Transforming contaminated sites into viable assets with innovative molecular stabilization technology
Our TegraTuff™ and GARD™ systems deliver superior performance with EPA-validated results and long-term stability.
On-site remediation eliminates expensive dig-and-haul operations, reducing costs by up to 70% compared to traditional methods.
Complete site remediation in weeks, not years. Minimize downtime and accelerate project timelines.
Full CERCLA compliance with comprehensive documentation and third-party validation.
Industry-leading solutions for complex environmental challenges
Advanced molecular stabilization technology that permanently binds contaminants at the molecular level. Superior to traditional encapsulation methods.
Granular Aggregate Remediation and Deployment system for large-scale soil and groundwater treatment applications.
Low-Temperature Encapsulation Matrix for radioactive and hazardous material containment, providing permanent stabilization without heat-induced degradation.
Manufacturing facilities, refineries, chemical plants
Contaminated land redevelopment and reuse
Drilling sites, storage facilities, pipelines
Aquifer remediation and protection
Landfills, waste storage, contaminated soil
Former industrial sites, dry cleaners, gas stations
Our team of experts is ready to help you develop a cost-effective remediation strategy.
Answers for soil remediation, groundwater/PFAS, and in-situ treatment projects across the US and Canada.
We remediate heavy metals, PFAS, petroleum hydrocarbons, chlorinated solvents, and mixed wastes using molecular stabilization and in-situ treatment approaches.
Yes. We specialize in in-situ treatment for soils and groundwater using TegraTuff™ and GARD™ systems to minimize excavation and keep projects on schedule.
Typical mobilization is 2–4 weeks after site data is received. We prioritize rapid feasibility review to align with regulatory timelines.
We support projects throughout the United States and Canada, with experience in industrial sites, brownfields, refineries, and transportation corridors.
Yes. Our in-situ and stabilization methods address PFAS-impacted media and groundwater, paired with LTEM™ monitoring for performance tracking.
We interface with federal, state, provincial, and local regulators, providing CERCLA-compliant documentation, sampling plans, and closure packages.
On-site treatment reduces haul/ disposal costs and compresses schedules. We provide upfront cost modeling and value engineering recommendations.
Molecular stabilization permanently bonds contaminants at the chemical level, while encapsulation traps them in a matrix that can degrade over time. Molecular stabilization provides long-term stability and lower leachability.
Timelines vary by site conditions and regulatory requirements, but many projects move from assessment to implementation within weeks, with monitoring tailored to the site.
We apply in-situ treatment and stabilization strategies designed for PFAS-impacted soils and groundwater, supported by monitoring and performance verification.
TCLP (Toxicity Characteristic Leaching Procedure) testing evaluates whether contaminants can leach from treated materials and is a key regulatory benchmark for remediation performance.
We serve industrial facilities, refineries, utilities, government and defense sites, waste management operations, and brownfield redevelopment projects across the US and Canada.