The Mesothelioma Center recently sent us Your Guide to Hiring an Asbestos Abatement Company, and we wanted Asbestos Abatement Guide as a free resource. Enjoy!
Asbestos.com also has more information and resources for those dealing with the harmful, home-hidden substance.
In association with InterNACHI and the North Carolina Home Inspector Licensure Board, Britt recently became an approved continuing education and prelicensure instructor.
If you are an inspector in need of training or a future inspector in need of licensure, contact us for details.
Thumbtack recently honored us as a “Top Pro 2018” for Cary, NC.
Check out our ratings on reviews at Thumbtack.
with at least one peculiarity:
We hope this video helps:
Did you know we have a testimonials page? It’s like this picture, but with words.
Check it out here.
You’ve heard the horror stories: “Radon causes lung cancer.” Or, to be more precise, “Radon is linked with lung cancer.” It’s scary; so what can you do?
One easy step is to understand how radon enters homes. There are four ways:
- Designed openings in floors and walls: Windows and doors allow air into living spaces by design.
- Permeable flooring and wall materials: Materials such as concrete, brick, wood, vinyl, and tile are not airtight.
- Structural cracks: Defects in home appear over time, and settling cracks are common.
- Gaps in designed penetrations: Improperly sealed pipes, pits, and drains allow air into the living space.
You can deal with #3-4 with repairs, but #1-2 require a radon mitigation system in place.
Soils and underground rocks release a radioactive gas called radon, and this radon gas accumulates in indoor structures at various levels. Various studies have linked radon gas exposure with lung cancer and various lung diseases.
Recently we’ve received a few questions regarding our radon testing standards. Referencing the Environmental Protection Agency (EPA) in the United States and the World Health Organization (WHO) in Switzerland and across the globe, one key difference emerges: recommended levels for remediation.
- EPA = 4.0 picoCuries per liter (pCi/L)
- WHO = 2.7 pCi/L (also noted as 100 becquerels per cubic meter)
When a testing organization like ours chooses to use the lower WHO standard, this can cause disagreement in local markets where the EPA standard is considered the norm.
Our reasoning for following WHO is threefold:
- The WHO is a more broadly researched and well-studied organization, drawing from over 7000 people working in 150 country offices.
- The stricter standard level (2.7 pCi/L) for remediation protects clients more than a more permissible standard level (4.0 pCi/L).
- The marginal benefit of relying on a the tighter standard is higher for the client. In essence, if we say a testing level of 2.9 pCi/L requires remediation, but another party disagrees, nothing is lost to our client.
For further research, consult the links above.
Radon is a colorless, odorless, and tasteless gas that can be harmful if accumulated inside a building. There are two main ways of mitigating this problem, the passive and the active. In the passive method, a physical barrier is laid between the soil and the foundation and a vent pipe extending from the sub-slab up to the roof.
In active form, there is a setup of electric vent fan, vent pipe extending from sub slab to roof, sealed cracks in the foundation, and a system failure warning device. For detailed information about radon gas and its preventive methods go through this infographic from PropertEco.