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OLS Field Name OLS Field Data
Main Title Evaluation of ceramic filters for high-temperature/high pressure fine particulate control /
Author Poe, G. G. ; Evans, R. M. ; Bonnett, W. S. ; Waterland., L. R.
Other Authors
Author Title of a Work
Poe, G. G.
CORP Author Aerotherm Corp., Mountain View, Calif.;Industrial Environmental Research Lab., Research Triangle Park, N.C.
Publisher Environmental Protection Agency, Office of Research and Development, Industrial Environmental Research Laboratory ; For sale by the National Technical Information Service,
Year Published 1977
Report Number EPA/600/2-77/056; EPA-68-02-1318; EPA-ROAP-21ADL-029
Stock Number PB-266 093
Additional Subjects Fines ; Air filters ; Air pollution control equipment ; Particles ; Efficiency ; Surveys ; Membranes ; Ceramics ; High temperature tests ; High pressure tests ; Performance evaluation ; Electric power plants ; Numerical analysis ; Honeycomb structures ; Design criteria ; Economics ; Steam power plants
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
NTIS  PB-266 093 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 iv, 48 pages : illustrations ; 28 cm.
Abstract High temperature gas turbines used to generate electric power require gas streams virtually free of particulate matter. Gas streams from high temperature, high pressure coal processes, such as low Btu gasification and pressurized fluidized bed combustion, require considerable particulate removal. In order to maintain high thermal efficiency the particulate clean-up must be done at the high temperatures of the process. Many new concepts for fine particulate control at elevated temperatures are presently being proposed. One such concept utilizes ceramic membrane filters. The report gives results of a study to analyze and evaluate ceramic membrane filters as a new, fine particulate (<3 micrometers) control concept for high-temperature (approx. 900C), high-pressure processes. Several ceramic filters were identified as potential candidates for fine particulate removal. There does not seem to be any inherent material limitation to high-temperature operation; however, no evidence of high-temperature filter application was found. The filters typically are 2-6 mm thick, cylindrical, and available with various pore sizes, increasing upward from 0.5 micrometer. These elements may be suitable for fine particulate control in hot gas streams. The most promising, although undeveloped, idea for a ceramic filter is to use ceramic honeycomb monoliths similar to those available for catalyst supports and heat exchangers. The walls of the monoliths are about 0.2-0.4 mm thick and of varying pore size and porosity. Geometric configurations are available which would force the gas to flow through the membrane walls. Pressure losses would be very small relative to those of standard ceramic filter elements. The application of ceramic monoliths to high-temperature fine particulate control appears very promising. It is strongly recommended that this concept be investigated further.
Notes Prepared by Aerotherm Division/Acurex Corporation under Contract No. 68-02-1319, Task 25, ROAP No. 21ADL-029, Program Element No. 1AB012. Issued Feb. 1977. Includes bibliographical references (page 39). Microfiche.
Place Published Research Triangle Park. N.C. :
Corporate Au Added Ent United States. Industrial Environmental Research Laboratory (Research Triangle Park, N.C.) ; Acurex Corporation. Aerotherm Division.
Corp Au Ser Add Ent Environmental protection technology series ; EPA-600/2-77-056. United States. ; Environmental protection technology series ; EPA-600/2-77-056. United States. ; Environmental protection technology series ; EPA-600/2-77-056. United States.
PUB Date Free Form 1977.
Series Title Untraced Environmental protection technology series ; EPA-600/2-77-056
NTIS Prices PC A04/MF A01
BIB Level m
Cataloging Source OCLC/T
OCLC Time Stamp 20031027113016
Language eng
Origin NTIS
Type MERGE
OCLC Rec Leader 01506nam 2200289Ka 45020