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中文介绍

      由哈尔滨工业大学、国际水协会共同主办的第五届城市水科学论坛将于2020年12月1-4日在桂林召开。城市水科学论坛是城市水资源与水环境国家重点实验室创办的系列国际学术会议,每2年举办一次,已举办4届,是本领域重要品牌活动之一。  
近年来,世界城市人口数量激增,城市快速发展导致水的需求量越来越大。为了应对日趋严峻的水环境问题,实现绿色可持续发展和水生态发展,联合国提出“弹性城市”规划概念,我国也积极推进“智慧城市”、“生态城市”建设,发展以“数字水”为核心的未来城市体系,构建具有健康水系统的弹性城市,取得有效成果。
 
      本届大会的主题是“Future-oriented Urban Water System——Ecological, Digital and Resilient”,主要围绕面向未来的水处理技术、面向未来的弹性城市设计与水规划、未来数字化城市水生态等主要议题进行共同研讨。会议为国内外专家学者提供一个高水平国际交流平台,为建设生态、弹性的数字水城市作出贡献。
 
一、会议名称、时间与地点
中文全称:第五届城市水科学论坛
会议时间:2020年12月1~4日
会议地点:中国桂林
 
二、组织机构
1.主办单位
  • 哈尔滨工业大学
  • 国际水协会(IWA)
2.承办单位
  • 桂林理工大学
  • 城市水资源与水环境国家重点实验室
  • 城市水资源开发利用(北方)国家工程研究中心
三、主要议题
Future-oriented Cutting-edge Water Treatment Technology
1.Drinking Water Treatment and Supply
  • Process control and optimization in drinking water treatment
  • Disinfection technology and by-products management
  • Control of antibiotic resistance bacteria/genes
  • Technologies and innovations of alternative drinking water
2.Better Solutions from Water Source to Tap
  • Networks leakage/Water loss detection and management
  • Control of microorganisms and micro-pollution (metal, plastic leaching, etc.) during transportation
  • Distribution systems management (house/building plumbing, distribution piping, etc.)
  • Optimization of water supply system
3.Cutting-edge Water Treatment Technology
  • Emerging contaminants solutions (micropollutants, pharmaceuticals, microplastics, antibiotic resistance bacteria/genes, etc.)
  • Innovations of advanced/tertiary treatment technologies for high quality effluents
  • Green technology and nature-based solutions
  • Analytical and rapid detection methods for identification, classification and source detection of traditional/emerging contaminants
  • Hybrid centralized/ decentralized water solutions
  • Treatment technology of complex component wastewater
4.Water Reuse and Resource Recovery Technology
  • Cutting-edge technology for non-potable water recycling/reuse
  • Innovations in direct and indirect drinking water reuse
  • Strategies for energy optimization (carbon diversion, biogas production, etc.)
  • Water resource recovery (water, nutrients, energy, etc.)
  • Emerging opportunities for resource recovery/reuse (valuable organic compounds such as proteins, cellulose and bioplastics, etc.)
     
Future-oriented Urban Water Design and Planning in Urban Water Resilience
1.Planning and Design Based on Future Water
  • Smart water network design
  • Pollution pressure and water resource smart allocation
  • Modelling/optimization of water supply and treatment processes
  • Climate resilience planning and design across the water cycle
  • Impact of urban development/redevelopment and densification on water management
  • Inclusive city overall plan: design, build, reuse and economy
2.Integration of Water Management and Urban Development
  • Advanced management of stormwater and flood in urban areas
  • Catchment management and ecosystem services on different scales
  • Decision support system for integrated water resources management
  • Groundwater (including replenishment) & surface management
  • Integrated water management for resilience (including stakeholder co-engagement, urban resilience & emergency response)
3.Water Safety Plans and Strategies
  • Water safety plans for balance between grey and green infrastructure in urban water resilience
  • Microbial and chemical risk assessment (microbial ecology and ecotoxicology, etc.)
  • Management of water supply systems stability
  • Water demand and efficiency management
  • Management of pipe network and water facilities 
  • Identification and assessment of water ecological risk
     
Digital Urban Water of Future 
1.Digital Water Supply and Pipe System
  • Urban scale digital water (surface water/ground water) monitoring and simulation
  • Smart distribution of urban water supply
  • Smart water treatment facilities scheduling
  • Modeling optimization and control of water treatment processes/integrated systems 
2.Digitalization and Sustainable Operation of Urban Water System
  • Quantification of economic, human and environmental benefits of water solutions
  • Wise analysis of urban water demand, water loss and energy consumption
  • Smart monitoring of urban water systems
  • Decision support system for real time operation based on water quality/quantity data acquisition and analytics
  • Data management stability, accessibility and security
3.Urban Water Design of Future
  • Water-sensitive urban design (sponge cities and blue/green infrastructure)
  • Blueprints of clean and efficient water designing for sustainable and wise water cities
  • Regenerative water services design (designing hybrid centralized-decentralized systems for urban densification and resource-constraint scenario, etc.)
  • Basin connected/interlinking of rivers and climate resilient cities designing for water resources sustainable development
  • Digital water communities designing for the urban water cycle from site to basin scale
 
四、会议投稿
本次大会的会议语言是英语,投稿通过网站在线提交完成。
 
五、会议联系方式
会务组邮箱:  summit@hit.edu.cn
通信地址:  哈尔滨市南岗区黄河路73号哈工大环境学院  
联系人: 张   军,13654586393(哈尔滨工业大学)
               刘冰峰,18946023752(哈尔滨工业大学)
               张红霞,15078330789(桂林理工大学)
               叶丽丽,13667738046(桂林理工大学)
 
第五届城市水科学论坛组委会
2020年3月10日