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Methods for the Analysis of 26 Million VOC Area Measurements during the Deepwater Horizon Oil Spill Clean-up
Author(s) -
Caroline P Groth,
Sudipto Banerjee,
Gurumurthy Ramachandran,
Patricia A. Stewart,
Dale P. Sandler,
Aaron Blair,
Lawrence S. Engel,
Richard K. Kwok,
Mark Stenzel
Publication year - 2021
Publication title -
annals of work exposures and health
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.62
H-Index - 77
eISSN - 2398-7316
pISSN - 2398-7308
DOI - 10.1093/annweh/wxab038
Subject(s) - deepwater horizon , environmental science , occupational exposure , oil spill , personal protective equipment , environmental health , environmental engineering , medicine , disease , covid-19 , pathology , infectious disease (medical specialty)
The NIEHS GuLF STUDY is an epidemiologic study of the health of workers who participated in the 2010 Deepwater Horizon oil spill response and clean-up effort. Even with a large database of approximately 28 000 personal samples that were analyzed for total hydrocarbons (THCs) and other oil-related chemicals, resulting in nearly 160 000 full-shift personal measurements, there were still exposure scenarios where the number of measurements was too limited to rigorously assess exposures. Also available were over 26 million volatile organic compounds (VOCs) area air measurements of approximately 1-min duration, collected from direct-reading instruments on 38 large vessels generally located near the leaking well. This paper presents a strategy for converting the VOC database into hourly average air concentrations by vessel as the first step of a larger process designed to use these data to supplement full-shift THC personal exposure measurements. We applied a Bayesian method to account for measurements with values below the analytic instrument's limit of detection while processing the large database into average instrument-hour concentrations and then hourly concentrations across instruments on each day of measurement on each of the vessels. To illustrate this process, we present results on the drilling rig ship, the Discoverer Enterprise. The methods reduced the 26 million measurements to 21 900 hourly averages, which later contributed to the development of additional full-shift THC observations. The approach used here can be applied by occupational health professionals with large datasets of direct-reading instruments to better understand workplace exposures.

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