An Assessment of Risk from Particulate Released from Outdoor Wood Boilers |
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Authors: | David R Brown Barbara G Callahan Andrea L Boissevain |
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Institution: | 1. Health Risk Consultants Inc. , Fairfield, CT, USA;2. University Research Engineers &3. Assoc. , Grantham, NH, USA |
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Abstract: | Use of outdoor wood boilers (OWB) has increased due to cost of fossil fuels. OWB short stacks release particles close to the breathing level, producing high levels of particulate matter ≤2.5 μm in diameter (PM2.5). This assessment determines OWB contribution to local cancer risk and estimates thresholds for acute non-cancer risks. Carcinogenic PAHs in wood smoke (PM2.5) cancer risks range from 2.7 × 10–3 for the upper bound scenario (95% UCL value of PM2.5 (665 μg/m3)) to 7.6 × 10–5 for the lower bound (mean (186 μg/m3)). These risks represent a 7-fold increase of acceptable cancer risk for the lower bound value and 2 orders of magnitude above acceptable levels for the upper bound values. Non-cancer effects such as asthma and cardiopathies include respiratory attacks, hospital emergency room visits, and hospitalizations. Inhaled dose acute risk thresholds of 96, 120, and 250 μg PM 2.5/6 hours are proposed. Operation of an OWB that emits 100 grams PM2.5/h was modeled and found to increase the exposures that exceed the 120-μg-risk level at and in residences within 500 to 1000 feet. The increases are projected to occur during periods of poor air mixing due to decreased wind speeds or inversions. Our analysis proposes a 6-h PM2.5 inhaled dose threshold to predict peak periods of unhealthy air quality instead of 24-h and annual averages standards, which mask peak emissions. |
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Keywords: | wood boilers particulate respiratory disease risk assessment air quality index |
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