World Wide Clean Water Systems News
World Wide Clean Water Systems News
World Wide Clean Water Systems Achieves Non-Detect PFAS Results in Ultra-High Contamination Wastewater Using EPA-Validated Testing
Advanced Multi-Stage Filtration Platform Demonstrates Greater Than 99.999% PFAS Removal Efficiency in Frac-Tank Wastewater While Addressing Broader Emerging Contaminants
SARASOTA, Florida – [May 12, 2026] — World Wide Clean Water Systems LLC (“WWCWS”), a 360 Impact Partners company, announced today that independent laboratory testing performed under EPA Method 1633 confirmed the company’s advanced multi-stage filtration platform successfully reduced PFAS concentrations from approximately 546,910–570,000 parts per trillion (ppt) in highly contaminated frac-tank wastewater to Non-Detect (“ND”) levels.
The testing was conducted by Pace Analytical using EPA Method 1633A, the federal gold standard analytical method for PFAS detection and quantification at ultra-low parts-per-trillion concentrations. Across all analyzed wastewater samples, the Pace results reported non-detects for every PFAS analyte tested, including short-chain PFAS, long-chain PFAS, precursor compounds, ether PFAS, GenX, ADONA, fluorotelomer compounds, and legacy compounds such as PFOA and PFOS.
“This represents an extraordinary validation of our treatment platform under one of the most difficult industrial wastewater conditions encountered in the PFAS-remediation sector,” said Kirk Ladner of WWCWS. “Many treatment technologies perform under relatively clean source-water conditions or modest contaminant levels. Our system demonstrated non-detect PFAS performance in ultra-high-strength industrial wastewater under EPA-validated analytical protocols.”
The associated analytical Quality Control (“QC”) data confirmed the scientific defensibility and reliability of the results. Pace Analytical’s QC performance included method blanks reporting no PFAS contamination, acceptable surrogate recoveries, strong Laboratory Control Sample recoveries, and ultra-trace sensitivity at ppt detection levels. The results confirm that the observed PFAS reductions are real, accurate, and suitable for regulatory, engineering, municipal, industrial, and federal evaluation purposes.
The WWCWS platform was engineered specifically for complex industrial and municipal water matrices where conventional treatment systems often encounter operational limitations associated with:
- ultra-high contaminant loading,
- short-chain PFAS mobility,
- changing influent chemistry,
- disposal burdens,
- media exhaustion,
- and operational downtime.
Unlike many conventional single-media approaches, WWCWS utilizes a multi-stage treatment architecture designed for real-world deployment scenarios involving produced water, frac wastewater, industrial process wastewater, cooling-tower blowdown, source-water polishing, landfill-leachate treatment, municipal treatment systems, and emergency-response remediation applications.
Beyond PFAS remediation, WWCWS’s broader advanced water-treatment platform is designed to address multiple classes of contaminants increasingly concerning regulators, municipalities, utilities, industrial operators, and public-health stakeholders nationwide. These include:
- pharmaceuticals and pharmaceutical residues,
- microplastics,
- pesticides and agricultural runoff contaminants,
- chloramine and chlorinated byproducts,
- heavy metals,
- volatile organic compounds (VOCs),
- bacteria and microbiological contaminants,
- and other emerging contaminants affecting drinking water, wastewater, industrial
process streams, and environmental infrastructure.
WWCWS believes the significance of the technology extends beyond contaminant reduction alone and addresses a growing national need for deployable, scalable treatment systems capable of operating effectively under real-world industrial conditions. As EPA and state agencies continue confronting expanding PFAS remediation obligations, industrial discharge regulation, drinking-water standards, landfill-leachate management, produced-water treatment, cooling-water reuse, and emerging contaminant concerns, WWCWS believes its platform is uniquely positioned for practical implementation across municipal, industrial, federal, and infrastructure-scale applications.
Potential applications for the WWCWS platform include:
- municipal drinking water and wastewater systems,
- industrial process-water treatment,
- Department of Defense and federal remediation projects,
- data-center cooling-water treatment and reuse systems,
- landfill-leachate treatment,
- produced-water remediation,
- emergency-response deployment,
- and decentralized utility infrastructure.
WWCWS is actively pursuing opportunities for pilot demonstrations, technical evaluations, municipal and industrial partnerships, engineering collaboration, and infrastructure-scale deployment initiatives.
About World Wide Clean Water Systems LLC
World Wide Clean Water Systems LLC (“WWCWS”), a 360 Impact Partners company, develops advanced multi-stage water treatment technologies engineered to address PFAS contamination and broader emerging-contaminant challenges affecting municipal, industrial, commercial, and environmental water systems. The company’s treatment platforms are designed for scalable deployment across drinking-water treatment, wastewater remediation, industrial discharge management, produced-water treatment, cooling-water reuse, and environmental infrastructure applications.
Media Contact:
Kirk Ladner
World Wide Clean Water Systems LLC
Email: kirk@wwcws.com
Phone: 228-323-2545