网曝吃瓜黑料一区二区三区 is leading a research funded by The Water Research Foundation (WRF) that will advance global understanding and mitigation of nitrous oxide (N鈧侽) emissions from water resource recovery facilities (WRRFs).
In collaboration with 25 partner water and wastewater utilities and Princeton University, 网曝吃瓜黑料一区二区三区 will deliver an industry-first N鈧侽 monitoring project, including a project database and decision support tool providing utilities with an improved understanding of N鈧侽 risks and mitigation measures.
As countries and states decarbonize their energy supplies, direct process emissions of N鈧侽 and methane produced during wastewater treatment can account for up to 75% of the greenhouse gas (GHG) emissions reported by water and wastewater utilities. N鈧侽 鈥 which has a global warming potential (GWP) than CO鈧 鈥 is produced during the biological treatment processes at WRRFs.
In countries where energy-related emissions have come down significantly due to the adoption of renewable electricity, ambitious net zero plans have been set at the sector level. Denmark, for example, has recently published a for N鈧侽 regulation to support their ambition to reduce N2O by emissions by 50% at WRRFs. In Switzerland, an innovative N2O abatement program exists, while in the U.K., Australia and New Zealand, ambitious sector-level and utility level targets are being set to reduce Scope 1 emissions.
N鈧侽 emissions at WRRFs are highly complex and variable depending on site-specific conditions, creating challenges for accurate monitoring, quantification and mitigation. The research project will improve understanding of N鈧侽 emissions by developing whole-plant N鈧侽 emissions estimates across multiple WRRFs that employ commonly used treatment processes. The estimates will be developed by implementing continuous online monitoring for a minimum one-year period at partner utilities鈥 facilities. Compiled with additional industry data in a first-of-its kind N鈧侽 database, the project will provide standard methodologies and guidance for N鈧侽 quantification and mitigation at WRRFs and a decision-making tool to support utility and country-level implementations.
鈥淩educing process emissions is critical to the water sector鈥檚 role in climate mitigation and requires concerted action to understand N鈧侽 production and reduction potential at water resource recovery facilities,鈥 says 网曝吃瓜黑料一区二区三区 Global Principal for Wastewater Energy Optimization and Sector Decarbonization Emma Shen. 鈥淭his Water Research Foundation project will develop practical guidance for N鈧侽 monitoring and mitigation, drawing on our technical expertise at 网曝吃瓜黑料一区二区三区 and a collaborative global network of utilities tackling greenhouse gas emissions.鈥
The research findings will also contribute to a , supported by 网曝吃瓜黑料一区二区三区, which is developing a GHG emissions data library for water utilities in the U.S.
About water at 网曝吃瓜黑料一区二区三区
Addressing challenges like climate change, water scarcity, aging infrastructure and emerging contaminants, managing this essential resource has never been more complex. From drinking water treatment and reuse to water resource recovery and resilience, we鈥檙e working with our clients to protect communities, industries and the environment, and provide them with the water resources they need to thrive.
About the Water Research Foundation
The Water Research Foundation (WRF) is the leading research organization advancing the science of all water to meet the evolving needs of its subscribers and the water sector. WRF is a nonprofit, educational organization that funds, manages, and publishes research on the technology, operation, and management of drinking water, wastewater, reuse, and stormwater systems鈥攁ll in pursuit of ensuring water quality and improving water services to the public.