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RECORD NUMBER: 50 OF 53

OLS Field Name OLS Field Data
Main Title The GEOMET indoor-outdoor air pollution model /
Author Moschandreas, Demetrios J.
Other Authors
Author Title of a Work
Stark, John W. C.,
Bromberg, Steven M.
CORP Author Geomet, Inc., Gaithersburg, Md. ;Department of Housing and Urban Development, Washington, D.C. Office of Community Planning and Development.;Environmental Monitoring and Support Lab., Research Triangle Park, N.C.
Publisher The Dept. ; The Laboratory,
Year Published 1978
Report Number EPA-600/7-78-106; EF-628; GEOMET-EF-628; EPA-68-02-2294
Stock Number PB-285706
OCLC Number 08224031
Subjects Air--Pollution--Mathematical models. ; Air quality--Mathematical models.
Additional Subjects Air pollution ; Mathematical models ; Concentration(Composition) ; Proving ; Accuracy ; Statistical tests ; Errors ; Carbon monoxide ; Nitrogen oxide(NO) ; Nitrogen dioxide ; Carbon dioxide ; Hydrocarbons ; Indoor air pollution ; GIAOP model ; Validation
Internet Access
Description Access URL
http://nepis.epa.gov/Exe/ZyPDF.cgi?Dockey=9101DI1Q.PDF
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
EJBD ARCHIVE EPA-600-7-78-106 Headquarters Library/Washington,DC 12/14/2012
EJBD  EPA-600-7-78-106 c.1 Headquarters Library/Washington,DC 01/08/2014
EKAM  EPA-600/7-78-106 Region 4 Library/Atlanta,GA 07/08/1994
EKBD  EPA-600/7-78-106 Research Triangle Park Library/RTP, NC 12/05/2003
ESAD  EPA 600-7-78-106 Region 10 Library/Seattle,WA 03/23/2010
NTIS  PB-285 706 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 01/01/1988
Collation vii, 69 pages : illustrations ; 28 cm.
Abstract
This report documents the formulation of the GEOMET Indoor-Outdoor Air Pollution (GIOAP) model. The model estimates indoor air pollutant concentrations as a function of outdoor pollutant levels, indoor pollutant generation sources rates, pollutant chemical decay rates, and air exchange rates. Topics discussed include basic principles, model formulation, parameter estimation, model statistical validation, and model sensitivity to perturbations of the input parameters. The numerical estimates obtained from the GIOAP simulations have been validated with observed hourly pollutant concentrations obtained from an 18-mo residential air quality sampling program. Statistically the GIOAP model estimations are within 25% of the ideal condition (estimated and observed values coincide) for 85% of the observed values for CO, NO, NO2, NMHC, and CO2. The model has not been validated against sulfur dioxide owing to the very low values measured both indoors and outdoors. The predetermined validation criteria were not satisfied by the ozone model estimations; however, the calculated values were judged adequate because for about 85% of the observed values the predicted concentrations were within 2 ppb. Sensitivity studies on the GIOAP model parameters indicate that errors in the estimation of the initial condition and the volume of the structure dissipate with time. Errors in estimating the air exchange rate, the indoor generation strength, and the indoor chemical decay rate are more significant. Sensitivity coefficients have been formulated for all input parameters. The transient term is a unique feature of the GIOAP model; the impact of this term is substantial for stable pollutants but insignificant for ozone, which is a high reactive pollutant. The GIOAP Model, validated against a variety of measured data, satisfactorily predicts indoor pollutant concentrations, and it can be used to determine residential pollution levels under any conditions.
Notes
Project officer: Steven M. Bromberg. Scientific report. Sponsored by U.S. Dept. of Housing and Urban Development, Office of Policy Development and Research and Environmental Monitoring and Support Laboratory, Office of Research and Development.