Pilot study of sampling and analysis for polynuclear aromatic compounds in indoor air
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Pilot study of sampling and analysis for polynuclear aromatic compounds in indoor air

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Published by U.S. Environmental Protection Agency, Environmental Monitoring Systems Laboratory in Research Triangle Park NC .
Written in English

Subjects:

  • Indoor air pollution -- United States,
  • Aromatic compounds -- Environmental aspects,
  • Hydrocarbons -- Environmental aspects -- United States

Book details:

Edition Notes

StatementJ.C. Chuang ... [et al.]
ContributionsChuang, J. C, Environmental Monitoring Systems Laboratory (Research Triangle Park, N.C.)
The Physical Object
Pagination3 p. ;
ID Numbers
Open LibraryOL14891915M

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Sampling for PNA by an alumina fluidized bed sampler. Electrochimica Acta , 25 (2), DOI: /(80) Alf Bjørseth, Göran Eklund. Analysis for polynuclear aromatic hydrocarbons in working atmospheres by computerized gas chromatography-mass by: Both of the previous studies were pilot studies involving ambient and indoor air monitoring at a small number of residences in Columbus, Ohio. The objectives of these studies were to characterize. Wilson N. K. and Chuang J. C. () Indoor levels of PAH and related compounds in an eight-home pilot study In Polynuclear Aromatic Hydrocarbons. Gordon and Breach, New York (in press). Wilson N. K. and Petersen B. A. i) Ev',duation of sampling and analysis methodology for polynuclear aro- matic compounds in indoor air, Presented at the Int. ('heroical Conyress qf Pacil~c Basin Cited by:   This chapter reviews conventional and novel methods of analysis of polynuclear aromatic hydrocarbons in environmental samples. Sampling and pretreatment techniques of air, soil and water are discussed, as well as various clean‐up and extraction methods. Most of the relevant polycyclic aromatic hydrocarbons (PAHs) separation techniques are.

This paper summarizes the sampling and analysis methods used to collect and quantify polycyclic aromatic hydrocarbons (PAH) and PAH derivatives in indoor and outdoor air at 33 homes heated in two cities, Columbus OH and Azusa CA. Samplers were deployed at remote, rural, and urban locations in 22 countries. Calculated air concentrations were broadly in line with those obtained by conventional active air sampling techniques, for both compound classes and for compounds existing predominantly in the gas and particle phases. POLYNUCLEAR AROMATIC COMPOUNDS O^OAL-DERIVE D MATERIALS such as coal liquids and coal tars are highly aromatic, and these materials contain polycyclic aromatic compounds (PACs) as major components. Although average descriptive parameters such as mo­ lecular weight range, aromaticity, and abundances of functional groups are.   All contaminants you can analyze or monitor with a given method are consolidated together to facilitate use. This book is especially valuable for indoor and outdoor air pollution control, industrial hygiene, occupational health, analytical chemists, engineers, health physicists, biologists, toxicologists, and instrument users.

Polynuclear aromatic hydrocarbons in indoor air ferent sources present here. So, we could not at- tribute each PC to a certain source. Except for PAH1, the rest of the compounds exhibiting high loading along PC1 are ring compounds and would be found mainly in the particle phase. A study of the sampling efficiency for polynuclear aromatic hydrocarbons (PAH) in air of two adsorbents, XAD-2 resin and polyurethane foam (PUF), . Sampling Methodology for the Collection ofPolynuclear Aromatic Hydrocarbons 24Introduction 24Sample Considerations 25Sampling Devices Chemical Analysis Methodology 37Introduction 37Chemical Analysis Methods 37Screening Methods 45ReferencesSection Section Section v. Includes precise directions for a long list of contaminants! All contaminants you can analyze or monitor with a given method are consolidated together to facilitate use. This book is especially valuable for indoor and outdoor air pollution control, industrial hygiene, occupational health, analytical chemists, engineers, health physicists, biologists, toxicologists, and instrument users/5(4).