RIWS

The RIWS project led by Ana Mijic, Imperial College London, addresses a critical knowledge gap in resilience scenarios for integrated water systems for various stressors.

It aims to develop scenarios that can provide evidence on the feasibility of water systems adaptive planning when assessed by resilience metrics for:

• water companies
• planning authorities
• environmental regulators

The resilience of water systems in the context of climate change, weather extremes, planning and operational decisions is crucial for water infrastructure service delivery and environmental management. In the UK, water systems are under extreme pressure from exceptional droughts or challenges to manage sewage spills. At the same time, the latest report on river water quality shows that only 14% of rivers in England meet good ecological status. Thus, there is a need to develop resilience assessments to address interlinked challenges of water systems and the environment. This project addresses a critical knowledge gap: What are resilience scenarios for integrated water systems (RIWS) that can be used to evaluate resilience metrics for various stressors, across system components and to inform adaptive planning? The development of RIWS will be supported by the novel Water System Integration Modelling Framework (WSIMOD) developed at the Imperial College London that will be integrated with the DAFNI platform.

WSIMOD’s flexibility in integrating numerous water system interactions (rural-urban, water supply-wastewater and flowwater quality) and representing a range of water management options with fast simulations times using primarily publicly available data as an ideal modelling tool for assessing the resilience of integrated water systems. Novel resilience metrics that combine concepts of a critical threshold in performance data with performance metrics evaluation will be informed by Greater London Authority, Thames and Affinity Water and Environment Agency’s engagement through participatory workshops. Stressors will be defined as acute (e.g., component failure) and chronic (e.g., climate change) disruptions. The project directly contributes to the ‘Building a secure and resilient world’ strategy focus on ‘adaptation to change and robust decision making’ and placebased resilience of integrated rural-urban water systems.