Multi-Benefits of Adopting the Risk-based Framework for
Onsite Non-potable Water Systems
Recode and International Living Future Institute invite you to participate in the #TASMAWS letter-writing/email campaign to encourage the State of Washington to adopt and implement a statewide onsite water permit program using the “Risk-Based Framework (RBF) for the Development of Public Health Guidance for Decentralized Non-Potable Water Systems“. The RBF defines reduction targets (called “log reduction targets” or LRTs) for a variety of different onsite waters and municipal wastewater, too, based on the risk to human health that could be caused by the presence of pathogens (i.e. viruses, bacteria, and protozoa).
There are multiple benefits associated with the adoption of a permit program using the RBF (Download a pdf):
Public Health Benefits
The proposed risk-based framework for onsite water systems is more protective than our current regulations. By using this internationally accepted methodology, agencies can reduce their exposure to risk associated with meeting their public health and environmental regulatory requirements.
Developers are permitting systems under a wide variety of permitting pathways, some of which may not be as good at protecting public health or the environment. Adopting a program now allows city and state agencies to implement regulations with time to discover local challenges and adjust as necessary. As water becomes scarcer, a voluntary water reuse program that has already been piloted can be more easily scaled up to meet new challenges.
Even in water-rich places before development, the watershed is already using almost all its water to maintain ecological health and provide people with environmental services. When we draw water from the watershed, plants and animals are impacted. Water reuse is a form of deep conservation that keeps more water in the watershed, creates healthier environments for fish and wildlife, and results in better air and water quality. According to a 2014 report “Improved efficiency, stormwater capture, and greater water reuse [of the current water use levels] can… supply all of urban Southern California and have water remaining to help restore ecosystems and recharge aquifers”.
Hydroelectric power is directly connected to the volume of water that drives it. Water conservation in the form of reuse returns more potential energy to the power grid and lowers overall costs. On a local level, utilities see a lower demand for water and reduce the need for utility expansion or expensive well operations.
Environmental Justice Benefits
Even with existing massive infrastructure systems and well-meaning subsidy programs, water is inequitably distributed in the United States and becoming less and less affordable for more and more people. (e.g. In the Central Valley of California has an environmental justice crisis in the Central Valley, where a mostly Latinx population is suffering from lack of access to suitable drinking water due to groundwater contamination.) As We the People of Detroit have discovered, distributed community-scale systems are an opportunity for communities in Detroit and Flint to control their own source and quality of water and generate income from byproducts for their community.
Implementing a deep water conservation program such as water reuse or diversified water treatment infrastructure directly affects the affordability of water by reducing the financial burden for expansion of wastewater treatment plants, first-response infrastructure development and integration of multiple utilities and jurisdictions. Developers and small utility operators are already profiting from onsite water reuse systems by providing on-site water conservation savings back into their development portfolio.
Onsite water reuse can diversify a city or state’s water portfolio, and with climate change and natural disasters regularly threatening large-scale centralized systems, this is a critical path issue that needs to be addressed immediately. Earthquakes damage pipes and interrupt service for years. As we lose forests to fire, landslides can impact large reservoirs by damaging structures like dams or polluting the water. In addition to eliminating a singular failure point, a diversified water infrastructure spreads its water supply out in smaller volumes and reduces the amount of piping and failure points, therefore reducing the risk of failure. These diversified systems also have to ability to respond better and faster following a disaster than conventional systems.