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Water

Technology for Capturing and Recycling Micropollutants

Matter. has developed Regen™,  a patented self-cleaning filtration solution designed to capture microplastics and microfiber pollutants from domestic and commercial laundry. 

Regen™ operates using a unique regenerative process to separate microfibers from wastewater effectively. Its self-cleaning filter design provides outstanding performance, a better user experience, and a truly sustainable design for domestic, commercial, and industrial applications. 

Advanced PFAs Removal for Water Treatment

Puraffinity has developed Puratech, a patented solution designed to effectively remove PFAS (per- and polyfluoroalkyl substances) from water. Puratech uses advanced materials with high adsorption capacity, engineered through a proprietary multi-step process that enhances performance. This innovative technology offers superior PFAS removal compared to traditional petroleum-derived ion exchange resins and granular activated carbon, thanks to its broader-spectrum removal capabilities and faster kinetics.

TAML® Catalysis

A technology developed by Sudoc, a company that aims to replace toxic chemicals with toxin-free chemical options for wastewater disposal treatments. Sudoc specializes in TAML (Tetramic Acid Metal-Ligand) molecules to make chemical reactions exponentially more powerful. TAML® catalysis is characterized by premier catalytic functions with self-decomposing mechanisms. It is most environmentally effective when used with hydrogen peroxide -- a chemical made up of hydrogen and oxygen used by our bodies to oxidize toxic compounds and chemicals.

Glucaric acid production through microbial fermentation

Kalion, Inc., and MIT have developed a microbial fermentation process for the production of glucaric acid. Using a novel biosynthetic pathway, Kalion converts myo-inositol to glucaric acid at nearly 100% yield. Conventional production of glucaric acid is harsh, toxic, and non-selective. Glucaric acid can potentially replace environmentally polluting chemicals, such as phosphate, as a biodegradable, non-toxic, and sugar-derived alternative. This fermentation process produces high-purity, low-cost glucaric acid.

PhosRox™

Biodegradable sorbent that captures nutrients in water. Phosphorus and nitrogen are nutrients in water that act as fertilizers for aquatic plants. Eutrophication occurs when there is an overabundance of these nutrients. Nutrient pollution occurs when eutrophication produces an excessive amount of algae. These algae disrupt ecosystems by lowering the amount of dissolved oxygen in water, reducing water quality, turning the water green, causing a foul smell, blocking sunlight, and harming animals and humans who consume it.

Forward Water Technologies; Forward Osmosis System

Three-step process for reverse osmosis that achieves high-rate water extraction within a low-energy continuous process. Water and salt separation is accomplished with a draw solution called Switchable Water Salt (SWS) and heat. This system extracts the greatest amount of water from the most challenging process streams while using the least amount of energy. Reduced greenhouse gases by up to 40% compared to conventional disposal methods. The process also reclaims up to 90% of the freshwater from the waste stream.

Zero Discharge System for Cooling Towers

Water treatment system designed to control corrosion, deposition, and biological fouling without "bleed-off." Significant reduction in water usage compared to conventional methods because this system does not require makeup water in cooling systems. Bleed-off is the process of flushing water with high mineral concentrations down the drain and diluting the system water mineral concentrations with fresh water to prevent precipitation. From current data in Philadelphia, treating 30,000 tons of cooling water with this system saved about 132 million gallons of water.

West Fork Biotreatment Project

Large-scale anaerobic biotreatment system. Asarco's biotreatment system consists of a settling basin and two anaerobic bioreactors discharged into a rock filter polishing cell that are followed by a final aeration polishing pond. Heavy metal pollution occurs when excavated rocks or exposed underground mines get into water. The West Fork Biotreatment plant does not require conventional chemicals often associated with sludge formation nor constant human monitoring and frequent sludge disposal.

NEXAR® Polymer Membrane Technology

Sulfonated polymer membrane technology for cheaper and less energy-intensive water desalination. This technology can withstand higher pressures, allowing for higher water flux and transport rates. These higher rates increase efficiency while lowering costs. The membrane's structure gives it ion selectivity, low electrical resistance, wet and dry mechanical strength, and good dimensional stability in wet and dry conditions. The membrane's resistance to chlorine also makes it a better option than conventional materials that lack chlorine resistance because it avoids the pretreatment process.

Baypure® CX: Biodegradable and Non-Toxic Chelating Agent

Biodegradable, non-toxic chelating agent. Chelating agents are used in detergents, agricultural nutrients, and household and industrial cleaners. Traditional chelating agents are not biodegradable and readily dissolve in water. This novel chelating agent is biodegradable and non-toxic. The process only requires water, maleic anhydride, sodium hydroxide, and ammonia.