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RECORD NUMBER: 22 OF 135

OLS Field Name OLS Field Data
Main Title Direct photolysis of hexacyanoferrate complexes : proposed applications to the aquatic environment /
Author Broderius, Steven J.
Other Authors
Author Title of a Work
Smith, Lloyd L.,
Smith, Lloyd Lyman,
CORP Author Minnesota Univ., St. Paul. Dept. of Entomology, Fisheries, and Wildlife.;Environmental Research Lab.-Duluth, MN.
Publisher Environmental Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency ; Available to the public through the National Technical Information Service,
Year Published 1980
Report Number EPA-600/3-80-003; EPA-R-805291
Stock Number PB80-151558
OCLC Number 06287514
Subjects Photochemistry--Research. ; Water chemistry. ; Cyanides.
Additional Subjects Water pollution ; Reaction kinetics ; Photolysis ; Ferrates ; Cyanides ; Photochemical reactions ; Absorption ; Water chemistry ; Iron/hexacyano
Internet Access
Description Access URL
http://nepis.epa.gov/Exe/ZyPDF.cgi?Dockey=9101XHBJ.PDF
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
EHAM  QD715.B7 1980 Region 1 Library/Boston,MA 04/29/2016
EJAD  EPA 600/3-80-003 Region 3 Library/Philadelphia, PA 10/25/1996
EJBD ARCHIVE EPA 600-3-80-003 Headquarters Library/Washington,DC 01/06/2014
EJBD  EPA 600-3-80-003 c.1 Headquarters Library/Washington,DC 04/07/2014
EJED  EPA 600/3-80-003 OCSPP Chemical Library/Washington,DC 04/28/2006
EKAM  EPA 600/3-80-003 Region 4 Library/Atlanta,GA 05/27/1994
EKCD  EPA-600/3-80-003 NHEERL/GED Library/Gulf Breeze,FL 07/10/2018
ELBD  EPA 600-3-80-003 AWBERC Library/Cincinnati,OH 04/10/1998
ELDD  EPA-600/3-80-003 3 copies NHEERL/MED Library/Duluth,MN 08/23/2002
NTIS  PB80-151558 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 ix, 50 pages : illustrations ; 28 cm.
Abstract
The theory and computations described by Zepp and Cline (1977) were experimentally tested in predicting the direct photolysis rates of dilute hexacyanoferrate (II) and (III) solutions in the aquatic environment. Essential information for these calculations includes the quantum yield for the photoreaction, molar extinction coefficients of the complex ions for wavelengths > 295 nm, solar irradiance data used to calculate specific sunlight absorption rates, and the assumption that the photolysis reaction obeys a first-order kinetic rate expression. Direct photolysis rates of the irreversible photochemical reactions are calculated as a function of the time of year, latitude, time of day, meteorological conditions, and depth in natural water bodies. Light of wavelengths < 480 nm is active in the photolysis reactions, and pH, temperature, and concentration all affect the reaction to varying degrees. Assuming first-order kinetics, in which the rate constant was approximately concentration independent within the range of 25-100 micrograms/l total cyanide, the minimum quantum yields of HCN formation were 0.14 and 0.0023 for the iron (II) and (III) complexes, respectively. These values correspond to minimum, nearsurface, midday half-lives at midsummer of about 18 and 64 min at St. Paul, Minn. The photolysis rate at various fixed depths in a natural water column, when compared with that at the surface, decreases exponentially with depth. It is suggested that the photolysis reactions are enhanced by suspended material in turbid waters because of the forward scattering of light when compared with that theoretically calculated from beam attenuation coefficients. Hexacyanoferrate (II) and (III) solutions of equal initial total cyanide concentration respond photochemically quite differently from one another in solutions prepared with deionized water, but respond in a similar manner for solutions prepared with natural waters. The potentially rapid photodecomposition of iron-cyanides with formation of HCN suggests that this phenomenon may be of toxicological importance under certain environmental conditions.
Notes
"Department of Entomology, Fisheries, and Wildlife, University of Minnesota." "January 1980." Includes bibliographical references (pages 45-47). Grant no.