From precise installation to comprehensive quality control, we deliver specialized VIMS that safeguard your site. Our liquid-applied expertise ensures seamless coverage across any subgrade or site condition.
At Midwest Barrier Solutions, we specialize in installing methane mitigation systems for new construction and redevelopment projects across Michigan. Our team implements passive and active methane control strategies to help protect buildings from subsurface gas hazards safely and fully comply with state and federal regulations. Whether you’re building on a capped landfill, former industrial site, or brownfield redevelopment zone, our Michigan-based crews are equipped to deliver timely, code-compliant solutions that reduce methane risks and support long-term site safety.
Every methane mitigation system we install is designed around the unique characteristics of your site, from methane concentration levels to soil permeability and planned structure type. Our Michigan installation team brings years of experience and precision to every build.
We work closely with Michigan developers, engineers, and environmental consultants to ensure all systems are designed for performance, permitting, and seamless coordination with your construction timeline.
Durable, spray-applied membranes that form a seamless barrier against chemical vapors and volatile organic compounds (VOCs), protecting the building envelope from subsurface contamination.
Subsurface ventilation layers and piping networks are designed to manage vapor flow beneath the slab, supporting long-term mitigation effectiveness and system balance.
Custom radon mitigation strategies are engineered to reduce radon levels in commercial buildings, ensuring regulatory compliance and occupant safety.
Searching for a methane mitigation contractor in Michigan with the technical experience to do the job right? Contact us today to speak with a system design expert. Get a fast, competitive quote and protect your Michigan project with reliable, code-compliant methane mitigation.
