Calgon Carbon Releases Second Peer-Reviewed Study Confirming PFAS Removal and Destruction with Custom Municipal Reactivation
MWN-AI** Summary
Calgon Carbon Corporation, a subsidiary of Kuraray Co., Ltd., has published a second peer-reviewed study that confirms the efficacy of its custom municipal reactivation process in removing per- and polyfluoroalkyl substances (PFAS) from spent drinking water carbon. Titled "Destruction of PFAS During Thermal Reactivation of Granular Activated Carbon Used in Potable Water Treatment," the study, featured in the Remediation Journal, demonstrates an impressive destruction removal efficiency of over 99.9%, confirming that all tested PFAS compounds were reduced to below detectable levels.
The study utilized rigorous EPA testing methods and revealed that no products of incomplete combustion (PICs) or reformulated PFAS were detected during the reactivation process. This finding reinforces the results of Calgon Carbon's earlier 2022 study, which focused on industrial reactivation, but it also enhances the scientific understanding of the reactivation process through advanced analytical techniques.
Calgon Carbon's proprietary technology stands out as it not only treats PFAS but also allows for the recycling of activated carbon, thus supporting sustainability efforts and reducing greenhouse gas emissions. By converting spent carbon into reusable material, municipalities can effectively manage PFAS disposal without adding to landfill waste.
As municipalities prepare to meet new EPA standards for PFAS in drinking water, the findings from this research provide independent validation of Calgon Carbon's solutions. Steve Schott, President and CEO, emphasized the company's commitment to tackling PFAS pollution and providing reliable, science-backed treatment solutions.
This peer-reviewed study marks a significant milestone in Calgon Carbon’s ongoing efforts to combat the challenges posed by "forever chemicals" in water treatment applications, solidifying its position as a leader in water treatment innovation.
MWN-AI** Analysis
Calgon Carbon Corporation's recent peer-reviewed study confirming the efficacy of its reactivation process in removing PFAS (per- and polyfluoroalkyl substances) from drinking water presents significant implications for both investors and the broader water treatment market. With evidence of over 99.9% PFAS destruction efficiency through their proprietary technology, Calgon Carbon is poised to differentiate itself within a squarely competitive industry. This peer-reviewed validation strengthens their positioning as a solution provider capable of navigating the growing regulatory landscape associated with "forever chemicals."
Municipalities nationwide are under increasing pressure to comply with new EPA regulations, creating a heightened demand for effective water treatment solutions. Calgon Carbon's method not only destroys these harmful substances to below detectable levels but also offers a sustainable pathway for recycling spent activated carbon, thereby reducing CO2 emissions associated with virgin carbon production. This dual benefit—environmental compliance and cost-effective operation—positions Calgon as a leader in a high-stakes market where solutions are urgently needed.
For investors, this news suggests a bullish outlook on Calgon Carbon’s stock, particularly as those in the public sector seek out verified technologies to meet compliance mandates. The presence of a solid technological backbone supported by peer-reviewed studies can be a strong selling point for utilities and industrial users considering long-term contracts with Calgon.
Moreover, as awareness and actions against PFAS contamination ramp up, companies with proven technologies are likely to see increased market share. Thus, considering the current trajectory of environmental regulatory frameworks and the urgency for solutions, maintaining or adding Calgon Carbon to a diversified portfolio could yield positive returns in the long term, while supporting sustainability initiatives critical to modern water treatment efforts.
**MWN-AI Summary and Analysis is based on asking OpenAI to summarize and analyze this news release.
PR Newswire
Highlights:
>99.9% PFAS Destruction Removal Efficiency. Achieved during full-scale thermal reactivation of spent drinking water carbon under Calgon Carbon's typical operating conditions using OTM-45's conservative calculation methodology.
Removes PFAS from the Spent Carbon to Non-Detect Levels. The study confirms all tested PFAS compounds were removed to below detectable levels from the spent carbon through Calgon Carbon's proprietary custom municipal reactivation process.
No Products of Incomplete Combustion (PICs) or Reformed PFAS Detected. State-of-the-art EPA test methods (OTM-50, and EPA Method 0010/8720 for fluorinated PIC's analysis) found no detectable PFAS PIC byproducts or reformed PFAS emissions throughout the reactivation process.
Results Mirror Prior White Paper. New findings reinforce those of Calgon Carbon's first peer-reviewed PFAS study in 2022 for industrial reactivation while improving upon the scientific understanding of reactivation using state-of the art analytical methodology.
Establishes a Clear Differentiator for Addressing "Forever Chemicals." Unlike other approaches that simply transfer PFAS into another waste stream for disposal or incineration, Calgon Carbon's reactivation technology provides an economical, verified pathway to recycle activated carbon for continued use.
PITTSBURGH , Oct. 2, 2025 /PRNewswire/ -- Calgon Carbon Corporation ("Calgon Carbon"), a wholly owned subsidiary of Kuraray Co., Ltd. (TYO: 3405), announced the publication of its second peer-reviewed white paper on the reactivation of PFAS laden spent carbon, titled "Destruction of PFAS During Thermal Reactivation of Granular Activated Carbon Used in Potable Water Treatment," in the Remediation Journal. Building on our prior peer-reviewed work, this study not only reaffirms the proven performance of reactivation but uniquely validates the effectiveness of Calgon Carbon's proprietary full-scale drinking water reactivation process, commonly referred to as custom municipal reactivation. Through high-temperature reactivation, municipalities and industrial users can recycle spent activated carbon while removing the PFAS contaminants below detectable limits from the carbon with a destruction removal efficiency of > 99.9%. Unlike other PFAS treatment approaches, reactivation returns carbon to service, expands supply availability, and lowers CO? emissions compared to virgin activated carbon production, a solution that reduces waste and supports sustainability goals.
"This publication once again highlights Calgon Carbon's leadership in water treatment innovation and our unwavering commitment to combatting PFAS pollution," said Steve Schott , President and CEO of Calgon Carbon Corporation. "By investing in research and validating our solutions through peer-reviewed science, we continue to deliver the confidence our customers and communities need to tackle these contaminants head-on."
The study's findings come at a pivotal moment as municipalities nationwide are testing for PFAS and preparing treatment plans to meet the U.S. EPA's new Maximum Contaminant Levels (MCLs). These results provide utilities with independent validation that reactivation is a proven, scalable path forward at a time when compliance is both urgent and unavoidable.
"The data detailed in our article effectively demonstrated the removal of PFAS compounds from granular activated carbon (GAC) and greater than 99.9% destruction removal efficiency for PFAS compounds through the furnace and off-gas abatement system. Expanding on the results from the prior publication, the study yielded non-detect results for products of incomplete combustion and reformed PFAS using state-of-the-art test methods. Importantly, this study addresses the U.S. EPA's desire for additional data around the potential formation of these byproducts during reactivation," said Dr. Elisa Mayerberger, lead author of the Remediation article and Applications Engineer at Calgon Carbon.
GAC is the most widely used and well-established technology for the treatment and removal of PFAS contaminants from drinking water and wastewater. Calgon Carbon's FILTRASORB ® GAC, sourced from bituminous coal, has demonstrated superior PFAS-removal capabilities compared to other carbons for over two decades. Thermally treating GAC at the end of its initial service life — known as spent carbon — is called reactivation, a process that desorbs and destroys adsorbed contaminants at extremely high temperatures and restores the GAC to a near-virgin state so it can be reused for multiple cycles with the same results.
In the first stage of Calgon Carbon's proprietary reactivation process, PFAS-laden GAC is heated in a furnace for several hours at high temperatures, imparting enough energy to break down PFAS's carbon-fluoride bonds, the strongest in chemistry.
The off gas from the reactivation furnace then moves into an abatement system, which features a thermal oxidizer/afterburner designed to destroy any organics that were not destroyed in the furnace. From there, it proceeds through a scrubber to neutralize any acid gases, such as hydrogen fluoride, and removes them from the abatement air. Finally, it passes through a baghouse to eliminate particulate matter.
The result is a closed-loop, cost-effective solution that not only addresses a public health problem but also eliminates long-term PFAS waste from entering landfills. Calgon Carbon currently operates the world's largest network of GAC reactivation facilities, including six reactivation plants across the U.S., with additional facilities in Europe and Asia . This global infrastructure ensures that our customers can manage PFAS-laden carbon in a way that significantly reduces landfill usage and generates less greenhouse gas emissions as compared to virgin activated carbon replacement.
"PFAS are often called 'forever chemicals,' but our superior performing FILTRASORB products effectively remove these PFAS compounds from water to non-detectable levels and, when coupled with our advanced reactivation process, destroy them to near non-detect levels," said Jenalle Brewer , Drinking Water Solutions, Innovative Carbon Technologies and Global Strategy & Communications. "For more than two decades, Calgon Carbon has been at the forefront of PFAS remediation, and this second peer-reviewed study provides further validation of our technical leadership. We will continue to invest in our people, products, and services to help municipalities in their mission to treat drinking water with effective, science-based solutions."
The new white paper "Treatment of PFAS During Thermal Reactivation of GAC Used in Potable Water Treatment" is published in the Fall 2025 issue of Remediation Journal and is available via open access. Water treatment professionals and stakeholders are encouraged to review these findings to better understand how Calgon Carbon's technology is effectively removing PFAS to non-detectable levels and enabling the effective recycling of reactivated carbon in drinking water treatment.
To learn more about Calgon Carbon's study and the FILTRASORB product, visit NoMorePFAS.com .
About Calgon Carbon
Calgon Carbon, a wholly-owned subsidiary of Kuraray Co., Ltd. (TYO: 3405) (Kuraray), is a global leader in the manufacture and/or distribution of innovative coal-, wood- and coconut-based activated carbon products — in granular, powdered, pelletized, cloth, and sheet form — to meet the most challenging purification demands of customers throughout the world. Calgon Carbon provides purification solutions for more than 700 distinct applications, including drinking water, wastewater, pollution abatement, and a variety of industrial and commercial manufacturing processes. Headquartered in Pittsburgh, Pennsylvania , Calgon Carbon employs approximately 1,750 people and operates 20 manufacturing, reactivation, innovation and equipment fabrication facilities in the U.S., Asia , and in Europe , where Calgon Carbon is known as Chemviron. Calgon Carbon was acquired by Kuraray in March of 2018. With complementary products and services, the combined organization will continue to focus on providing the highest quality and most innovative activated carbon and filtration media products, equipment, and services to meet customer needs anywhere in the world. Visit CalgonCarbon.com .
SOURCE Calgon Carbon
FAQ**
How does Calgon Carbon's proprietary reactivation process for PFAS removal compare to traditional methods, and what role does Kuraray Co Ltd ADR KURRY play in supporting this technology?
What implications do the findings of Calgon Carbon's peer-reviewed study have for municipalities across the U.S. in light of new EPA Maximum Contaminant Levels, particularly for investors interested in Kuraray Co Ltd ADR KURRY?
In what ways does Calgon Carbon’s custom municipal reactivation process establish a competitive advantage in the market for PFAS treatment, especially for stakeholders considering investment in Kuraray Co Ltd ADR KURRY?
How does the effective recycling of spent activated carbon through Calgon Carbon’s process align with sustainability goals in the water treatment sector, and how might this impact Kuraray Co Ltd ADR KURRY's business strategy?
**MWN-AI FAQ is based on asking OpenAI questions about Kuraray Co Ltd ADR (OTC: KURRY).
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