The Pacific Institute, a global nonpartisan water think tank, has released guidance for developers to plan, design, and operate onsite water reuse systems.
The Guide for Developing Onsite Water Systems to Support Regional Water Resilience “advances circular, localized approaches to managing water that reduce a site’s water footprint, improve its resilience to water shortage or other disruptions, and provide benefits for local communities and regional water systems,” according to a news release. Onsite water systems collect and treat water from onsite sources, including wastewater, rainwater, and stormwater, and reuse it for non-potable water uses like toilet flushing, outdoor irrigation, and cooling, which can account for over 75% of a site’s water demand.
The new guide helps site developers envision and evaluate how an onsite system can use a multi-benefit approach to build water resilience, support equity, improve environmental health, and protect public health. Each section includes sample questions to consider, ways for stakeholders to engage, highlights resources to examine, and offers recommended analyses. The guide also provides a range of case studies illustrating best practices and lessons learned.
“Onsite water systems are gaining traction across the U.S. and the world as a water resilience strategy,” said Heather Cooley, director of research at the Pacific Institute. “This circular approach can provide multiple benefits for the building, water systems, and the larger community. In addition to diversifying water supplies, they can reduce pollution from stormwater, create green space, and provide added flexibility and redundancy to centralized water systems.”
Related Stories
Sustainability | Feb 7, 2022
Western Washington University will be home to Washington State’s first carbon neutral college building
Perkins&Will is designing the building.
Sponsored | Reconstruction & Renovation | Jan 25, 2022
Concrete buildings: Effective solutions for restorations and major repairs
Architectural concrete as we know it today was invented in the 19th century. It reached new heights in the U.S. after World War II when mid-century modernism was in vogue, following in the footsteps of a European aesthetic that expressed structure and permanent surfaces through this exposed material. Concrete was treated as a monolithic miracle, waterproof and structurally and visually versatile.
Sustainability | Nov 16, 2021
Shanghai’s Starbucks Greener Store Lab is the first RESET-certified store for material circulation in the world
The store is inspired by the city of Shanghai and its waste management goals.
Urban Planning | Nov 11, 2021
Reimagining the concrete and steel jungle, SOM sees buildings that absorb more carbon than they emit
The firm presented its case for a cleaner built environment during the Climate Change conference in Scotland.
Sustainability | Nov 9, 2021
The future of regenerative building is performance-based
Why measuring performance results is so critical, but also easier said than done.
Sustainability | Oct 28, 2021
Reducing embodied carbon in construction, with sustainability leader Sarah King
Sustainability leader Sarah King explains how developers and contractors can use the new EC3 software tool to reduce embodied carbon in their buildings.
| Oct 14, 2021
The future of mass timber construction, with Swinerton's Timberlab
In this exclusive for HorizonTV, BD+C's John Caulfield sat down with three Timberlab leaders to discuss the launch of the firm and what factors will lead to greater mass timber demand.
Green | Oct 6, 2021
My reaction to the UN IPCC Climate Change 2021 report: Ugh!
The recent report of the UN Intergovernmental Panel on Climate Change is not a happy read.
Data Centers | Sep 22, 2021
Wasted energy from data centers could power nearby buildings
A Canadian architecture firm comes up with a concept for a community that’s part of a direct-current microgrid.
Sponsored | Sustainability | Sep 20, 2021
A Beginner’s Handbook to LEED Building Design and Construction