承担科研项目情况:[1] 雅砻江梯级水电开发生态环境效益和影响定量研究及调控机制(国家基金委,重点基金, 50639070, 2007-2010)[2] 水库运行对下游河道岸边带植被演替的影响(国家基金委,面上基金,50879086, 2009-2011)[3] 气候变化作用下湖库藻类种群结构演替及其适应性管理(国家基金委,重大国际合作项目,50920105907, 2010-2012)[4] 重大水利工程影响下长江口环境与生态安全/变化环境下长江口生态系统的响应过程和机理(973课题,2010CB429004, 2010-2014)[5] 湖泊蓝藻水华生态灾害形成机理及防治的基础研究/蓝藻水华生态灾害评估及防治对策(973专题,2008CB418104,2008-2009)[6] 水分驱动下的海河流域生态演变机制与修复机理(973专题,2006-2011)[7] 农田生态系统多目标协调方法和模型(973专题,2005-2010)[8] 重大环境污染事件应急技术系统研究开发与应用示范/重大环境污染事件应急处理处置技术系统与工具包开发(863重大项目课题,2009AA06A418,2009-2011)[9] 重大环境污染事件应急技术系统研究开发与应用示范/重大环境污染事件风险场预警技术(863重大项目子课题,2007AA06A405,2008-2010)[10] 滇池大清河河口水质净化技术研究与工程示范/河口水质净化技术研究与工程示范/河口水面水质净化技术研究与工程示范(863水环境重大专项子课题,2005AA6010100401,2006-2008)[11] 海河流域水污染综合治理与水质改善技术与集成示范项目/海河流域北运河水系水环境实时管理与决策支持系统(国家“十一五”水专项,2009ZX07209-001,2009-2011)[12] 东江水污染系统控制与水生态健康成套技术研究与综合示范/东江流域水污染系统控制实时数字化管理体系研究与应用示范/流域产污汇污模型、入河污染物迁移转化过程及重要参数率定(“十一五”水专项子课题,2008ZX07211-10-02,2008-2010)[13] 东江水污染系统控制与水生态健康成套技术研究与综合示范/东江流域水污染系统控制实时数字化管理体系研究与应用示范/东江水环境容量计算与日最大污染负荷动态分配(“十一五”水专项子课题,2008ZX07211-10-04,2008-2010)[14] 城市综合节水技术开发与示范/城市供水管网系统漏损控制技术研究与应用(“十一五”科技支持子课题,2006BAB17B03,2006-2010)[15] 污水处理场氧化沟流场模拟(“十一五”科技支撑专题,10/10万元)[16] 跨国界(俄罗斯)流域水环境监测断面优化布置研究(国家公益性研究项目课题, 2008-2009)[17] 漓江生物栖息地演变及鱼类监测技术研究(国家公益性行业科研专项课题,200801051,2008-2010)[18] 唐山市南部沿海地区产业发展规划环境影响评价研究(唐山市发改委,2007-2008)[19] 唐山市陡河水库饮用水源地水质监控预警系统研究(唐山环保局,120/120万元,2008-2009)[20] 供水管网水质模拟和监控优化方法研究(北京科委项目,2006-2007)[21] 北京市中心区供水管网漏失监测和预警系统研究与应用(北京自来水集团,2007-2008)[22] 漓江生物栖息地演变和预测(广西“十一五”重点项目,30/30万元,2006-2008)[23] 奥运村排水积水预警系统(“08办”重点项目,2006-2008)[24] 全国水生态环境调查与修复(水利部项目, 2007)[25] 密云水库曹家路小流域水土流失及面源污染综合治理(北京科委课题,20/35万元,2006-2008)[26] 太湖外源营养盐排放通量及负荷估算模型研究(中国科学院重大交叉项目专题,2008-2010)[28] 京津地区水环境通量及其模型研究(中科院重大项目专题)获奖及荣誉:[1] The 2nd prize of ‘Dayu Award’[2] ‘100 Talents’ of Chinese Academy of Sciences 代表论著: 特邀发言[1] Chen, Q., 2002. Data Mining Techniques and Fuzzy Logic in Modelling Harmful Algal Blooms. Invited Lecture in 1st EU HABES Project Workshop. 14 - 22 June, 2002, Helsinki, Finland[2] Chen, Q., 2003. Modelling of Suspended Solid Concentrations and Water Column Irradiance in Marine Harmful Algal Blooms Forecasting. Invited Lecture in 2nd EU HABES Project Workshop. 8 - 14 March, 2003, Gothenburg, Sweden[3] Chen, Q., 2003. Integrated numerical and data driven modelling of marine aquatic ecosystem. Invited Lecture in Tianjin University, China[4] Chen, Q., 2005. Ecological Aspects in Coupled 1D2D Surface Flow Modeling. Invited speak in the 4th CTWF Forum, November 15-18, 2005, Zhuhai, China[5] Chen, Q., 2007. Rule-based cellular automata and the applications to ecohydraulics modeling. Invited speak in the International Workshop on Advances in Hydroinformatics, June 4-7, 2007, Niagara Falls, Canada.[6] Chen, Q., 2008. Some praxis in catchment modeling and management. Invited speak in the 1st IWA YWP Conference, December 8-10, Gwangju, South Korea[7] Chen, Q., Li, W., 2009. Analyses and modelling of aging induced pipe leakages in Beijing city. Invited speak in the World City Water Forum 2009, Aug. 18-21, Incheon, South Korea期刊论文[1] Chen, Q., Mynett, A.E., Minns, A.W., 2002. Application of cellular automata to modelling competitive growth of two underwater species C. aspera and P. pectinatus in Lake Veluwe, Ecological Modelling, 147: 253-265[2] Chen, Q., Mynett, A.E., 2003. Integration of data mining techniques with heuristic knowledge in a fuzzy logic modelling of eutrophication in Taihu Lake, Ecological Modelling, 162: 55-67[3] Chen, Q., Mynett, A.E., 2003. Modelling Phaeocystis globosa Bloom in Dutch Coastal Waters by Decision Trees and Nonlinear Piecewise Regression. Ecological Modelling, 176: 277-290[4] Chen, Q., Mynett, A.E., 2003. Effects of cell size and neighbourhood type in a cellular automata based prey predator model. Simulation Modelling Practice and Theory, 11: 609-625[5] Chen, Q., Mynett, A.E., 2004. Comparison of spatial patterns between cellular automata model simulations and remote sensing observations, IAHS Red Book, 296: 363-370[6] Chen, Q., Mynett, A.E., 2004. A robust fuzzy logic approach to modelling algal biomass, Journal of Hydraulic Research, 42: 303-309[7] Mynett, A.E., Chen, Q*., 2004. Cellular automata as a paradigm in ecological and ecohydraulics modeling. Lecture Notes in Computer Science, 3305: 502-512, Springer-Verlag Press[8] Chen, Q., Mynett, A.E., 2006. Forecasting Phaeocystis globosa Blooms in the Dutch Coast by an Integrated Numerical and Decision Tree Model. Aquatic Ecosystem Health & Management, 9(3): 357-364[9] Chen, Q., Mynett, A.E., 2006. Hydroinformatics Techniques in Eco-Environmental Modelling and Management. Journal of Hydroinformatics, 8(3): 297-316[10] Chen, Q., Mao, J., Li, W., 2006. Stability Analysis of Harvesting Strategies in Cellular Automata Based Predator-Prey Model. Lecture Notes in Computer Science, 4173: 268-276, Springer-Verlag Press[11] Chen, Q., Mynett, A.E., 2006, Modelling Algal Blooms in the Dutch Coast Waters by Integrated Numerical and Fuzzy Cellular Automata Approaches, Ecological Modelling, 199(1): 73-81[12] Mao, J., Chen, Q*., Chen, Y., 2008. Three-dimensional eutrophication model and application to Taihu Lake, China. Journal of Environmental Sciences, 20: 278-284[13] Chen Q, Ye F, 2008. Unstructured cellular Automata and the Application to Model River Riparian Vegetation Dynamics. Lecture Notes in Computer Science 5191: 337-344[14] Qu S, Chen Q*, Recknagel F, 2008. Cellular Automata Based Simulation of Random versus Selective Harvesting Strategies in Predator-Prey Systems. Ecological Informatics, 3:252-258[15] Chen Q., Tan K., Zhu C., Li R., 2009. Development and application of a two-dimensional water quality model for the Daqinghe River Mouth of the Dianchi Lake. Journal of Environmental Sciences, 21:313-318[16] Chen, Q., Ye, F., Li., W., 2009. Cellular automata based ecological and ecohydraulics modeling. Journal of Hydroinformatics, 11(3-4):252-265[17] Li, W., Chen, Q., Mao, J., 2009. Development of 1D and 2D coupled model to simulate urban inundation: an application to Beijing Olympic Village. Chinese Science Bulletin, 54(9):1613-1621[18] Ye, F., Chen, Q., Li, R., 2009. Modelling the riparian vegetation evolution due to flow regulation of Lijiang River by unstructured cellular automata. Ecological informatics, doi:10.1016/j.ecoinf.2009.08.002[19] Li, R., Chen, Q., Ye, F., 2009. Modelling the impacts of reservoir operations on the downstream riparian vegetation and fish habitats in the Lijiang River. Journal of Hydroinformatics, (in press)[20] Chen, Q., Han, R., Cheng, Z., Qu, S., 2009. Individual-based modelling of fish population dynamics in the river downstream under flow regulation. Ecological Informatics (accepted).[1] 陈求稳, 2001.模式自组在水生态数据分析中的应用-太湖富营养化实例分析. 水利学报, 6: 91-99[2] 陈求稳, 欧阳志云, 2005. 流域生态学及模型系统. 生态学报, 25(5): 1153-1161[3] 陈求稳, 欧阳志云, 2005. 生态水力学耦合模型. 水利学报, 36(11): 1273-1279[4] 陈求稳, Mynett, A.E., 王菲2006. 软计算在生态模型中的应用. 生态学报, 26(8): 2594-2601[5] 颜淼, 陈求稳*, 2007. 重要水源地小流域水环境动态模拟及调控研究. 水利学报, 38(9): 1038-1049[6] 谭夔, 陈求稳*, 毛劲乔, 李伟峰, 2007. 大清河河口水体自净能力实验. 生态学报, 27(11): 4737-4742)[7] 陈求稳, 曲久辉, 刘锐平, 李伟锋, 2008. 北京市供水管网的老化漏失规律模型研究. 中国给水排水, 24(11): 52-56[8] 徐强, 陈求稳*, 刘锐平, 顾军农, 2008. 基于管网水力模型的独立计量分区优化. 给水排水, 34(3): 118-120[9] 徐强, 陈求稳*, 刘锐平, 顾军农, 2008. 北京市某区供水管网水质变化研究及模拟. 给水排水, 34(5): 102-105[10] 谭夔, 陈求稳*, 朱传保, 李若男, 2009. 滇池大清河河口二维水环境模型研究与应用. 环境科学学报, (3): 634-640[11] 叶飞, 陈求稳*, 吴世勇, 蔡德所, 2008. 空间显式模型模拟河流岸边带植被在水库运行作用下的演替. 生态学报, 28 (6): 2604-2613[12] 李若男, 陈求稳*, 蔡德所, 王洪梅, 2009. 一维二维耦合模型研究水库运行对下游河道水环境的影响. 水利学报, 40(7): 769-775[13] 李伟锋, 陈求稳*, 毛劲乔, 2009. 北京奥运村洪水淹没风险模型研究. 科学通报, 54(3): 321-328[14] 李若男, 陈求稳*, 蔡德所, 王洪梅, 2009. 漓江枯水期水库补水对下游水环境的影响. 水利学报 (在印)[15] 陈求稳, 程仲尼, 蔡德所, 吴世勇, 2009. 基于个体模型模拟鱼类对上游水库运行的生态响应. 水利学报, 40(8): 897-903[16] 李若男, 陈求稳, 吴世勇, 蔡德所, 王洪梅, 2009. 模糊数学方法模拟水库运行影响下鱼类栖息地的变化. 生态学报, (接受)[17] 陈求稳, 韩瑞, 吴世勇, 蔡德所, 2009. 基于个体模型研究河流调节对下游鱼类种群动态的作用. 应用生态学报, (接受)[18] 陈求稳, 韩瑞, 叶飞, 2009. 水库运行对下游岸边带植被和鱼类的影响. 水动力研究与进展 A(接受)[18] Liu, X., Chen, Q., Zeng, Z., 2009. Soybean residues sequestration addected by different tillage practices and the impacts on soil microbial characterstoics and enzymatic activities. Acta Ecological Sinica, (in press)[19] 颜淼, 陈求稳, 吴文强, 2009. 密云水库源区曹家路流域生态治理效果分析. 中国农村水利水电, 发稿中[20] 颜淼, 陈求稳, 吴文强, 2009. 曹家路流域面源污染的特征及规律. 中国水土保持, 9(4): 18-21[21] 颜淼, 陈求稳, 吴文强, 2009. 典型山区流域面源污染模型研究-以曹家路流域为例. 中国水土保持, (6): 33-35[22] 刘孝利, 陈求稳, 曾昭霞, 颜淼, 吴文强. 典型黑土区非点源污染控制途径研究. 中国水土保持, 2009, 5:31-33[23] 刘孝利, 陈求稳, 曾昭霞. 黄土高原区基肥对农田土壤水肥和产量的影响. 现代农业科学, 2008, 15(10):25-29.[24] 刘孝利, 李凤民, 曾昭霞, 陈求稳. 黄土高原地区不同草地退耕模式水分利用效率的比较. 生态学报, 2007, 27(7): 2847 - 2855专著与合著[1] Chen Q., 2004. Cellular Automata and Artificial Intelligence in Ecohydraulics Modeling, Taylor & Francis Group plc, London UK, ISBN: 90 5809 696 3[2] Recknagel F., Chen Q., 2008. Computational Ecology: Primer to Ecosystem Simulation and Forecasting. Springer-Verlag, Berlin/Heidelberg (in press)著作章节:[1] Chen Q., 2008. Cellular Automata. Handbook of Ecological Modelling and Informatics, WIT Press, ISBN: 978-1-84564-207-5 (Chapetr 14)[2] Chen Q., Mynett A E., 2008. Rule-based Ecological Model. Handbook of Ecological Modelling and Informatics, WIT Press, ISBN: 978-1-84564-207-5 (Chapter 15)[3] Chen, Q., Mynett, A.E., 2008. Applications of Soft Computing to Environmental Hydroinformatics with Emphasis on Ecohydraulics Modelling. Practical Hydroinformatics: Computational intelligence and technological developments in water applications. Springer-Verlag, Berlin/Heidelberg, ISBN: 978-3-540- 79880-4, P405-420 (Chapter 29)国际会议论文Minns, A.W., Mynett, A.E., Chen, Q., Boogaard, H.F.P., van den, 2000. A cellular automata approach to ecological modelling. In Odgaard, A.J., (ed.), Hydroinformatics 2000, Iowa, USA, 383-390Chen, Q., 2001. Application of cellular automata to ecohydraulics modelling. Proc. XXIX IAHR Congress, Beijing, China, Vol X: 236-242Chen, Q., Mynett, A.E., 2002. A robust fuzzy logic approach to modelling algal biomass. In King, J. (ed.), Proceedings of International Conference of Environmental Flows for River Systems and the 4th International Ecohydraulics Symposium. Cape Town, South AfricaChen, Q., Mynett, A.E., Minns, A.W., 2002. Coupling of scales in finite state cellular automata with applications to ecohydraulics modelling. In: Falconer, R.A., Lin, B., Harris, E.L., Wilson, C.A.M.E., (Eds.), Proceedings of Hydroinformatics 2002, Cardiff, UK, Vol. 1, 500-506Chen, Q., Mynett, A.E., Blauw, A.N., 2002. Fuzzy logic and artificial neural network modelling Phaeocystis in the North Sea. In: Falconer, R.A., Lin, B., Harris, E.L., Wilson, C.A.M.E., (Eds.), Proceedings of Hydroinformatics 2002, Cardiff, UK, Vol. 1, 722-728Blauw, A.N., Peperzak, L., Chen, Q., 2002. Modelling harmful algal blooms with fuzzy logic, with an example for Phaeocystis globosa in the Dutch coastal zone. In Proceedings of the 5th International Conference on Harmful Algae. Florida, USAChen, Q., Mynett, A.E., Boogaard van den, H.F.P., 2003. A Hybrid Model for predicting Chlorophyll a Concentrations off the Dutch North Sea Coast. In Qian, Z., Gao, J., (eds.), Proceedings of International Conference on Estuaries and Coastal, Hangzhou, China, 677-684Chen, Q., Mynett, A.E., 2004. Modelling algal bloom in the Dutch coast by integrated numerical and fuzzy cellular automata approach. In: Liong, S.Y., Babovic, V. (Eds.), Proceedings of the 6th International Conference on Hydroinformatics, SingaporeChen, Q., Mynett, A.E., Teng, L., 2004. Integrated numerical and decision tree model of Phaeocystis globosa bloom in Dutch coast. In: Liong, S.Y., Babovic, V. (Eds.), Proceedings of the 6th International Conference on Hydroinformatics, SingaporeMynett, A.E., Chen, Q., 2004. Integrated ecohydraulics modelling with application to marine eutrophication. The 5th International Ecohydraulics Conference, Madrid, Spain.Chen, Q., Mynett, A.E., 2004. Predicting Phaeocystis globosa Bloom in Dutch Coastal Waters. IAHR-APD Conference, Hong KongChen, Q., Mynett, A.E., 2004. Predicting Phaeocystis globosa Bloom in Dutch Coastal Waters. In: Lee, J.H.W., Lam, K.M. (Eds.), Environmental Hydraulics and Sustainable Water Management, Proceedings of IAHR-APD Conference, Hong Kong, 811-817Mynett, A.E., Chen, Q., Babovic, V.M., 2004. Artificial intelligence techniques in environmental hydrodynamics: The role of expert knowledge In: Lee, J.H.W., Lam, K.M. (Eds.), Environmental Hydraulics and Sustainable Water Management, Proceedings of IAHR-APD Conference, Hong Kong, 3-14Chen, Q., Mynett, A.E., 2005. Self organization feature maps for eutrophication analysis of Taihu Lake. In: Jun, B., Lee, S., Seo, W., Choi, G. (Eds.), Proceedings of the XXXI IAHR Congress, Soul, South Korea, 571-580Chen, Q., Mynett, A.E., Li, W., 2005. Watershed Ecology and the application to Miyun Reservoir Basin. In: Shan, H. (Ed.), Proceedings of the 2nd International Yellow River ForumChen, Q., Li, W., Mynett, A.E., 2006. Hydrological modelling of Yongding River for flood drainage by digital terrain model. In: Gourbesville, P., Cunge, J., Guinot, V., Liong, S., (Eds.), Hydroinformatics Conference 2006, Nice, France, 1667-1674Chen, Q., Mao, J., Mynett, A.E., 2006. Hydroinformatic techniques in eco-environmental systems modelling. . In: Gourbesville, P., Cunge, J., Guinot, V., Liong, S., (Eds.), Hydroinformatics Conference 2006, Nice, France, 2391-2398Huang, Y., Chen, Q., Zhang, L., 2006. Modelling of nitrogen and phosphorus loss from watersheds with different landuse. In: Gourbesville, P., Cunge, J., Guinot, V., Liong, S., (Eds.), Hydroinformatics Conference 2006, Nice, France, 2637-2644Li, H., Mynett, A.E., Chen, Q., 2006. Modelling of algal population dynamics using cellular automata and fuzzy rules. In: Gourbesville, P., Cunge, J., Guinot, V., Liong, S., (Eds.), Hydroinformatics Conference 2006, Nice, France, 1040-1047Chen, Q., 2007. Advances in Ecohydraulics Modelling with Emphasis on Spatially-explicit paradigms. In: Proceedings of the 3rd International EcoSummit.Li, R., Chen, Q., Mynett, A.E., Wu, S., Wang, H., 2008. Modelling of the flow changes due to reservoir operations and the impacts on aquatic ecosystem downstream. Proceedings of the 16th IAHR-APD Conference, Nanjing, China, Vol. VI:2272-2278Ye, F., Chen, Q., Cai, D., Mynett, A.E., 2008. Study on the riparian vegetation dynamics due to reservoir operations through an integrated cellular automata model. Proceedings of the 16th IAHR-APD Conference, Nanjing, China, Vol. II:405-410Chen, Q., Cheng Z., Han, R., Wang, H., 2009. An integrated water quality and individual based model to study the impacts of reservoir operations on downstream fish dynamics. Proceeding of the 33rd IAHR Congress, Vancouver, Canada, 6198-6205Li, R., Chen, Q., Wu, S., Wang, H., 2009. Application of fuzzy logic to model fish habitat changes in the downstream of Lijiang River due to reservoir operations. Proceeding of the 33rd IAHR Congress, Vancouver, Canada, 6206-6213Wu, W., Chen, Q., Li, W., 2009. Modeling of Ecosystem Groundwater Level Based on Recovery Ancient Channel of Tarim River. Proceeding of the 33rd IAHR Congress, Vancouver, Canada, 3633-3640开发的共享版模型工具:[1] EcoCA: Modelling prey-predator dynamics by cellular automata, with broad functionalities.[2] LYC: modeling the competition and succession of different macrophytes in freshwater lakes by cellular automata.[3] FuzzHAB: fuzzy logic model for algal bloom modeling.这些模型软件由本人独立开发,并共享作为研究生教学使用,目前已在荷兰、丹麦、澳大利亚等国家的大学里使用,并随“Ecological Modelling and Informatics”一起出售。
相关部门应该加大相关设施的维修,当出现这些故障的时候,应该及时进行维修处理,而且还应该对于用户增大节约资源意识,从源头上减少漏损。
要及时更换这些漏水的水管,同时也希望提高人们的节水意识,然后国家也要进行管控。
需要维修人员及时对这些管道进行维修,另外每家每户在出现漏水的情况的时候,要及时汇报,及时进行维修。
137 浏览 3 回答
156 浏览 2 回答
248 浏览 3 回答
116 浏览 4 回答
109 浏览 2 回答
148 浏览 2 回答
185 浏览 2 回答
344 浏览 3 回答
144 浏览 3 回答
172 浏览 3 回答
160 浏览 5 回答
161 浏览 2 回答
278 浏览 2 回答
181 浏览 3 回答
80 浏览 3 回答