To address a Soil Gas Mitigation potential hazard caused by combustible , the underlying infrastructure must be designed to prevent and contain its release. However, there are challenges to designing an effective soil gas mitigation system. These include potential damage to the elements of the system, breaches in the mitigation system, and ineffective controls.
How important is a Radon mitigation?
To ensure compliance with the regulation, the City may require inspections and reviews of the mitigation elements. These inspections may require modifications to testing or monitoring methods. The Soil-Gas Monitoring Plan must be submitted to the City for approval before new construction can begin. However, the City may also require that the mitigation elements be monitored and tested by third parties.
Fortunately, there are many ways to mitigate the risk of soil gas. For example, most buildings exert a negative pressure on the soil. This pressure is caused by the natural stack effect or by exhaust devices. This effect is similar to the stack effect in chimneys. The replacement air is drawn in at the bottom of the building, where it pulls in the soil gas. The pressure can be controlled by using a radon mitigation system.
If you’re interested in implementing a soil gas mitigation system, you’ll need a professional engineer to oversee the process. The engineer should be a licensed professional with five or more years of experience in the field of soil gas mitigation. They should also be fully insured for general liability and professional errors and omissions insurance.