Future-oriented Urban Water

ystem - Ecological, Digital and

Resilient

About Summit2020
Welcome Message

Prof. Nanqi Ren
Member of Chinese Academy of Engineering
Director, State Key Lab of Urban Water Resource &Environment, HIT
Chair, Science Summit on Urban Water


It is a great honor for me to welcome you to attend the 5th IWA Conference of Science Summit on Urban Water during December 1-4, 2020, co-organized by Harbin Institute of Technology (HIT) and International Water Association (IWA). The theme of this conference is "Future-oriented Urban Water System—Ecological, Digital and Resilient ", which focuses on future-oriented water treatment technology, resilient urban design and digital water ecology.
In recent years, the increasing number of urban population and rapid development of cities in the world have led to a growing demand for water, but at the same time, the problem of water pollution is becoming more serious. Global water shortage, ecological destruction and water crisis under multiple effects are becoming big issues. In order to cope with these problems and achieve sustainable development, the United Nations put forward the concept of "resilient city", stressing that how we manage water and fragile resource would define our success in reaching all goals of the 2030 Agenda for Sustainable Development.
In this global trend, China has made great efforts for the security of urban water environment. China has incorporated the construction of "Smart City" and "Eco-City" into the national strategic planning, and developed the future urban system with "digital water" as the core to build a resilient city with healthy water system. Moreover, in the Government Report of 2019, it is also emphasized that in the future, urban water infrastructure construction must move towards energy conservation and consumption reduction, environmental friendliness and resource recycling.
The conference aims to build a comprehensive communication platform of water technology, water design, water ecology and water elasticity, and promote green development of water treatment industry and digital resilient city in China and other countries. We are very pleased to offer this Summit and warmly welcome all of you to Guilin. 


Prof. Yu Tian
Deputy Director, State Key Lab of Urban Water Resource &Environment, HIT
Executive Chair, Science Summit on Urban Water

The 5th IWA Conference of Science Summit on Urban Water will be held during December 1-4, 2020, in Guilin, China. On behalf of the Organizing Committee and as Executive Chair of this event, it is my honor to welcome you to attend this conference.
The conference is an academic event jointly organized by Harbin Institute of Technology (HIT) and International Water Association (IWA), which has received strong support and positive response from scholars in the field of environmental science and engineering. The conference will focus on the current situation, challenges and development trends of future urban water system, and getting deeply involved in global environmental governance to come up with future-oriented solutions for environmental ecological protection and sustainable development, as well as guiding international cooperation for resilient and digital city. The conference will provide an excellent academic platform for scientists to communicate and discuss in this field.
Guilin is a picturesque tourist city. “East or west, Guilin scenery is best”. We believe that we will offer you a safe and pleasant stay in Guilin during the conference. I sincerely wish to see you all during December 1-4, 2020. 

 

Prof. Honghu Zeng
Vice Dean, College of Environ. Sci. & Engi., Guilin University of Technology
Co-executive chair, 5th Science Summit on Urban Water 

On behalf of the local organizing committee, it is my great pleasure to invite you all to the 5th IWA Conference of Science Summit on Urban Water in the beautiful city of Guilin.
Facing the ageing infrastructure, increasingly scarce water resources and fragile urban design, we are forced to take innovative solutions to create water resilience for growing urban areas. Relating to the conference theme of “Future-oriented Urban Water System—Ecological, Digital and Resilient”, the proposition of "resilient and digital city" has come to the stage. Guilin is one of the most beautiful cities in China, surrounded by rocky hills with the Li River through the city, and renowned for its heritage, culture and festivals. You can visit and explore the landscapes, as well as local cuisine with mixture of Cantonese cuisine and Zhuang cuisine. “Guilin's scenery is the best among all under heaven”. I am looking forward to a fruitful conference in Guilin in December 2020.

Theme Settings
  • 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.)
  • 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
  • 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
Quick Links
Latest News
Important Dates
August 25, 2020
Outline Paper Submission Deadline
October 15, 2020
Notification of Acceptance
October 30, 2020
Deadline for Early Bird Registration