A guide to managing PFAS with effective detection, treatment and disposal.
potable water
These technologies can help improve performance and safety, especially when paired with UV disinfection.
How FKAA’s hurricane-proof SWRO plant triples energy efficiency.
Laboratory and field pilot testing for the design and evaluation of media for removal of PFAS compounds.
Exploring next steps for water utilities.
Public water systems face a tight time frame to achieve PFAS and chromium 6 MCLs.
How this technology can improve energy efficiency and extend replacement cycles.
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How to specify a pump that meets NSF standards and delivers reliable and efficient operation.
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The importance of NSF/ANSI-61 certified expansion joints in potable water systems.
Adopting pretreatment techniques may lower costs overall.
Concerns surrounding upcoming PFAS regulations and the differences between PAC and GAC.
A case for water utilities to adopt modern practices and technology.
Engineers must place safety and efficiency at the forefront, especially when it comes to drinking water.
Desalination is projected to increase as a source of drinking water in the coming years.
Enhancing efficiency and reliability by rebuilding a pivotal pump.
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Air-gap tank solutions that mitigate the risk of cross-contamination of potable and non-potable resources.
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Energy recovery systems produce energy from the flow of water in pressurized water pipelines.
Common factors of membrane failure and how to maximize life.
The proper seal is important when attempting to meet water quality standards.
Choosing the right materials is especially critical in water applications that affect the public.
How organizations are providing clean water access to areas in need.