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W2119237750 endingPage "1013" @default.
W2119237750 startingPage "984" @default.
W2119237750 abstract "ABSTRACT Soil contamination by volatile hydrocarbons is of public health importance due to vapor intrusion and indoor inhalation exposures. These are assessed using measurement or predictive modeling and need to consider the key areas of subsurface partitioning and transport, dwelling ventilation, and receptor inhalation dosimetry. While subsurface partitioning and transport have been subject to intensive international investigation, limited consideration has been given to the latter. Building ventilation research has developed multi-zone airflow and contaminant dispersal models including AccuRate, an Australian model that examines natural ventilation modeling, roof and sub-floor ventilation, and identifies the importance of geometry and thermal factors on ventilation (the most sensitive variable) and indoor pollutant concentrations. Inhalation dosimetry has received recent attention due to concerns over child inhalation susceptibility and dose metrics. Research using coupled computational fluid dynamics (CFD) and physiologically based pharmaco-kinetic (PBPK) models has reported variance from previous animal models’ extrapolation while CFD modeling of transient lung vapor absorption suggests the significance of transient versus steady-state evaluation of volatiles absorption into tissue and blood. The transient nature of sub-surface fate and transport, ventilation, and inhalation uptake thus warrants integrated exploration and application in order to realize improvements in vapor intrusion assessments. These perspectives and Australian modeling initiatives are presented in this article." @default.
W2119237750 created "2016-06-24" @default.
W2119237750 creator A5004169585 @default.
W2119237750 creator A5015790310 @default.
W2119237750 creator A5063127673 @default.
W2119237750 date "2012-09-01" @default.
W2119237750 modified "2023-09-25" @default.
W2119237750 title "Health Risk Assessment and Vapor Intrusion: A Review and Australian Perspective" @default.
W2119237750 cites W101757713 @default.
W2119237750 cites W1480783212 @default.
W2119237750 cites W1485246076 @default.
W2119237750 cites W1496388574 @default.
W2119237750 cites W1510601200 @default.
W2119237750 cites W1604642631 @default.
W2119237750 cites W1768084763 @default.
W2119237750 cites W1834869342 @default.
W2119237750 cites W1843131918 @default.
W2119237750 cites W1974580881 @default.
W2119237750 cites W1978469916 @default.
W2119237750 cites W1979466925 @default.
W2119237750 cites W1979820671 @default.
W2119237750 cites W1993822853 @default.
W2119237750 cites W1994279578 @default.
W2119237750 cites W1994613357 @default.
W2119237750 cites W1995485949 @default.
W2119237750 cites W1999308969 @default.
W2119237750 cites W2000011335 @default.
W2119237750 cites W2001480758 @default.
W2119237750 cites W2004343454 @default.
W2119237750 cites W2008088094 @default.
W2119237750 cites W2009496710 @default.
W2119237750 cites W2012954200 @default.
W2119237750 cites W2016090595 @default.
W2119237750 cites W2019285607 @default.
W2119237750 cites W2019590739 @default.
W2119237750 cites W2019832570 @default.
W2119237750 cites W2021785079 @default.
W2119237750 cites W2023056055 @default.
W2119237750 cites W2023787635 @default.
W2119237750 cites W2025706136 @default.
W2119237750 cites W2025934054 @default.
W2119237750 cites W2027228967 @default.
W2119237750 cites W2028930077 @default.
W2119237750 cites W2031416504 @default.
W2119237750 cites W2031619764 @default.
W2119237750 cites W2039170484 @default.
W2119237750 cites W2042587015 @default.
W2119237750 cites W2044325651 @default.
W2119237750 cites W2052122208 @default.
W2119237750 cites W2052334083 @default.
W2119237750 cites W2055162954 @default.
W2119237750 cites W2056795522 @default.
W2119237750 cites W2059297737 @default.
W2119237750 cites W2060888375 @default.
W2119237750 cites W2063680186 @default.
W2119237750 cites W2067464200 @default.
W2119237750 cites W2069773267 @default.
W2119237750 cites W2071609209 @default.
W2119237750 cites W2075351671 @default.
W2119237750 cites W2076369910 @default.
W2119237750 cites W2077840724 @default.
W2119237750 cites W2079952886 @default.
W2119237750 cites W2084929542 @default.
W2119237750 cites W2088240913 @default.
W2119237750 cites W2092143144 @default.
W2119237750 cites W2092672582 @default.
W2119237750 cites W2098908557 @default.
W2119237750 cites W2120077694 @default.
W2119237750 cites W2121022548 @default.
W2119237750 cites W2125044104 @default.
W2119237750 cites W2125225096 @default.
W2119237750 cites W2125308637 @default.
W2119237750 cites W2133523514 @default.
W2119237750 cites W2134264124 @default.
W2119237750 cites W2138073045 @default.
W2119237750 cites W2142130954 @default.
W2119237750 cites W2153142568 @default.
W2119237750 cites W2156021625 @default.
W2119237750 cites W2157819145 @default.
W2119237750 cites W2159173214 @default.
W2119237750 cites W2160030883 @default.
W2119237750 cites W2164427797 @default.
W2119237750 cites W2164568537 @default.
W2119237750 cites W2165172412 @default.
W2119237750 cites W2282881414 @default.
W2119237750 cites W2315518595 @default.
W2119237750 cites W4250843620 @default.
W2119237750 cites W4254240411 @default.
W2119237750 doi "https://doi.org/10.1080/10807039.2012.707929" @default.
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