Litcius/Paper detail

Net Zero Urban Water from Concept to Applications: Integrating Natural, Built, and Social Systems for Responsive and Adaptive Solutions

Courtney Crosson, Andrea Achilli, Adriana A. Zúñiga-Terán, Elizabeth A. Mack, Tamee R. Albrecht, Padmendra Shrestha, Dominic L. Boccelli, Tzahi Y. Cath, Glen T. Daigger, Jennifer G. Duan, Kevin Lansey, T. Meixner, Stéphanie Pincetl, Christopher A. Scott

2020ACS ES&T Water25 citationsDOIOpen Access PDF

Abstract

Innovation in urban water systems is required to address drivers of change across natural, built, and social systems, including climate change, economic development, and aged infrastructure. Water systems are complex socio-technical systems that interact with biophysical systems to supply and reclaim water. We present a vision for enhancing urban water system resilience through a net zero urban water (NZUW) approach, which meets the needs of a given community with a locally available and sustainable water supply, without detriment to interconnected systems or long-term water supply. NZUW is an integrative approach with progressive targets assessed using a quantitative framework to expand adaptive and responsive solutions for urban water self-sufficiency. Decision makers can use NZUW to understand trade-offs between future interventions to urban water systems across spatial and temporal scales. We present the overall NZUW approach, drivers of change, applications, and research gaps.

Topics & Concepts

Water supplyClimate changeResilience (materials science)Environmental resource managementPsychological resilienceSocial systemSustainabilityEnvironmental planningEnvironmental scienceEnvironmental economicsBusinessComputer scienceEnvironmental engineeringEcologyEconomicsThermodynamicsPsychologyPhysicsArtificial intelligenceBiologyPsychotherapistUrban Stormwater Management SolutionsWater Quality Monitoring TechnologiesWater-Energy-Food Nexus Studies