2016
DOI: 10.1016/j.envint.2016.06.005
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Assessing concentrations and health impacts of air quality management strategies: Framework for Rapid Emissions Scenario and Health impact ESTimation (FRESH-EST)

Abstract: In air quality management, reducing emissions from pollutant sources often forms the primary response to attaining air quality standards and guidelines. Despite the broad success of air quality management in the US, challenges remain. As examples: allocating emissions reductions among multiple sources is complex and can require many rounds of negotiation; health impacts associated with emissions, the ultimate driver for the standards, are not explicitly assessed; and long dispersion model run-times, which resu… Show more

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Cited by 11 publications
(7 citation statements)
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“…This study presents only the mean, i.e., expected, health impacts. Other sources of uncertainty include: the appropriateness and generalizability of the CR coefficient; whether the form of the HIF is appropriate; whether the exposure-outcome relationships are reasonable; the downscaling of census block group and ZIP code level demographic and baseline health rate data to the census block scale; the disability weights and duration variables used in the calculation of DALYs; uncertainties in the modeled estimates of ambient pollutant concentrations; and, potential double-counting of impacts when estimating attributable burdens from multiple pollutants [ 46 , 82 , 96 , 97 , 98 , 99 ]. Despite these and other uncertainties, the use of HIAs and inequality metrics offers decision-makers an objective approach to indicate the nature, magnitude, and distribution of health impacts.…”
Section: Discussionmentioning
confidence: 99%
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“…This study presents only the mean, i.e., expected, health impacts. Other sources of uncertainty include: the appropriateness and generalizability of the CR coefficient; whether the form of the HIF is appropriate; whether the exposure-outcome relationships are reasonable; the downscaling of census block group and ZIP code level demographic and baseline health rate data to the census block scale; the disability weights and duration variables used in the calculation of DALYs; uncertainties in the modeled estimates of ambient pollutant concentrations; and, potential double-counting of impacts when estimating attributable burdens from multiple pollutants [ 46 , 82 , 96 , 97 , 98 , 99 ]. Despite these and other uncertainties, the use of HIAs and inequality metrics offers decision-makers an objective approach to indicate the nature, magnitude, and distribution of health impacts.…”
Section: Discussionmentioning
confidence: 99%
“…The five-year average emission rate is used except for a few facilities that experienced large and known changes; these cases used the most recent years. Block-level concentrations of PM 2.5 , SO 2 , and NO x from point sources are estimated using the software package Framework for Rapid Emissions Scenario and Health impact Estimation (FRESH-EST) [ 46 ], which uses a pre-computed source-receptor transfer coefficient matrix from the AERMOD dispersion model [ 47 ], local meteorology, and an adaptive receptor grid (200 m spacing near major sources, and 1 km spacing elsewhere). For major sources (>100 tons year −1 ), emissions are modeled at the stack level; other sources are modeled at the facility-level using representative stack parameters.…”
Section: Methodsmentioning
confidence: 99%
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“…Population-level exposures are estimated using the Framework for Rapid Emissions Scenario and Health impact Estimation (FRESH-EST), a software package that allows rapid assessment of exposures and health impacts due to point source emissions for a given areal unit, e.g., census blocks (Milando et al, 2016). Briefly, ambient SO 2 concentrations attributable to point source emissions are estimated at a set of discrete locations (“receptors”) using a source-receptor or “transfer coefficient” matrix developed using the AERMOD dispersion model (Cimorelli et al, 2005), local meteorology, and an adaptive receptor grid (200 m spacing near major sources, and 1 km spacing elsewhere).…”
Section: Methodsmentioning
confidence: 99%
“…The first group is the traditional method in which pollution data are collected from fixed-site outdoor monitors and assigned to the home address of the individual through spatial interpolation techniques. Examples include Land Use Regression (LUR) [37], Inverse Distance Interpolation [38], and the geostatistical Kriging algorithm [39]. Numerical models, such as the Community Multiscale Air Quality (CMAQ) model and the Urban Atmospheric Dispersion model (DAUMOD), were proposed for regional air pollution modeling prediction in previous studies [40].…”
Section: Literature Reviewmentioning
confidence: 99%