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RECORD NUMBER: 127 OF 140

Main Title Treatment of acid mine drainage by ozone oxidation /
Author Beller, Morris. ; Belle, M. ; Waid, C. ; Steinber, M.
Other Authors
Author Title of a Work
Waide, C.,
Steinberg, Meyer,
CORP Author Brookhaven National Laboratory. Dept. of Applied Science.
Publisher United States Environmental Protection Agency, Water Quality Office,
Year Published 1970
Report Number W7106250; EPA/WQO-14010-FMH-12/70; EPA 140-R-70-003; DI-14-12-838
Stock Number PB-198 225
OCLC Number 00164282
Subjects Acid mine drainage ; Water--Purification--Ozonization
Additional Subjects ( Water pollution ; Mine waters) ; ( Coal mines ; Water pollution) ; ( Oxidation ; Mine waters) ; ( Neutralizing ; Mine waters) ; ( Ozone ; Production) ; Calcium oxides ; Electric discharges ; Economic analysis ; Cost estimates ; Iron inorganic compounds ; Ozonization ; Nuclear reactions ; Chemical engineering ; Water pollution control
Internet Access
Description Access URL
https://nepis.epa.gov/Exe/ZyPDF.cgi?Dockey=9100GGY6.PDF
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
EJBD  EPA 140-R-70-003 c.1 Headquarters Library/Washington,DC 05/30/2014
ELBD ARCHIVE EPA 140-R-70-003 Received from HQ AWBERC Library/Cincinnati,OH 10/04/2023
ELBD RPS EPA 140-R-70-003 repository copy AWBERC Library/Cincinnati,OH 11/27/2018
NTIS  PB-198 225 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation vii, 87, A4 pages : illustrations, figures, tables ; 28 cm
Abstract An engineering design and economic study to evaluate the feasibility of ozone oxidation and limestone neutralization of Acid Mine Drainage (AMD) was performed. The study concludes that an ozone process is feasibile, compares economically with existing processes, and offers potential advantages in process control, reduced neutralization costs, and simplified AMD sludge handling and disposal. Ozone production by electric discharge and radiation processes are compared both for on-site and central plant installations utilizing ozone shipping and storage facilities. A central chemonuclear ozone production plant with a distribution system is found to be most economical, followed by electric discharge central and on-site plants. Design and construction of a mobile pilot plant which employs electric discharge ozonizers is recommended for field trials of the process. (Author)
Notes "December 1970." U.S. Environmental Protection Agency Contract No. Contract Number: 14-12-838. Includes bibliographical references (pages 84-87).
Contents Notes An engineering design and economic study to evaluate the feasibility of ozone oxidation and limestone neutralization of Acid Mine Drainage (AMD) was performed. The study concludes that an ozone process is feasible, compares economically with existing processes, and offers potential advantages in process control, reduced neutralization costs, and simplified AMD sludge handling and disposal. Ozone production by electric discharge and radiation processes are compared both for on-site and central plant installations utilizing ozone shipping and storage facilities. A central chemonuclear ozone production plant with a distribution system is found to be most economical, followed by electric discharge central and on-site plants. Design and construction of a mobile pilot plant which employs electric discharge ozonizers is recommended for field trials of the process.
Place Published Washington, DC
Supplementary Notes Paper copy available from SOD $1.00 as EP 2.10:14010FMH12/70.
Access Notes Also issued online.
Corporate Au Added Ent Brookhaven National Laboratory. Department of Applied Science.; United States. Environmental Protection Agency. Water Quality Office.
Title Ser Add Ent Water pollution control research series.
PUB Date Free Form 1970
Series Title Traced Water pollution control research series
Series Title Untraced Water pollution control research series
NTIS Prices PC-SOD/MF A01-NTIS
BIB Level m
Medium unmediated
Content text
Carrier volume
Cataloging Source OCLC/T
LCCN 70611207
OCLC Time Stamp 20181120084847
Language eng
SUDOCS Number EP 2.10:14010 FMH 12/70; EP 2.10:14010-FMH 12/70
Origin OCLC
Type MERGE
OCLC Rec Leader 03172cam 2200541 i 45010