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Main Title Membrane-Mediated Extraction and Biodegradation of Volatile Organic Compounds From Air.
Author Peretti, S. W. ; Shepherd, R. D. ; Clayton, R. K. ; Proffitt, D. E. ;
CORP Author North Carolina State Univ. at Raleigh.
Publisher Jan 2005
Year Published 2005
Report Number EPA-600/R-05/035; F08637-98-C-6002; 3904; A3; AFRL-ML-TY-TR-2002-4506;
Stock Number ADA431460
Additional Subjects Aircraft maintenance ; Air pollution ; Paints ; Organic compounds ; Volatility ; Extraction ; Biodegradation ; Filtration ; Aircraft painting ; Vocs(Volatile organic compounds) ; Serdp collection ; Serdp(Strategic environmental research and development program)
Library Call Number Additional Info Location Last
NTIS  ADA431460 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation 186p
Abstract This report describes feasibility tests of a two-step strategy for air pollution control applicable to exhaust air contaminated with volatile organic compounds (VOCs) from painting aircraft. In the first step of the two- step strategy, the VOC-contaminated exhaust air passes over coated, polypropylene, hollow-fiber membranes while an involatile liquid (silicone oil, mineral oil, decanol, octanol) is pumped counter-current through the filters. The organic liquid captures the VOCs, and their concentration in the circulating liquid increases whenever exhaust air circulates. In the second step, the circulating organic loop passes through a second set of hollow-fiber membranes that support a culture of microorganisms, which remove and metabolize the VOCs, on their exterior surfaces. The concentration of VOCs in the circulating loop oscillates as the painting process starts and stops because VOC capture by the liquid is a fast process whereas removal and metabolization by microorganisms is a slow process. Despite constraints caused by limited availability of commercial membrane packages, adequate rates of removal and transport into and out of circulating octanol were shown to be adequate to support the proposed technology. Biodegradation was also qualitatively validated, although each of the organisms used in these tests selectively metabolized specific classes of solvents; however, other cultures or sequential treatment stages are expected to provide satisfactory removal. Scale-up revealed material incompatibility of the membranes and adhesives with octanol. Silicone oils and vegetable oils were briefly tested as the circulating organic liquid at the end of the project. Pressure drop also remains as an engineering challenge unless ventilation exhaust rates are decreased.
Supplementary Notes The original document contains color images.
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NTIS Title Notes Final Technical Report.
Category Codes 68A; 51C; 71E
NTIS Prices PC A10/MF A02
Document Type NT
Cataloging Source NTIS/MT
Control Number 029200990
Origin NTIS
Type CAT