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Source: TTX Transform wastewater challenges with TTX Environmental. For surface finishers facing limited access and strict municipal wastewater regulations, TTX provides a groundbreaking solution.

Source: MacDermid  Envio Solutions MacDermid Envio Solutions (MES) focuses on delivering wastewater treatment and recycling systems as well as system care and services to its customers and markets.

Wastewater treatment systems require much thought when piecing together an effective process. Choosing the right equipment and understanding maintenance, lifespan and chemical impact is critical. 

Source: Kontek Kontek’s “spigot to drain” Source Water and Wastewater Solutions offer integrated technologies to modernize your water & wastewater treatment and recovery.

Each environmentally beneficial system treats the wastewater stream at a fraction of the cost of larger, more complex industrial systems.

Compliance and sustainability considerations for effective wastewater treatment for finishing operations

This NASF-AESF Foundation research project report covers the 12^th quarter of project work (October – December 2023) at the University of Georgia. In our previous report, we described our work on performance and effect of surface fluorinated Ti₄O₇ anodes on PFAS degradation in reactive electrochemical membrane (REM) mode. This quarter, our experiments involved utilizing porous Ti₄O₇ plates serving both as anodes and membranes. Tests compared pristine and F-18.6 Ti₄O₇ anodes at current densities of 10 mA/cm² and 40 mA/cm². This 12^th quarterly report discusses the mechanisms of the effects on EO performance by anode surface fluorination.  

Chandler Mancuso, technical director with MacDermid Envio discusses updating your wastewater treatment system and implementing materials recycling solutions to increase efficiencies, control costs and reduce environmental impact.

Visit the company’s booth to explore how the dedicated team can support your business goals.

This NASF-AESF Foundation research project report covers quarterly reporting for the year 2023 at the University of Illinois at Chicago.  The objective of this work is to utilize a cost-effective reactive electrochemical membrane (REM) for the removal of PFAS from synthetic electroplating wastewater.  Discussed here are the oxidation of PFOA with three different catalysts, development of a method for detecting PFAS, as well as work on 6:2-fluorotelomersulfonic acid (6:2 FTS) and electrodeposited bismuth/tin oxide catalysts.