P. O. Reyes scite author profile

P. O. Reyes

2Publications

45Citation Statements Received

53Citation Statements Given

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University of Massachusetts Amherst

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Chemical Characterization of Submicron Aerosol Particles in Santiago de Chile

Carbone

Saarikoski

Frey

et al. 2013

Aerosol Air Qual. Res.

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High time resolution chemical characterization of submicron particles was carried out in the South American city of Santiago de Chile using the Aerosol Chemical Speciation Monitor (ACSM). The instrumentation operated for 100 days from August 17 th to November 23 rd 2011 in an urban station located inside the University of Santiago de Chile (USACH) campus. In addition, a semi-continuous OC/EC analyzer was also run in parallel with the ACSM for some of this time. Meteorological conditions varied along the studied period due to the transition from winter to spring time. Atmospheric temperature inversions were responsible for hourly average sub-micron particulate matter levels of up to 80 μg/m 3 , especially during the night time. The average submicron particle mass concentration (± standard deviation) for the whole period was 29.8 ± 25 μg/m 3 . Aerosol particles were composed mainly of organics 59%, followed by nitrate, ammonium, sulfate, black carbon and chloride with contributions of 14, 12, 8, 3 and 3%, respectively. Using positive matrix factorization, the organic fraction was divided into four distinct types of organic aerosol representing fresh automobile exhaust, biomass burning, and two oxygenated organic aerosol factors with different oxidation states. The transition from winter to spring was clearly seen in the composition of OA. The emissions from primary sources, such as vehicle and biomass burning, decreased in the period leading to spring, whereas the amount of oxygenated organic aerosol increased over the same time. This study shows that high time resolution measurements of aerosol chemical composition can lead to better characterizations of the evolution and sources of pollutants in an urban atmosphere.

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Near Surface Soil Vapor Clusters for Monitoring Emissions of Volatile Organic Compounds from Soils

Ergas

Hinlein

Reyes

et al. 2000

Journal of the Air & Waste Management Association

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The overall objective of this research was to develop and test a method of determining emission rates of volatile organic compounds (VOCs) and other gases from soil surfaces. Soil vapor clusters (SVCs) were designed as a low dead volume, robust sampling system to obtain vertically resolved profiles of soil gas contaminant concentrations in the near surface zone. The concentration profiles, when combined with a mathematical model of porous media mass transport, were used to calculate the contaminant flux from the soil surface. Initial experiments were conducted using a mesoscale soil remediation system under a range of experimental conditions. Helium was used as a tracer and trichloroethene was used as a model VOC. Flux estimations using the SVCs were within 25% of independent surface flux estimates and were comparable to measurements made using a surface isolation flux chamber (SIFC). In addition, method detection limits for the SVC were an order of magnitude lower than detection limits with the SIFC. Field trials, conducted with the SVCs at a bioventing site, indicated that the SVC method could be easily used in the field to estimate fugitive VOC emission rates. Major advantages of the SVC method were its low detection limits, lack of required auxiliary equipment, and ability to obtain realtime estimates of fugitive VOC emission rates. IMPLICATIONSThis research will aid in achieving both hazardous air pollutant and ozone precursor goals set by the U.S. Environmental Protection Agency and state regulatory agencies by providing an accurate, rugged, and easy to use method of monitoring air emissions of volatile organic compounds and other gases from soil surfaces. The method has several advantages over methods of monitoring fugitive emissions from soil surfaces, including faster sampling time, lower detection limits, and the ability to obtain real-time results without cryogenic or sorbent tube trapping.

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P. O. Reyes

Chemical Characterization of Submicron Aerosol Particles in Santiago de Chile

Near Surface Soil Vapor Clusters for Monitoring Emissions of Volatile Organic Compounds from Soils

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