Brandy Toft Air Quality Specialist Leech Lake Band of Ojibwe ITEP IAQ Course March 2013
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- Brandy Toft Air Quality Specialist Leech Lake Band of Ojibwe
ITEP IAQ Course March 2013
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- 2 Radon: odorless, colorless, toxic gas derived from decay of
uranium in soil Form of radiation that attacks lung tissue # 1
cause of lung cancer among non- smokers Estimated 21,000 deaths
year, rising Smoking increases your risk 4 times ! Elevated indoor
levels found in every state
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- 3 Caused by breakdown of Uranium in earths crust. Present in
almost all rock, soil, and water Amount of radon in soil depends on
soil chemistry, which varies greatly from one house to next Moves
up through ground into atmosphere, where it can potentially enter
your home through cracks/holes in foundation
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- 4 Radon Decay Products Lead-210 Polonium-214 Bismuth-214
Lead-214 Polonium-218 Radon-222 Lead-206 Polonium-210 Bismuth-210
22 yrs 4 day 3 min 27 min 20 min 0.2 ms 5 day 138 day Stable Po-218
and Po-214 Deliver majority of radiation dose to lungs
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- 5 1 in 15 homes in US are above 4 piC/L. ALL HOMES SHOULD BE
TESTED FOR RADON! Regardless of location, zone, home design or if
your neighbor tested. Are YOU at risk for lung cancer due to high
radon levels? TEST YOUR HOME!
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- 7 Potential Radon Entry Points
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- 8 Examples of Entry Points Cracks in concrete slabs Spaces
behind brick veneer walls that rest on uncapped hollow block
foundations Pores and cracks in concrete blocks Floor-wall joints
(cold joints) Exposed soil (eg., sump or crawl space)
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- 9 Examples of Entry Points (cont.) Weeping (drain) tile, if
drained to an open sump Mortar joints Loose fitting pipe
penetrations Open tops of block walls Building materials, such as
brick, concrete, rock Well water
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- 10 Radon decays into radioactive alpha particles; articles are
inhaled, deposited in lungs Causes physical damage to DNA,
increasing potential for cancer
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- 11 N o known safe level of radon 9 to 12% of lung cancers are
radon induced EPA recommends homes with radon levels over 4 pCi/L
be mitigated Not a health-based standard Based on mitigation
technology WHO health based action level 2.7 pCi/L
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- 12 Radiation is a carcinogen (cancer-causing agent) Most
cancers do not appear until many years after radiation dose (~10-40
years) Radiation may also cause other health effects links to
leukemia, stomach & liver cancer exposure during pregnancy
potential links Genetic defects in children Developmental
disabilities
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- 13 2 nd leading cause of lung cancer in US Estimated to cause
21,000 deaths annually* Second only to smoking Leading cause of
lung cancer for non-smokers 2,900 deaths annually * EPA Assessment
of Risks from Radon in Homes (June 2003, EPA -402-R-03 -0003)
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- 14 Adverse health effects of radon will increase as more people
Are exposed in tighter homes Population ages Medical-related
radiation exposure increases Prevention and mitigation methods
reduce risk
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- 15 Comparing Radon Related Cancer to Other Cancer Types 0 2000
4000 6000 8000 10000 12000 14000 16000 18000 20000 Annual U.S.
Cancer Deaths Lung Cancer (radon) Liver Cancer Brain Cancer Stomach
Cancer Melanoma Oral Cancer Gallbladder Cancer Bone Cancer Source:
Bill Field, 2005, UI Stigma of lung cancer
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- 16 Radon Compared to Other Risks
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- 17 Levels of radon in home - Dose Amount of time spent in home
- Duration Pre-Disposition Smoker Non-smoker Previous Smoker
Genetics
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- 18 Radon Level Non Smoker If 1,000 people who never smoked were
exposed to this level over a lifetime* The risk of cancer from
radon exposure compares to** What to Do: 20 pCi/L About 36 people
could get lung cancer - 35 times the risk of drowning Fix your home
10 pCi/L About 18 people could get lung cancer - 20 times the risk
of dying in a home fire Fix your home 8 pCi/L About 15 people could
get lung cancer - 4 times the risk of dying in a fall Fix your home
4 pCi/L About 7 people could get lung cancer - The risk of dying in
a car crash Fix your home 2 pCi/L About 4 people could get lung
cancer - The risk of dying from poison Consider fixing between 2
and 4 pCi/L 1.3 pCi/L About 2 people could get lung cancer (Average
indoor radon level) (Reducing radon levels below 2 pCi/L is
difficult) 0.4 pCi/L (Average outdoor radon level)
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- 19 Radon Level SMOKERS If 1,000 people who smoked were exposed
to this level over a lifetime* The risk of cancer from radon
exposure compares to** What to Do: 20 pCi/L About 260 people could
get lung cancer - 250 times the risk of drowning Fix your home 10
pCi/L About 150 people could get lung cancer - 200 times the risk
of dying in a home fire Fix your home 8 pCi/L About 120 people
could get lung cancer - 30 times the risk of dying in a fall Fix
your home 4 pCi/L About 52 people could get lung cancer - 5 times
the risk of dying in a car crash Fix your home 2 pCi/L About 32
people could get lung cancer - 5 times the risk of dying from
poison Consider fixing between 2 and 4 pCi/L 1.3 pCi/L About 20
people could get lung cancer (Average indoor radon level) (Reducing
radon levels below 2 pCi/L is difficult) 0.4 pCi/L (Average outdoor
radon level)
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- 20 Every home should be tested Testing is easy No special
skills required Only takes a couple of minutes Its inexpensive
especially compared to medical treatment
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- 21 Adverse health effects of radon will increase as more people
are Exposed in homes and work, Our population ages, and Increased
medical-related radiation exposure
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- 22 Located in medium to high zones of radon potential Started
short term testing in 2005 Handed out over 700 tests 0.4 to 44
pCi/L Crawl spaces (cement and dirt) Basements Need to educate and
test!
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- 25 Sealing cracks and other openings in foundation to limit
radon flow into home House pressurization involves blowing air from
upper floors or outside into lowest level of house (typically
basement) to prevent radon from entering house
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- 26 Natural ventilation reduces radon levels by mixing radon
with outside air Typically a temporary measure due to increased
heating/ cooling costs H eat-recovery ventilator (HRV or air-to-air
heat exchanger) can increase ventilation. Increases heating/cooling
costs, too, but not as much as natural ventilation
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- 27 For houses with basement or slab-on-grade Subslab suction
(or sub-slab depressurization) is most common method. Pipes
inserted through floor slab or below slab from outside house into
crushed rock or soil underneath Fan connected to pipes draws radon
from below house, released into outdoor air Drain tile suction can
be used in houses where perforated drain pipes installed to direct
water from foundation, but only when tiles form complete loop
around foundation
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- 28 Sump hole suction can be used in houses with basements and
sump pumps. Sump can be capped, can continue to drain water and
also serve as location for radon suction pipe Block wall suction
can be used to remove radon from hollow spaces in basement concrete
block walls For houses with crawl spaces Passive ventilation
(without fan), or active(with fan) Submembrane depressurization :
covering earth floor with heavy plastic sheet, using vent pipe and
fan to draw radon from under sheet
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- 29 Test, test, test.what does it lead to? Tons of funds to
identify problem Where is money to fix problem? Many dont have
funds to fix themselves Have to be very creative to get mitigation
$ How do we get it incorporated in with HUD? How do we get it
incorporated into Housing?
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- 30 Three main types Sub floor subduction Sump pump Radon
barrier Building capacity through training
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- 31 24 to 2.5 PiC/L
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- 38 New homes can be built to be radon-resistant 1. Minimize
radon entry routes 2. Allow for easier remediation of problems that
may occur later 3. Costs less if installed during construction
(estimated $350 $500 to cost of new home compared to $800 $2,500 to
retrofit existing home)
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- 39 Three categories Sealing entry routes : basic element in
radon mitigation Similar to controlling moisture and for energy
conservation. Vapor barriers, caulks, foams can seal radon entry
routes in foundation and floor areas. Soil ventilation systems:
soil depressurization or sub-slab depressurization systems. Create
suction on soil so radon is removed as soil gas before entering
house. Some of these systems use fans (active systems) and some do
not (passive systems)
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- 40 Mechanical house ventilation systems Designed to provide
extra outside air dilution or to maintain higher pressure inside
building relative to outside, preventing radon from entering
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- 41 Basic elements of radon- resistant features A. Gas Permeable
Layer Layer placed beneath slab or flooring system to allow soil
gas to move freely underneath house. In many cases, material used
is 4-inch layer of clean gravel B. Plastic Sheeting - Placed on top
of gas- permeable layer and under slab to help prevent soil gas
from entering home. In crawlspaces, sheeting placed over crawlspace
floor C. Sealing and Caulking - All openings in concrete foundation
floor sealed to reduce soil gas entry D. Vent Pipe - 3- or 4-inch
gas-tight or PVC pipe (commonly used for plumbing) runs from
gas-permeable layer through house to roof to safely vent radon and
other soil gases E. Junction Box Electrical junction box installed
in case electric venting fan is needed later
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- 43 Radon Barrier Membrane Sump Pump drain tile Sub floor
subductions active and passive systems RRNC
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- 44 A Lung Cancer Victim Speaks Dennie Edwards, Elyria, OH,
www.cansar.org www.cansar.org In 2004, I had a very bad cold, so my
doctor performed a chest x-ray to check for pneumonia. I've never
smoked, so you can imagine how shocked I was that he found a 4.5
centimeter mass in my left lung. Even though I've been a real
estate agent for 31 years, I had never bothered to test my house
for radon. I always informed my clients that radon testing prior to
purchase was an option (to protect my liability), but truthfully, I
really didn't care if they tested or not. Now I had to wonder
whether my lung cancer had been caused by radon exposure. While the
doctor scheduled my surgery, I scheduled a radon test. The result
was 10 pCi/l, (2 times the EPA's Action Level). I had lived in the
home for 12 years. Needless to say, I called a contractor to have a
mitigation system installed. Two days later I had surgery. I
thought I was surely going to die. When I woke up choking with
tubes in my throat, panic set in. They had removed my entire left
lung. I'm getting better. I can walk up to a mile. But, I can no
longer dance, lift things, or exert myself. My clients now get a
very personal testimonial about the importance of testing for
radon."
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- Air Quality Specialist Leech Lake Band of Ojibwe air@lldrm.org
218.335.7429