Researchers from the University of Portsmouth have examined the dynamic changes in the resilience of UK wastewater treatment works, now known as Water Resource Recovery Facilities (WRRFs), and discovered that environmental stressors are increasing the potential for pollution events.
Researchers from the University of Portsmouth have examined the dynamic changes in the resilience of UK wastewater treatment works, now known as Water Resource Recovery Facilities (WRRFs), and discovered that environmental stressors are increasing the potential for pollution events.
WRRFs play a vital role in our day-to-day lives by producing clean water, removing nutrients, generating renewable energy, and extracting other valuable bio-based materials from wastewaters. These systems have been engineered to withstand process upsets or disturbances to an extent, but a new study suggests climate change and population growth is putting them under extreme stress.
The collaborative project with Southern Water and Thames Water was the first to use instrument data from operational and compliance monitoring to track real-life stressors and their influence on WRRFs. It found dynamic stressors, including higher rainfall intensity and extended dry periods, could be linked to each event. This also echoes the future challenges noted in the latest IPCC report, which states with high confidence that extreme weather linked to climate change will cause damage to infrastructure.
Read more at: Woods Hole Oceanographic Institute
An Arctica islandica shell perches on the railing of the ESS Pursuit during a research cruise in the Mid-Atlantic Bight, south of the Gulf of Maine. A new WHOI co-led study finds that rapid Gulf of Maine warming has reversed long-term cooling that occurred there within the last 900 years. (Photo credit: Nina Whitney/ © Woods Hole Oceanographic Institution)
