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This is a typical radon system as viewed from the exterior of the home. The fan and exhaust piping can be painted to match the siding on the home for aesthetics.
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This is a radon reduction system connected to the perimeter drain piping on the exterior of the foundation. The radon system pulls the radon from beneath the home via the perimeter drain piping and exhausts the radon gases safely above the roof line.
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These photos show a typical Sub Slab Depressurization (SSD) system installed on a home. The piping is connected to a hole drilled in the slab and routed to the exterior of the home where an inline turbo fan is installed. The exhaust piping is then run to the roof line to safely exhaust radon gases away from the home.
Any exposed cracks or openings in the basement slab are sealed to improved system performance. On a low voltage system as pictured above, the power converter/system indicator is plugged into an existing outlet inside the home. The system indicator enables the home owner to monitor the operation of the radon system. |
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Another radon system installed and painted to match the color of the exterior finishes on the home. |
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System with a fan cover installed, painted to blend with siding
and exhausted safely above roof line |
Sub Membrane Depressurization— Another
example of an SMD system installed in crawl space. Note the clean
look and improved moisture control reducing moisture related
health hazards such as mold. |
Sub Membrane Depressurization—Soil in
crawl space is covered with a durable cross-laminated membrane
and sealed around foundation, footings, etc. Piping is routed to
exterior where a fan is attached.
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A system operation/failure indicator is installed
as required by EPA Mitigation Standards. Integral circuit breaker
and power disconnect.
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| System is connected to an existing sump pit
in
basement.
(Sump Depressurization) |
