| 2005 Salt Lake City Annual Meeting (October 16–19, 2005) | |
| Paper No. 108-10 | |
| Presentation Time: 4:15 PM-4:30 PM | ||
ARSENIC SORPTION ONTO LATERITE IRON CONCRETIONS FROM PRESTEA, GHANA | ||
|
PARTEY, Frederick1, NORMAN, Dave1, NDUR, Samuel1, and SIEGEL, Malcolm2, (1) Earth and Environmental Science, New Mexico Tech, 801 Leroy Place, Socorro, NM 87801, parteyfk@nmt.edu, (2) Geochemistry, Sandia National laboratories, MS 0750, Albuquerque, NM 87185 We investigated the sorption capacity of arsenic onto Prestea Ghana laterite iron concretions through column and batch experiments. Laterite iron concretions, which form by deep tropical weathering consist of 63.8% Fe2O3, 11.75% Al2O3, 9.46% silica, 1.21% TiO2 and clay minerals. Adsorption capacity for 1.18mm laterite grains was calculated to be 2.19mg/g for As V and 2.56mg/g for As III. Adsorption of both As III and As V was found to be pH dependant and the maximum arsenic removal for both species was achieved at neutral pH range. Characteristic adsorption isotherms were determined and found to fit sufficiently the typical Langmuir equation. Arsenic sorption by laterite must be due to the high percentage of iron and aluminum oxides that it contains. Oxides and oxyhydroxides of iron and aluminum are known to be strong arsenic adsorbents. The combined effect of these oxides in the laterite explains the high sorption capacities of the laterite for arsenic. The results of this study show that Prestea laterite removes arsenic and is currently being used to develop an inexpensive water purification system for rural communities in tropical Ghana. | ||
|
2005 Salt Lake City Annual Meeting (October 16–19, 2005)
General Information for this Meeting | ||
| Session No. 108 Arsenic Occurrence and Fate in Hydrogeologic Systems II Salt Palace Convention Center: 250 DE 1:30 PM-5:30 PM, Monday, 17 October 2005 Geological Society of America Abstracts with Programs, Vol. 37, No. 7, p. 249 | ||
© Copyright 2005 The Geological Society of America (GSA), all rights reserved. Permission is hereby granted to the author(s) of this abstract to reproduce and distribute it freely, for noncommercial purposes. Permission is hereby granted to any individual scientist to download a single copy of this electronic file and reproduce up to 20 paper copies for noncommercial purposes advancing science and education, including classroom use, providing all reproductions include the complete content shown here, including the author information. All other forms of reproduction and/or transmittal are prohibited without written permission from GSA Copyright Permissions. | ||