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OLS Field Name OLS Field Data
Main Title Physical and Numerical Modeling of ASD Exhaust Dispersion Around Houses.
Author Neff, D. E. ; Meroney, R. N. ; El-Badry, H. ;
CORP Author Cohen (S.) and Associates, Inc., McLean, VA. ;Colorado State Univ., Fort Collins. Dept. of Civil Engineering.;Environmental Protection Agency, Research Triangle Park, NC. Air and Energy Engineering Research Lab.
Publisher Jul 94
Year Published 1994
Report Number EPA-68-DO-0097; EPA/600/R-94/115;
Stock Number PB94-188117
Additional Subjects Radon ; Soil-structure interactions ; Air flow ; Roofs ; Basements ; Ventilation ; Tracers ; Plumes ; Wind tunnel models ; Atmospheric dispersion ; Wind velocity ; Radioecological concentration ; Environmental transport ; Path of pollutants ; Radiation monitoring ; Mitigation ; Soil gases ; Mathematical models ; Residential buildings ; Air pollution control ; Indoor air pollution ; ASD(Active Soil Depressurization) ; Active soil depressurization ; Air-structure interactions
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NTIS  PB94-188117 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 11/11/1994
Collation 212p
Abstract A study has been completed which physically modeled, in a wind tunnel, the dispersion of exhaust plumes from active soil depressurization (ASD) radon mitigation systems in houses. The wind tunnel testing studied the effects of three different exhaust locations: midway up the roof slope, simulating an ASD stack interior to the house; at the eave, simulating an exterior stack; and grade-level exhaust (no stack). Plume dispersion effects were studied using both qualitative smoke visualization and quantitative tracer gas techniques, as the following variables were systematically varied: house height; roof pitch; wind direction; wind speed; and exhaust velocity. The tracer gas results show that grade-level exhausts consistently result in the highest tracer concentrations against the face of the house, although these concenrations may not be serious if exhaust concentrations are low. The wind tunnel physical modeling was supplemented by analytic and numeric modeling, to determine how well the analytic and numeric models reproduced the wind tunnel results. Existing analytic models over-predicted the exhaust gas concentrations that would be seen against the face and roof of the house, and downwind.
Supplementary Notes Prepared in cooperation with Colorado State Univ., Fort Collins. Dept. of Civil Engineering. Sponsored by Environmental Protection Agency, Research Triangle Park, NC. Air and Energy Engineering Research Lab.
NTIS Title Notes Final rept. May-Sep 93.
Category Codes 68A; 68F; 89B
NTIS Prices PC A10/MF A03
Primary Description 600/13
Document Type NT
Cataloging Source NTIS/MT
Control Number 424430217
Origin NTIS
Type CAT