TITLE
DEVELOPMENT OF AN ANALYSIS METHOD FOR TOTAL NONMETHANE VOLATILE
ORGANIC CARBON EMISSIONS FROM STATIONARY SOURCES

AUTHOR(S)
James F. McGaughey and Samuel C. Foster II,

PERFORMING ORGANIZATION NAME AND ADDRESS
Radian Corporation
P.O. Box 13000
Research Triangle Park, North Carolina 27709

SPONSORING AGENCY NAME AND ADDRESS
Atmospheric Research and Exposure Assessment Lab.
Methods Research and Development Division
Source Methods Research Branch
U. S. Environmental Protection Agency
Research Triangle Park, North Carolina  27711

ABSTRACT
     The accurate measurement of the total nonmethane volatile
organic carbon emissions from stationary sources is critical to
characterizing many industrial processes and for regulating
according to the Clean Air Act.  Current methods are difficult to
use and the ability to do performance audits has been marginal,
especially at low concentrations (<50 parts per million of carbon,
ppmc). 

     One of the key elements for an ideal measurement technique
would be a detector that responds to all classes of organic
compounds equally, based on the number of carbon atoms present.  A
commercially available catalytic flame ionization detector (CFID)
has shown promise in this area.  Laboratory studies with a CFID
were performed to determine the response of compounds with various
functional groups.  These classes included brominated, chlorinated,
nitrogenated, oxgenated, aromatic, and non-aromatic compounds.  The
response of each compound is compared to the response of an alkane
with the same number of carbon atoms.  This report discusses the
experimental work with this detector and an approach for sampling,
sample recovery, and field tests for comparison to the EPA Method
25.