Gradiant has been advancing a system of forever leading to PFAS destruction with demands that drive new deployments and regulatory pressures around the world.
Polyfluoroalkyl substances (PFAs), often referred to as “eternal chemicals,” are a large group of synthetic compounds used to resist heat, water and oil.
They can be found in products ranging from firefighter bubbles to non-stick cooking utensils. The problem is that PFA does not easily break down in the environment, leading to long-term contamination of soil and water.
In relation to health risks such as cancer, immune disorders and hormone destruction, PFA has become a global focus for regulators and industries seeking effective removal techniques.
Destroy PFA with source
Water treatment company Gradiant reveals the great advancements in the eternally misled PFAS destruction platform, positioning it as one of the most sophisticated solutions for industrial wastewater treatment.
Unlike traditional “capture and disposal” methods such as granular activated carbon (GAC) and ion exchange resins (IX), ForeverGone is designed to completely eliminate PFA on-site.
The system combines microfoam fractionation and electrooxidation to provide a removal rate of 99-99.9%, including short-chain PFAs that other methods struggle to handle.
By destroying PFA with sources, the industry can eliminate the need for the transport and disposal of contaminated materials, reducing both environmental risks and long-term liability.
Broken cost barrier
One of ForeverGone’s most important achievements is its affordability. Operating costs average only $0.10-0.20 per cubic meter, well below the $0.50-2.00 associated with GAC or IX treatments.
Because energy consumption is approximately 0.5 kWh per cubic meter, the system sets up a new cost benchmark for PFAS destruction while maintaining efficiency and scalability.
Deployment at Munich International Airport
A well-known example of Forevergone’s application is at Munich International Airport, where Gradiant deployed the system to deal with contamination from fire forms, including membrane adjustment forms (AFFF).
Airport installations demonstrate the platform’s adaptability in tackling complex PFA contamination, especially at legacy sites where traditional solutions are lacking.
Compact, Mobile, Scalable
After four years of development, Gradiant designed the electrooxidation unit of the destruction engine to be 100 times smaller than the original prototype.
Today’s units account for just 2% of their original volume, making them compact and mobile. This versatility allows for both permanent installation and rapid temporary deployment at restoration sites.
Increased demand driven by regulations
Thirder regulations around the world are driving demand for PFAS disruption technologies.
Taiwan imposes a low semiconductor discharge limit of 1.2 ppb, South Korea tightens its monitoring of industrial releases, and China implements stricter standards for drinking water.
Europe has already implemented aggressive PFA restrictions, but the US is expected to accelerate adoption in the future EPA guidance.
Beyond PFA: Working on TFA
Graduates are also investigating applications beyond PFA, including the treatment of trifluoroacetic acid (TFA), a chemical by-product of pharmaceutical manufacturing.
The EU’s potential restrictions on TFA, expected in 2026, allowed Forever to expand into a wider market for chemical disruption technology.
Anurag Bajpayee, co-founder and CEO of Gradiant, concluded:
“Although European and Asian regulations are accelerating adoption, US industries are preparing for the inevitable. Being blessed forever gives customers the confidence to meet today’s standards and tomorrow.
Source link
