究(项目负责人)
4) 2011-2011:国家气象局气象关键技术集成与应用项目(CMAGJ2011M05):设计暴雨和城市雨涝风险预估技术研究与示范(项目负责人)
5) 2011-2011:水利部水资源费项目:漳河平原段生态治理与修复方案研究(项目负责人)
6) 2012-2014:水利部公益性项目(**):黄河河口地区水资源利用与水生态修复技术(子课题负责人)
7) 2012-2013: 水利部海河水利委员会:水资源保护规划内源及外源污染控制技术研究(项目负责人)
8) 2012-2012 天津空港经济区, 天津空港经济区环河北路河水生态修复-人工湿地设计及研究 (4万平米表流人工湿地)
9) 2013-2014:天津空港经济区, 天津空港经济区西四道景观湖入河河水生态修复-人工湿地设计及研究 (5.7万平米潜流+表流人工湿地)
10) 2012-2014:新加坡国立大学 “湄公河流域防洪减灾与气候变化研究”
学术论著[1]Huang, J*., Li, Y.; Yin, J.; McBean, E.; (2015). Precipitation Regional Extreme Mapping as a Tool for Ungauged Areas and the Assessment of Climate Changes, Hydrological Processes, (Accepted on Nov) (SCI, IF2.696)
[2]Yu, X., Huang, J.* and Lin, C. (2015) Research on the Applicability of LSPC Model in Semi-Arid Area by Multiple Years Continuous Modelling of Daily Runoff. South-to-North Water Transfers and Water Science &Technology, 2015. (Accepted)
[3]Zhang, Y., Huang, J.* , Qi, L., Li, S., and Zhao, F. (2015) Numerical Simulation of Three-Dimensional Hydrodynamic Based on EFDC Model in Yuqiao Reservoir. Advances in Water Science, 2015. (Accepted)
[4]Choulnard, A., Anderson, B., Wotton, B. and Huang, J. (2015). Comparative study of cold-climate constructed wetland technology in Canada and Northern China for water resource protection, Environmental Reviews, (Accepted)
[5]Huang, J*., Lin, X.; Wang, H.; Wang, J.; (2015). The precipitation driven correlation based mapping method (PCM) for identifying the critical source areas of non-point source pollution, Journal of Hydrology, Volume 524, May 2015, Pages 100–110,doi:10.1016/j.jhydrol.2015.02.011 (SCI, IF3.053)
[6]Zhang, Y., Huang, J*., Chen, L., Qi, L., (2015). Eutrophication Forecasting and Management by Artificial Neural Network: a Case Study at Yuqiao Reservoir in North China, Journal of Hydroinformatics, doi:10.2166/hydro.2015.115, (SCI, IF1.153)
[7]Huang, J*., Du, M. ;McBean, E.; Wang, H.; Wang, J-H (2014). A coupled Bayesian and fault tree methodology to assess future groundwater conditions in light of climate change, Hydrology and Earth System Sciences (Discussion) 11, 9361–9397, 2014 , doi:10.5194/hessd-11-9361-2014 (SCI, IF 3.642)
[8]Huang, J*., Gao, X.; Balch, G.; Wootton, B.; Jorgensen, S.; Anderson, B.; (2014). Modelling of Vertical Flow Constructed Wetlands for Treatment of Domestic Sewage and Stormwater Runoff by SubWet 2.0, Ecological Engineering, 74, 8-12; http://dx.doi.org/10.1016/j.ecoleng.2014.10.027 (SCI, IF3.014)
[9]Huang, J*., and Xiang, W.; (2014). Investigation of Point Source and Non-Point Source Pollution for Panjiakou Reservoir in North China by Modelling Approach, Water Quality Research Journal of Canada, V50 (2), pp 167–181, doi: 10.2166/wqrjc.2014.019 (SCI, IF0.909)
[10]Huang, J*., Li, Y.; Niu, S.; Zhou, S.; (2014). Assessing the Performances of LID Alternatives by Long Term Simulation for Semi-Arid Area in Tianjin, Northern China, Water Science and Technology. doi:10.2166/wst.2014.228 (SCI, IF1.102)
[11]Zhang, C, McBean, E., and Huang, J. (2014) "A Virtual Water Assessment Methodology For Cropping Pattern Investigation", Water Resources Management, June 2014, Volume 28, Issue 8, pp 2331-2349 (SCI, IF2.171), DOI 10.1007/s11269-014-0618-y
[12]Qi, L., Zhang, Y., Peng, J., Qi, C., Huang, J. and Liu, D., (2014). Water requirement of vegetation and infiltration method to determine ecological water requirement of dried up, Water Science and Technology 2014;69(3):566-572. doi: 10.2166/wst.2013.743 (SCI, IF1.212)
[13]牛帅,黄津辉*,曹磊, 李彧 (2015).基于水文循环的低影响开发评价[J].建筑节能,2015,43(288):79-84.
[14]林晓娟, 黄津辉*, 郭勇,侯思妍(2015)岳城水库流域污染源模拟研究[J].水资源保护, 2015,31(1):74-79.
[15]张亚,黄津辉*,戚蓝,李胜军,赵芳兴(2014)基于EFDC模型的于桥水库三维水动力数值模拟 [J].水科学进展,(已接受). EI
[16]张亚,黄津辉*,王立明,林超.浅水富营养水库中藻类生物量与营养盐关系[J].天津大学学报(自然科学与工程技术版),2014(1) 36-41. EI
[17]李婷婷, 黄津辉*.漳河平原河段河道渗漏量研究[J].南水北调与水利科技, 2014,11(3):31-34
[18]高翔, 黄津辉*,张忠广.人工湿地处理污水处理厂尾水中试试验[J].南水北调与水利科技,2014, 12(1)54-.
[19]黄津辉*,向文艳, 户超等.天津市设计暴雨方法比较及公式修正[J].天津大学学报 (自然科学与工程技术版),2013,46(4):354-360. EI
[20]李慧峰, 黄津辉*, 林超. SUBWET 模型在人工湿地设计中的应用[J].环境科学,2013,34(7):2628-2636.
[21]曹磊,杨冬冬,黄津辉.基于LID理念的人工湿地规划建设探讨——以天津空港经济区北部人工湿地为例[J].天津大学学报(社会科学版).2013,14(2):144-149.
[22]李慧峰, 黄津辉*, 周绪申,林超等.两株耐冷低温菌的分离鉴定及应用的初步研究[J].安徽农业科学,2013,41(3):1204-1206.
[23]张忠广,黄津辉*;林超等.基于LID理念的城市综合水资源管理规划研究[J].水电能源科学,2013,31(7):29-32.
[24]张忠广,黄津辉*;林超.人工湿地基质挂膜降解COD小试试验[J],环境科技,2013,26(1):4-7.
[25] 范泽华,戚蓝,黄津辉*等.气候变化对石羊河流域水资源影响分析[J].水利水电技术,2012,43(1):
[26]Sheng, H., Huang, J. and McBean, E. (2011). Reply to comment on "Using Bayesian Statistics to Estimate the Coefficients Of a Two-Component Second-order Chlorine Bulk Decay Model for a Water Distribution System". Water Research, 2011,45(6), 2355-2357. http://dx.doi.org/10.1016/j.watres.2011.01.008 ,(SCI, IF5.323)
[27]Huang, J., and McBean, E.. Data Mining to Identify Contaminant Intrusion Events into Water Distribution Systems. ASCE Journal of Water Resources Planning and Management, 2009,135(6), 466-474. (SCI, IF1.76)
[28]Lee, M., McBean, E., Schuster, C., and Huang, J., (2009). A Fault Tree and Fuzzy Logic Methodology for Risk Assessment of Drinking Water Supply Failures, ASCE Journal of Water Resources Planning and Management, 135(6), 547-552. (SCI, IF1.76)
[29]Huang, J. and McBean, E. A. (2008). Using Bayesian Statistics to Estimate the Chlorine Wall Decay Coefficients for a Water Supply System, ASCE Journal of Water Resources Planning and Management, 134(2), 129-137. (SCI, IF1.76)
[30]Huang, J. and McBean, E. A. (2007). Using Bayesian Statistics to Estimate the Coefficients of a Two- Component Second-Order Chlorine Decay Model for a Water Distribution System, Water Research, 41(2), 287-294. http://dx.doi.org/10.1016/j.watres.2006.10.027 , (SCI, IF5.323)
[31]Ostfeld et al; (2008). The Battle of Water Sensor Networks (BWSN): A Design Challenge for Engineers and Algorithms, ASCE Journal of Water Resources Planning and Management, 134(6), 556-558. (SCI, IF1.76)
[32]Huang, J. and McBean E A.; (2007). Chapter 19, Water Quality Modeling using Fault Tree Method. Contemporary Modeling of Urban Water Systems, Monograph
15. Published by CHI, Guelph, ISBN: **1636.
[33]Huang, J. and McBean, E. A. (2006). Chapter 11, Comparison of Analytical and Simulation Approaches for Assessing Robustness of Reliability for Water Distribution Systems. Intelligent Modeling of Urban Water Systems, Monograph 14, Published by CHI, Guelph, ISBN: **.
[34]Huang, J., McBean, E., and James, W. (2005). Chapter 7, A Review of Reliability Analysis for Water Quality in Water Distribution Systems, Urban Water Systems, James, et al. (editors), Monograph 13, Published by CHI, Guelph, ISBN: **.
[35]Huang, J.; James, W. and James, W. R. C. (2005). Chapter 3, A Lifecycle Cost Based Design Optimization Model for Stormwater Management System. Effective Modelling of Urban Water Systems, Monograph 13, Published by CHI, Guelph, ISBN: **.
[36]Huang, J* (2014). The Development of a Design and Modelling Framework for Grey Water Reuse in Tianjin, China, ASCE International Conference on Sustainable Infrastructure 2014, Long Beach, USA, November 6-8, 2014. (Keynotes Speech), http://dx.doi.org/10.1061/**45.050
[37]Huang, J., McBean, E. A. and Shen, H.(2008). Data Mining as a Tool to Identify Contaminant Sources in Water Distribution Systems, 10th International Water Distribution System Analysis conference, Kruger National Park, South Africa. August 17-20, 2008, www.uj.ac.za/wdsa2008 EI, http://dx.doi.org/10.1061/41024(340)97
[38]Huang, J. and McBean, E. A. (2006). Use of Bayesian Statistics to Study Chlorine Decay for a Water Distribution System, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)148
[39]Huang, J., McBean, E. A., and James, W. (2006). Multi-objective Optimization Approach for Monitoring Sensor Placement in Water Distribution Systems, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)113
会议论文:
[1]Huang, J* (2015). The Practise and Challenge of Sponge City Development in China. 10th International Conference on China Urban Water Development, Zhuhai, Nov 4-5, 2015
[2]Huang, J* (2015). Framework for Eutrophication Study in a Large- Scale Reservoir with Consideration of Climate Change. Sustainable Utilization and Management of Water Resources under Changing Environment, Guangzhou, Oct 24-25, 2015
[3]Huang, J* (2015). Sponge City Planning with Consideration of Climate Change. CHES Annual Conference 2015, Nanjing, Oct 26-28, 2015
[4]Huang, J*, Yu Li., (2015). Implementing LIDs for Urban Planning of a New Town by the Data Mining Methodology with Consideration of Climate Change. AOGS Annual Conference 2015, Singapore, August 2-7, 2015
[5]Huang, J*, Yu Li., (2015). The Change of Precipitation Distribution Patterns for Urban Areas in North China, AOGS Annual Conference 2015, Singapore, August 2-7, 2015
[6]Huang, J*, Yu Li., (2015). Assessment of Climate Change Impact by Regional Storm Frequency Mapping for Upper Yangtze River Basin. International Workshop on Typhoon and Flood-APEC Experience Sharing on Hazardous Events and Risk Management (2015 IWTF) (Distinguished Speaker), Taipei, Taiwan, May 27-29, 2015
[7]Huang, J*, Yu Li., (2015). Development of Regional Storm Frequency Maps for the Upper Yangtze River Basin and Its application to Assess Climate Change CSCE 22nd Hydrotechnical Conference, Montreal, Canada April 29-May 2, 2015
[8]Huang, J*, Gao,X., (2014). A Numeric Model for Assessing the performance of Constructed Wetlands, Smart Water Grid International Conference, Incheon, South Korea, November 25-27, 2014. (Invited Speaker)
[9]Huang, J*, Nan Zhang and Li, Y., (2014). New Methods for Assessing LID's hydrological Performances under changing climate conditions, Smart Water Grid International Conference, Incheon, South Korea, November 25-27, 2014. (Invited Speaker)
[10]Huang, J* (2014). The Development of a Design and Modelling Framework for Grey Water Reuse in Tianjin, China, ASCE International Conference on Sustainable Infrastructure 2014, Long Beach, USA, November 6-8, 2014. (Keynotes Speaker), http://dx.doi.org/10.1061/**45.050
[11]Huang, J*, Tingting Li, Yu Li (2014). TMDL Study for Zhang River Basin under Current and Future Climate Condition, China, AOGS 11th Annual Meeting, Sapporo, Japan, July 28-August 01, 2014.
[12]Huang, J*, and Tingting Li (2014). Partitioning of Evapotranspiration Components for Crop Area in Huanghuaihai Basins, China, AOGS 11th Annual Meeting, Sapporo, Japan, July 28-August 01, 2014.
[13]Huang, J* and Tingting Li (2014). Estimation of Evapotranspiration by Using MODIS Data for Central and Northern China, Hydroinformatics International Conference, New York, USA, August 25-28, 2014.
[14]Lin, X. and Huang, J (2014). Simulation of Non-point Source Pollution in Zhang River Basin, Hydroinformatics International Conference, New York, USA, August 25-28, 2014.
[15]Huang, J* (2013). Retrieval of soil evaporation and vegetation transpiration by using MODIS data for central and northern China, CHES Annual Conference, Guangzhou, P.R. China, Nov 25-28, 2013.
[16]Huang, J* (2013). Separation of Transpiration and Evaporation by Using Modis Remote Sensing Data, Integrated Research on Disaster Risk , Sanya, P.R. China, Nov 12-13, 2013.
[17]Huang, J* (2013). Coupled Modelling Tools for Design and Control of Grey Water Reuse, Smart Water Grid International Conference, Incheon, Korea, Nov 12-13, 2013.
[18]Huang, J* and Xiang, W. (2013). A Study of Design Storm in an Urban Area of North China, IAHR 2013 Congress, Chengdu, P.R. China, Sept 9-14, 2013.
[19]Li, T. and Huang, J* (2013).Retrieval of Soil Evaporation and Vegetation Transpiration for Yellow River Delta by Using An Operational Two-layer Model. 6th Conference of the APHW, Seoul, South Korea, August 19-21, 2013.
[20]Lin, X. and Huang, J* (2013).Modeling Water Quantity and Hydrological Process in the Zhuozhang River Basin Using SWAT. 6th Conference of the APHW, Seoul, South Korea, August 19-21, 2013.
[21]Huang, J* (2013). An Areal Reduction Study of Design Storm in an Urban Area of North China, AOGS 10th Conference, Brisbane, Australia, June 23-28, 2013.
[22]Huang, J* (2013). Recent Climate Change Research in Northern China and Its Implication for Sustainable Infrastructure, Asian Congress on Citizen and Environment Safety and Security (ACCESS), June 5-7,2013, Singapore(Keynotes Speaker)
[23]Huang, J* (2013). Recent research on climate change for Tianjin City and its implication on water infrastructure, April 21-25, 2013, Kaohsiung, Taiwan(Keynotes Speaker)
[24]Huang, J* (2012). Rainfall Analysis for City of Tianjin, 2012 Chinese Hydraulic Engineering Society Annual Conference, Wuhan, P.R. China, Nov 6-8, 2012.
[25]Huang, J* (2012). Changing Hydrologic Cycle in Urban Setting and LID, Advanced Workshop in Changing Hydrologic Cycle and Water Security, Tianjin, P.R. China, Nov 3, 2012.
[26]Raghavan, S.; Li, S.; Fan; Vu, Minh; Son, N.; Huang, J., Liong, S. (2012). Hydrological Response in a Changing Climate Over Haihe River Basin in Northern China, 10th Hydroinformatics International Conference, Hamburg Germany, July 9-14, 2012
[27]Huang, J., Xiang, W. and Zhang, H., (2012). An Integrated Water Management Strategy to Solve Water Quality and Water Shortage Issues in a Rapid Urban Development Area in North China, 1st International Specialty Conference on Sustaining Public Infrastructure, Edmonton, Alberta, June 6-9, 2012
[28]Cao, L., Yang, D., Huang, J, (2012), Integrating LID in an Ecological Infrastructure Development Conceptual Design, A Case Study of the Northern Artificial Wetland in Tianjin Airport Economic Zone, 47th Central Canadian Symposium on Water Quality Research, Brampton, Canada, February 12-13, 2012.
[29]McBean, E and Huang, J* (2011). Groundwater: Assessment of Sustainability in a Climate Changing World, 2011 Chinese Hydraulic Engineering Society Annual Conference, Beijing, P.R. China, Oct 12-13, 2010.
[30]Huang, J., (2010). A Flood Reduction Master Plan Study in Canada , International Session, 2010 Chinese Hydraulic Engineering Society Annual Conference, Guiyang, Guizhou Province, P.R. China, Nov 2-4, 2010.
[31]Huang, J. (2010). Water Crisis and Climate Change, Young Scientist Forum, Summer Davos Tianjin, Sept 4-9, 2010, Tianjin, P. R. China.
[32]Huang, J., Sun, J., Zhang, Y., and Guo, J. (2010). The Potential Impact of Climate Change on Water Availability in Tianjin and Hai River Basin, World City Water Forum, Incheon, Republic of Korea, August 10-13, 2010 .
[33]Huang, J., McBean, E. A. and Shen, H.(2008). Data Mining as a Tool to Identify Contaminant Sources in Water Distribution Systems, 10th International Water Distribution System Analysis conference, Kruger National Park, South Africa. August 17-20, 2008, www.uj.ac.za/wdsa2008 EI, http://dx.doi.org/10.1061/41024(340)97
[34]Huang, J. and McBean, E. A. (2007). Identification of Contaminant Intrusion Events Into Water Distribution Systems With Limited Numbers of Sensors, 2007 AWWA Annual Conference and Exhibitions, Toronto, ON Canada, June 24-28, 2007
[35]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). A Fuzzy Logic Methodology To Assess The Risk Of Water Supply Failures For Three Water Utilities In Canada, 2007 AWWA Annual Conference and Exhibitions, Toronto, ON Canada, June 24-28, 2007
[36]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). Use of a fuzzy logic model to investigate potential failures of drinking water systems, World Environmental & Water Resources Congress 2007, Tampa, Florida, USA, May 15-19
[37]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). A Fault Tree and Fuzzy Logic Methodology for risk Assessment of Drinking Water Supply Failures, OWWA/OMWA Joint Annual Conference & Trade Show 2007, Blue Mountains, ON Canada, May 6-9, 2007
[38]Huang, J. and McBean, E. A. (2007). Contamination Intrusion Identification in Water Distribution System, OWWA/OMWA Joint Annual Conference & Trade Show 2007, Blue Mountains, ON Canada, May 6-9, 2007
[39]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). A Fault Tree and Fuzzy Logic Methodology for risk Assessment of Drinking Water Supply Failures, OWWA/OMWA Joint Annual Conference & Trade Show 2007, Blue Mountains, ON Canada, May 6-9, 2007
[40]Huang, J. and McBean, E. A. (2006). Use of Bayesian Statistics to Study Chlorine Decay for a Water Distribution System, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)148
[41]Huang, J., McBean, E. A., and James, W. (2006). Multi-objective Optimization Approach for Monitoring Sensor Placement in Water Distribution Systems, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)113
[42]Huang, J., McBean, E. and Schuster, C. (2006). Using Bayesian Parameter Estimation for Multicomponent Chlorine Decay Kinetics Study in a Water Distribution System, Presented at CWWA 12th National Drinking Water Conference, Saint John, New Brunswick, April 1-4, 2006, http://www.cwwa.ca/12thconferencepresentations_e.asp
[43]Huang, J., and McBean, E., (2006) Chlorine Residual Decay in Water Distribution Systems, Presented at CSCE Annual Meeting, Calgary, Alberta, May 23-26, 2006
[44]Huang, J. and McBean, E. A. (2006). Failure Mechanisms and Monitoring Methodologies pertinent to Detection of Exposure Risks in Water Distribution Networks. Presented at 2006 International Conference on Stormwater and Urban Water Systems Modeling, Toronto, ON. Feb.23-24, 2006
[45]Huang, J. and McBean, Edward A. (2005). Assessing the Topology and Hydraulic Reliability for Water Distribution Systems, Presented at TIES Conference on Environmetrics 2005, Beijing China, August 22-26
[46]Huang, J., and McBean, E., Comparison of Analytical and Simulation Approaches for Assessing Robustness of Reliability for Water Distribution Systems" presented at Urban Stormwater Conference, Toronto, Ontario, February 2005
[47]Huang, J., McBean, E., and James, W. (2004). Reliability Analyses for Water Quality in Water Distribution Systems", presented at Stormwater and Urban Water Systems Modeling Conference, Toronto, Ontario February 19-20, 2004
[48]Huang, J., James, W. and James, W. R. C. (2003). Integration of GIS with 3-D Design Model for Stormwater Management System. International Conference of GIS and Remote Sensing in Hydrology, Water Resources, and Environment". Yichang city, Hubei Province, P.R China. Sept 16-19. http://www.hydroinfor.zsu.edu.cn
[49]James, W. and Huang, J. (2002). A Low Impact BMP for Urban Stormwater Management System: Permeable Pavement, Presented at fifth International Eco-city conference, Shenzhen, China. August 19-23, 2002.
[50]James, W. and Huang, J. (2002). Integration of design models with GIS, the web and group decision support, 5th International Eco-city conference, Shenzhen, China. August 19-23, 2002.
荣誉与奖励1. 2009年 “教育部新世纪优秀人才”(NCET-09-0586)
2. 2011年 水利部大禹水利科技进步奖一等奖,证书号DYJ**-G08
3. 2015年 加拿大土木工程学会(Canadian Society for Civil Engineering), 终身会员 (Fellow)
(一)国际项目(代表性项目)
1) 美国加利福尼亚州Sears Point Bay湿地修复重建研究
2) 加拿大新斯科舍省Halifax城市CSO(Combined Sewer Outflow)研究
3) 加拿大安大略省Barrie市Lover’s Creek 流域水文研究
4) 加拿大大多伦多地区(TRCA)防洪预警系统开发研究
5) 加拿大安大略省Oakville城市北部开发中的低影响开发方式研究(BMP/LID Study for North Oakville Development, Town of Oakville, Ontario)
6) 加拿大安大略省 Don River 水质监测及模拟研究
7) 南美厄瓜多尔首都基多国际机场暴雨管理系统研究及设计
8) 美国绿色建筑LEED认证项目(20多项)
(二)国内项目
1) 2007-2010:科技部国际合作项目(2007DFA70860)中加合作项目石羊河生态修复与示范(于2011 年获水利部大禹科学技术奖一等奖,证书号DYJ**-G08,项目参与人)
2) 2010-2012:教育部新世纪优秀人才(NCET-09-0586),气候变化与饮用水水源安全(项目负责人)。
3) 2011-2011:天津空港经济区生态水系水质提升方案研究(项目负责人)
4) 2011-2011:国家气象局气象关键技术集成与应用项目(CMAGJ2011M05):设计暴雨和城市雨涝风险预估技术研究与示范(项目负责人)
5) 2011-2011:水利部水资源费项目:漳河平原段生态治理与修复方案研究(项目负责人)
6) 2012-2014:水利部公益性项目(**):黄河河口地区水资源利用与水生态修复技术(子课题负责人)
7) 2012-2013: 水利部海河水利委员会:水资源保护规划内源及外源污染控制技术研究(项目负责人)
8) 2012-2012 天津空港经济区, 天津空港经济区环河北路河水生态修复-人工湿地设计及研究 (4万平米表流人工湿地)
9) 2013-2014:天津空港经济区, 天津空港经济区西四道景观湖入河河水生态修复-人工湿地设计及研究 (5.7万平米潜流+表流人工湿地)
10) 2012-2014:新加坡国立大学 “湄公河流域防洪减灾与气候变化研究”
学术论著[1]Huang, J*., Li, Y.; Yin, J.; McBean, E.; (2015). Precipitation Regional Extreme Mapping as a Tool for Ungauged Areas and the Assessment of Climate Changes, Hydrological Processes, (Accepted on Nov) (SCI, IF2.696)
[2]Yu, X., Huang, J.* and Lin, C. (2015) Research on the Applicability of LSPC Model in Semi-Arid Area by Multiple Years Continuous Modelling of Daily Runoff. South-to-North Water Transfers and Water Science &Technology, 2015. (Accepted)
[3]Zhang, Y., Huang, J.* , Qi, L., Li, S., and Zhao, F. (2015) Numerical Simulation of Three-Dimensional Hydrodynamic Based on EFDC Model in Yuqiao Reservoir. Advances in Water Science, 2015. (Accepted)
[4]Choulnard, A., Anderson, B., Wotton, B. and Huang, J. (2015). Comparative study of cold-climate constructed wetland technology in Canada and Northern China for water resource protection, Environmental Reviews, (Accepted)
[5]Huang, J*., Lin, X.; Wang, H.; Wang, J.; (2015). The precipitation driven correlation based mapping method (PCM) for identifying the critical source areas of non-point source pollution, Journal of Hydrology, Volume 524, May 2015, Pages 100–110,doi:10.1016/j.jhydrol.2015.02.011 (SCI, IF3.053)
[6]Zhang, Y., Huang, J*., Chen, L., Qi, L., (2015). Eutrophication Forecasting and Management by Artificial Neural Network: a Case Study at Yuqiao Reservoir in North China, Journal of Hydroinformatics, doi:10.2166/hydro.2015.115, (SCI, IF1.153)
[7]Huang, J*., Du, M. ;McBean, E.; Wang, H.; Wang, J-H (2014). A coupled Bayesian and fault tree methodology to assess future groundwater conditions in light of climate change, Hydrology and Earth System Sciences (Discussion) 11, 9361–9397, 2014 , doi:10.5194/hessd-11-9361-2014 (SCI, IF 3.642)
[8]Huang, J*., Gao, X.; Balch, G.; Wootton, B.; Jorgensen, S.; Anderson, B.; (2014). Modelling of Vertical Flow Constructed Wetlands for Treatment of Domestic Sewage and Stormwater Runoff by SubWet 2.0, Ecological Engineering, 74, 8-12; http://dx.doi.org/10.1016/j.ecoleng.2014.10.027 (SCI, IF3.014)
[9]Huang, J*., and Xiang, W.; (2014). Investigation of Point Source and Non-Point Source Pollution for Panjiakou Reservoir in North China by Modelling Approach, Water Quality Research Journal of Canada, V50 (2), pp 167–181, doi: 10.2166/wqrjc.2014.019 (SCI, IF0.909)
[10]Huang, J*., Li, Y.; Niu, S.; Zhou, S.; (2014). Assessing the Performances of LID Alternatives by Long Term Simulation for Semi-Arid Area in Tianjin, Northern China, Water Science and Technology. doi:10.2166/wst.2014.228 (SCI, IF1.102)
[11]Zhang, C, McBean, E., and Huang, J. (2014) "A Virtual Water Assessment Methodology For Cropping Pattern Investigation", Water Resources Management, June 2014, Volume 28, Issue 8, pp 2331-2349 (SCI, IF2.171), DOI 10.1007/s11269-014-0618-y
[12]Qi, L., Zhang, Y., Peng, J., Qi, C., Huang, J. and Liu, D., (2014). Water requirement of vegetation and infiltration method to determine ecological water requirement of dried up, Water Science and Technology 2014;69(3):566-572. doi: 10.2166/wst.2013.743 (SCI, IF1.212)
[13]牛帅,黄津辉*,曹磊, 李彧 (2015).基于水文循环的低影响开发评价[J].建筑节能,2015,43(288):79-84.
[14]林晓娟, 黄津辉*, 郭勇,侯思妍(2015)岳城水库流域污染源模拟研究[J].水资源保护, 2015,31(1):74-79.
[15]张亚,黄津辉*,戚蓝,李胜军,赵芳兴(2014)基于EFDC模型的于桥水库三维水动力数值模拟 [J].水科学进展,(已接受). EI
[16]张亚,黄津辉*,王立明,林超.浅水富营养水库中藻类生物量与营养盐关系[J].天津大学学报(自然科学与工程技术版),2014(1) 36-41. EI
[17]李婷婷, 黄津辉*.漳河平原河段河道渗漏量研究[J].南水北调与水利科技, 2014,11(3):31-34
[18]高翔, 黄津辉*,张忠广.人工湿地处理污水处理厂尾水中试试验[J].南水北调与水利科技,2014, 12(1)54-.
[19]黄津辉*,向文艳, 户超等.天津市设计暴雨方法比较及公式修正[J].天津大学学报 (自然科学与工程技术版),2013,46(4):354-360. EI
[20]李慧峰, 黄津辉*, 林超. SUBWET 模型在人工湿地设计中的应用[J].环境科学,2013,34(7):2628-2636.
[21]曹磊,杨冬冬,黄津辉.基于LID理念的人工湿地规划建设探讨——以天津空港经济区北部人工湿地为例[J].天津大学学报(社会科学版).2013,14(2):144-149.
[22]李慧峰, 黄津辉*, 周绪申,林超等.两株耐冷低温菌的分离鉴定及应用的初步研究[J].安徽农业科学,2013,41(3):1204-1206.
[23]张忠广,黄津辉*;林超等.基于LID理念的城市综合水资源管理规划研究[J].水电能源科学,2013,31(7):29-32.
[24]张忠广,黄津辉*;林超.人工湿地基质挂膜降解COD小试试验[J],环境科技,2013,26(1):4-7.
[25] 范泽华,戚蓝,黄津辉*等.气候变化对石羊河流域水资源影响分析[J].水利水电技术,2012,43(1):
[26]Sheng, H., Huang, J. and McBean, E. (2011). Reply to comment on "Using Bayesian Statistics to Estimate the Coefficients Of a Two-Component Second-order Chlorine Bulk Decay Model for a Water Distribution System". Water Research, 2011,45(6), 2355-2357. http://dx.doi.org/10.1016/j.watres.2011.01.008 ,(SCI, IF5.323)
[27]Huang, J., and McBean, E.. Data Mining to Identify Contaminant Intrusion Events into Water Distribution Systems. ASCE Journal of Water Resources Planning and Management, 2009,135(6), 466-474. (SCI, IF1.76)
[28]Lee, M., McBean, E., Schuster, C., and Huang, J., (2009). A Fault Tree and Fuzzy Logic Methodology for Risk Assessment of Drinking Water Supply Failures, ASCE Journal of Water Resources Planning and Management, 135(6), 547-552. (SCI, IF1.76)
[29]Huang, J. and McBean, E. A. (2008). Using Bayesian Statistics to Estimate the Chlorine Wall Decay Coefficients for a Water Supply System, ASCE Journal of Water Resources Planning and Management, 134(2), 129-137. (SCI, IF1.76)
[30]Huang, J. and McBean, E. A. (2007). Using Bayesian Statistics to Estimate the Coefficients of a Two- Component Second-Order Chlorine Decay Model for a Water Distribution System, Water Research, 41(2), 287-294. http://dx.doi.org/10.1016/j.watres.2006.10.027 , (SCI, IF5.323)
[31]Ostfeld et al; (2008). The Battle of Water Sensor Networks (BWSN): A Design Challenge for Engineers and Algorithms, ASCE Journal of Water Resources Planning and Management, 134(6), 556-558. (SCI, IF1.76)
[32]Huang, J. and McBean E A.; (2007). Chapter 19, Water Quality Modeling using Fault Tree Method. Contemporary Modeling of Urban Water Systems, Monograph
15. Published by CHI, Guelph, ISBN: **1636.
[33]Huang, J. and McBean, E. A. (2006). Chapter 11, Comparison of Analytical and Simulation Approaches for Assessing Robustness of Reliability for Water Distribution Systems. Intelligent Modeling of Urban Water Systems, Monograph 14, Published by CHI, Guelph, ISBN: **.
[34]Huang, J., McBean, E., and James, W. (2005). Chapter 7, A Review of Reliability Analysis for Water Quality in Water Distribution Systems, Urban Water Systems, James, et al. (editors), Monograph 13, Published by CHI, Guelph, ISBN: **.
[35]Huang, J.; James, W. and James, W. R. C. (2005). Chapter 3, A Lifecycle Cost Based Design Optimization Model for Stormwater Management System. Effective Modelling of Urban Water Systems, Monograph 13, Published by CHI, Guelph, ISBN: **.
[36]Huang, J* (2014). The Development of a Design and Modelling Framework for Grey Water Reuse in Tianjin, China, ASCE International Conference on Sustainable Infrastructure 2014, Long Beach, USA, November 6-8, 2014. (Keynotes Speech), http://dx.doi.org/10.1061/**45.050
[37]Huang, J., McBean, E. A. and Shen, H.(2008). Data Mining as a Tool to Identify Contaminant Sources in Water Distribution Systems, 10th International Water Distribution System Analysis conference, Kruger National Park, South Africa. August 17-20, 2008, www.uj.ac.za/wdsa2008 EI, http://dx.doi.org/10.1061/41024(340)97
[38]Huang, J. and McBean, E. A. (2006). Use of Bayesian Statistics to Study Chlorine Decay for a Water Distribution System, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)148
[39]Huang, J., McBean, E. A., and James, W. (2006). Multi-objective Optimization Approach for Monitoring Sensor Placement in Water Distribution Systems, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)113
会议论文:
[1]Huang, J* (2015). The Practise and Challenge of Sponge City Development in China. 10th International Conference on China Urban Water Development, Zhuhai, Nov 4-5, 2015
[2]Huang, J* (2015). Framework for Eutrophication Study in a Large- Scale Reservoir with Consideration of Climate Change. Sustainable Utilization and Management of Water Resources under Changing Environment, Guangzhou, Oct 24-25, 2015
[3]Huang, J* (2015). Sponge City Planning with Consideration of Climate Change. CHES Annual Conference 2015, Nanjing, Oct 26-28, 2015
[4]Huang, J*, Yu Li., (2015). Implementing LIDs for Urban Planning of a New Town by the Data Mining Methodology with Consideration of Climate Change. AOGS Annual Conference 2015, Singapore, August 2-7, 2015
[5]Huang, J*, Yu Li., (2015). The Change of Precipitation Distribution Patterns for Urban Areas in North China, AOGS Annual Conference 2015, Singapore, August 2-7, 2015
[6]Huang, J*, Yu Li., (2015). Assessment of Climate Change Impact by Regional Storm Frequency Mapping for Upper Yangtze River Basin. International Workshop on Typhoon and Flood-APEC Experience Sharing on Hazardous Events and Risk Management (2015 IWTF) (Distinguished Speaker), Taipei, Taiwan, May 27-29, 2015
[7]Huang, J*, Yu Li., (2015). Development of Regional Storm Frequency Maps for the Upper Yangtze River Basin and Its application to Assess Climate Change CSCE 22nd Hydrotechnical Conference, Montreal, Canada April 29-May 2, 2015
[8]Huang, J*, Gao,X., (2014). A Numeric Model for Assessing the performance of Constructed Wetlands, Smart Water Grid International Conference, Incheon, South Korea, November 25-27, 2014. (Invited Speaker)
[9]Huang, J*, Nan Zhang and Li, Y., (2014). New Methods for Assessing LID's hydrological Performances under changing climate conditions, Smart Water Grid International Conference, Incheon, South Korea, November 25-27, 2014. (Invited Speaker)
[10]Huang, J* (2014). The Development of a Design and Modelling Framework for Grey Water Reuse in Tianjin, China, ASCE International Conference on Sustainable Infrastructure 2014, Long Beach, USA, November 6-8, 2014. (Keynotes Speaker), http://dx.doi.org/10.1061/**45.050
[11]Huang, J*, Tingting Li, Yu Li (2014). TMDL Study for Zhang River Basin under Current and Future Climate Condition, China, AOGS 11th Annual Meeting, Sapporo, Japan, July 28-August 01, 2014.
[12]Huang, J*, and Tingting Li (2014). Partitioning of Evapotranspiration Components for Crop Area in Huanghuaihai Basins, China, AOGS 11th Annual Meeting, Sapporo, Japan, July 28-August 01, 2014.
[13]Huang, J* and Tingting Li (2014). Estimation of Evapotranspiration by Using MODIS Data for Central and Northern China, Hydroinformatics International Conference, New York, USA, August 25-28, 2014.
[14]Lin, X. and Huang, J (2014). Simulation of Non-point Source Pollution in Zhang River Basin, Hydroinformatics International Conference, New York, USA, August 25-28, 2014.
[15]Huang, J* (2013). Retrieval of soil evaporation and vegetation transpiration by using MODIS data for central and northern China, CHES Annual Conference, Guangzhou, P.R. China, Nov 25-28, 2013.
[16]Huang, J* (2013). Separation of Transpiration and Evaporation by Using Modis Remote Sensing Data, Integrated Research on Disaster Risk , Sanya, P.R. China, Nov 12-13, 2013.
[17]Huang, J* (2013). Coupled Modelling Tools for Design and Control of Grey Water Reuse, Smart Water Grid International Conference, Incheon, Korea, Nov 12-13, 2013.
[18]Huang, J* and Xiang, W. (2013). A Study of Design Storm in an Urban Area of North China, IAHR 2013 Congress, Chengdu, P.R. China, Sept 9-14, 2013.
[19]Li, T. and Huang, J* (2013).Retrieval of Soil Evaporation and Vegetation Transpiration for Yellow River Delta by Using An Operational Two-layer Model. 6th Conference of the APHW, Seoul, South Korea, August 19-21, 2013.
[20]Lin, X. and Huang, J* (2013).Modeling Water Quantity and Hydrological Process in the Zhuozhang River Basin Using SWAT. 6th Conference of the APHW, Seoul, South Korea, August 19-21, 2013.
[21]Huang, J* (2013). An Areal Reduction Study of Design Storm in an Urban Area of North China, AOGS 10th Conference, Brisbane, Australia, June 23-28, 2013.
[22]Huang, J* (2013). Recent Climate Change Research in Northern China and Its Implication for Sustainable Infrastructure, Asian Congress on Citizen and Environment Safety and Security (ACCESS), June 5-7,2013, Singapore(Keynotes Speaker)
[23]Huang, J* (2013). Recent research on climate change for Tianjin City and its implication on water infrastructure, April 21-25, 2013, Kaohsiung, Taiwan(Keynotes Speaker)
[24]Huang, J* (2012). Rainfall Analysis for City of Tianjin, 2012 Chinese Hydraulic Engineering Society Annual Conference, Wuhan, P.R. China, Nov 6-8, 2012.
[25]Huang, J* (2012). Changing Hydrologic Cycle in Urban Setting and LID, Advanced Workshop in Changing Hydrologic Cycle and Water Security, Tianjin, P.R. China, Nov 3, 2012.
[26]Raghavan, S.; Li, S.; Fan; Vu, Minh; Son, N.; Huang, J., Liong, S. (2012). Hydrological Response in a Changing Climate Over Haihe River Basin in Northern China, 10th Hydroinformatics International Conference, Hamburg Germany, July 9-14, 2012
[27]Huang, J., Xiang, W. and Zhang, H., (2012). An Integrated Water Management Strategy to Solve Water Quality and Water Shortage Issues in a Rapid Urban Development Area in North China, 1st International Specialty Conference on Sustaining Public Infrastructure, Edmonton, Alberta, June 6-9, 2012
[28]Cao, L., Yang, D., Huang, J, (2012), Integrating LID in an Ecological Infrastructure Development Conceptual Design, A Case Study of the Northern Artificial Wetland in Tianjin Airport Economic Zone, 47th Central Canadian Symposium on Water Quality Research, Brampton, Canada, February 12-13, 2012.
[29]McBean, E and Huang, J* (2011). Groundwater: Assessment of Sustainability in a Climate Changing World, 2011 Chinese Hydraulic Engineering Society Annual Conference, Beijing, P.R. China, Oct 12-13, 2010.
[30]Huang, J., (2010). A Flood Reduction Master Plan Study in Canada , International Session, 2010 Chinese Hydraulic Engineering Society Annual Conference, Guiyang, Guizhou Province, P.R. China, Nov 2-4, 2010.
[31]Huang, J. (2010). Water Crisis and Climate Change, Young Scientist Forum, Summer Davos Tianjin, Sept 4-9, 2010, Tianjin, P. R. China.
[32]Huang, J., Sun, J., Zhang, Y., and Guo, J. (2010). The Potential Impact of Climate Change on Water Availability in Tianjin and Hai River Basin, World City Water Forum, Incheon, Republic of Korea, August 10-13, 2010 .
[33]Huang, J., McBean, E. A. and Shen, H.(2008). Data Mining as a Tool to Identify Contaminant Sources in Water Distribution Systems, 10th International Water Distribution System Analysis conference, Kruger National Park, South Africa. August 17-20, 2008, www.uj.ac.za/wdsa2008 EI, http://dx.doi.org/10.1061/41024(340)97
[34]Huang, J. and McBean, E. A. (2007). Identification of Contaminant Intrusion Events Into Water Distribution Systems With Limited Numbers of Sensors, 2007 AWWA Annual Conference and Exhibitions, Toronto, ON Canada, June 24-28, 2007
[35]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). A Fuzzy Logic Methodology To Assess The Risk Of Water Supply Failures For Three Water Utilities In Canada, 2007 AWWA Annual Conference and Exhibitions, Toronto, ON Canada, June 24-28, 2007
[36]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). Use of a fuzzy logic model to investigate potential failures of drinking water systems, World Environmental & Water Resources Congress 2007, Tampa, Florida, USA, May 15-19
[37]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). A Fault Tree and Fuzzy Logic Methodology for risk Assessment of Drinking Water Supply Failures, OWWA/OMWA Joint Annual Conference & Trade Show 2007, Blue Mountains, ON Canada, May 6-9, 2007
[38]Huang, J. and McBean, E. A. (2007). Contamination Intrusion Identification in Water Distribution System, OWWA/OMWA Joint Annual Conference & Trade Show 2007, Blue Mountains, ON Canada, May 6-9, 2007
[39]Lee, M., McBean, E., Schuster, C., and Huang, J., (2007). A Fault Tree and Fuzzy Logic Methodology for risk Assessment of Drinking Water Supply Failures, OWWA/OMWA Joint Annual Conference & Trade Show 2007, Blue Mountains, ON Canada, May 6-9, 2007
[40]Huang, J. and McBean, E. A. (2006). Use of Bayesian Statistics to Study Chlorine Decay for a Water Distribution System, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)148
[41]Huang, J., McBean, E. A., and James, W. (2006). Multi-objective Optimization Approach for Monitoring Sensor Placement in Water Distribution Systems, Water Distribution System Analysis 2006, Cincinnati, Ohio USA. August 27-29, 2006, www.eng.uc.edu/wdsa2006/ EI, http://dx.doi.org/10.1061/40941(247)113
[42]Huang, J., McBean, E. and Schuster, C. (2006). Using Bayesian Parameter Estimation for Multicomponent Chlorine Decay Kinetics Study in a Water Distribution System, Presented at CWWA 12th National Drinking Water Conference, Saint John, New Brunswick, April 1-4, 2006, http://www.cwwa.ca/12thconferencepresentations_e.asp
[43]Huang, J., and McBean, E., (2006) Chlorine Residual Decay in Water Distribution Systems, Presented at CSCE Annual Meeting, Calgary, Alberta, May 23-26, 2006
[44]Huang, J. and McBean, E. A. (2006). Failure Mechanisms and Monitoring Methodologies pertinent to Detection of Exposure Risks in Water Distribution Networks. Presented at 2006 International Conference on Stormwater and Urban Water Systems Modeling, Toronto, ON. Feb.23-24, 2006
[45]Huang, J. and McBean, Edward A. (2005). Assessing the Topology and Hydraulic Reliability for Water Distribution Systems, Presented at TIES Conference on Environmetrics 2005, Beijing China, August 22-26
[46]Huang, J., and McBean, E., Comparison of Analytical and Simulation Approaches for Assessing Robustness of Reliability for Water Distribution Systems" presented at Urban Stormwater Conference, Toronto, Ontario, February 2005
[47]Huang, J., McBean, E., and James, W. (2004). Reliability Analyses for Water Quality in Water Distribution Systems", presented at Stormwater and Urban Water Systems Modeling Conference, Toronto, Ontario February 19-20, 2004
[48]Huang, J., James, W. and James, W. R. C. (2003). Integration of GIS with 3-D Design Model for Stormwater Management System. International Conference of GIS and Remote Sensing in Hydrology, Water Resources, and Environment". Yichang city, Hubei Province, P.R China. Sept 16-19. http://www.hydroinfor.zsu.edu.cn
[49]James, W. and Huang, J. (2002). A Low Impact BMP for Urban Stormwater Management System: Permeable Pavement, Presented at fifth International Eco-city conference, Shenzhen, China. August 19-23, 2002.
[50]James, W. and Huang, J. (2002). Integration of design models with GIS, the web and group decision support, 5th International Eco-city conference, Shenzhen, China. August 19-23, 2002.
荣誉与奖励1. 2009年 “教育部新世纪优秀人才”(NCET-09-0586)
2. 2011年 水利部大禹水利科技进步奖一等奖,证书号DYJ**-G08
3. 2015年 加拿大土木工程学会(Canadian Society for Civil Engineering), 终身会员 (Fellow)
2. 2011年 水利部大禹水利科技进步奖一等奖,证书号DYJ**-G08
3. 2015年 加拿大土木工程学会(Canadian Society for Civil Engineering), 终身会员 (Fellow)
