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TECHNOLOGICAL TESTS OF ANTIMONY REMOVAL FROM GROUNDWATER CONTAMINATED BY MINING ACTIVITIES
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References50
Water Quality and Treatment. A handbook of Community Water Suppliers. AWW A, 1990.
US EPA. Antimony: an environmental and health effects assessment. Washington, DC, US EPA, Of fice of Drinking Water, 1984.
Regulation of the Government of the Slovak Republic No. 496/2010 on Drinking Wa ter, 2010.
WHO. Guidelines for Drinking-Water Quality. 4th edition. WHO, Geneva, 2011.
C ouncil Directive 98/83/EC, Quality of water intended for human consumption, 1998.
P itter P. Hydrochemie, fourth ed., Institute of Chemical Technology Press, Praha, 2009 (in C zech).
WHO. Antimony in drinking-water. Background document for preparation of WHO Guideli nes for drinking-water quality. WHO, Geneva, 2003.
Petrusevski P. & Sharma S. & Schippers J.C. & Shordt K. Arsenic in Drinking Wa ter. Thematic Overview Paper 17, IRC, March 2007. GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems
Barloková D. &. Ilavský J. Removal of arsenic and antimony from water. Vodní hospodařství 59, pp.45-50, 2009 (in S lovak).
Gannon K. & Wilson D. J. Removal of antimony from aqueous system. Separation Science and Technology 21, pp. 475–493, 1986.
MacPhee M.J. & Charles G.E. & Cornwell D.A. Treatment of Arsenic Residual from Drinking Water Removal Prosesses. (EPA/600/R-11/090), 2001.
Bailey S.E. & Olin T.J. & Bricka R.M. & Adrian D.D. A review of potentially low – cost sorbents for heavy metals. Water Research 33, pp. 2469-2479, 1999
Westerhoff P. & Benn T. & Chen A.S.C. & Wang L. & Cumming L.J. Assesing arsenic removal by metal (hydr)oxide adsorptive media using rapid small Scale Column Test. EPA/600/R-08/051, 2008.
Cumming L.J. & Wang L. & Chen A.S.C. Arsenic and Antimony Removal from Drinking Water by Adsorptive Media, U.S. EPA Demonstration Project at South Truckee Meadows General Improvement District (STMGID), NV Final Performance Evaluation Report, EPA/600/R-09/016, 2009.
Thirunavukkarasu O.S. & Viraraghavan T. & Subramanian V. Arsenic removal from drinking water using granular ferric hydroxide. Water SA 29, pp. 161-170, 2003.
Sperlich A. &, Werner A. & Genz A. & Amy G. & WorchE. & Jekel M. Breakthrough behavior of granular ferric hydroxide (GFH) fixed-bed adsorption filters : modeling and experimental approaches. Water Research 39, pp. 1190-1198, 2005.
Saha B. & Bains R. & Greenwood F. Physicochemical characterization of granular ferric hydroxide (GFH) for arsenic(V) sorption from water, Separation Science and Technology 40, pp. 2909-2932, 2005.
Strnadová N. & Matějková D. Utilization of sorption materials for removal of As and Ni from water. Acta Montanistica Slovaca 10, pp. 263-271, 2005 (in Czech).
Jekel M. & Seith R. Comparison of Conventional and New Techniques for the Removal of Arsenic in a Full Scale Water Treatment Plant. Water Supply 18, pp. 628- 631, 2000.
Zeng H. & Arashiro M. & Giammar D. Effect of water chemistry and flow rate on arsenate removal by adsorption to an iron-based sorbent. Water Research 42, pp. 4629- 4636, 2008.
Severn Trent Services: http://www.severntrentservices.com/en_us/LiteratureDownloads/Documents/565_0200. pdf, 2012.
Backman B. & Kettunen V. & Ruskeeniemi T. & Luoma S. & Karttunen V. Arsenic removal from groundwater and surface water - Field tests in the Pirkanmaa Region, Finland. Geological Survey of Finland, Espoo, pp. 1-40, 2007.
Kemwater ProChemie: http://www.prochemie.cz/chem/tech-list-hydroxid-zelezity- kemira-cfh.pdf, 2012.
GEH-Wassechemie: http://www.geh-wasserchemie.de/files/datenblatt_geh101_en_web.pdf, 2012.
Driehaus W. & Jekel M. & Hildebrandt U. Granular Ferric Hydroxide – A New Adsorbent for the Removal of Arsenic from Natural Water. Journal of Water Supply: Research and Technology - Aqua 47 , pp. 30-35, 1998.
Water Quality and Treatment. A handbook of Community Water Suppliers. AWW A, 1990.
US EPA. Antimony: an environmental and health effects assessment. Washington, DC, US EPA, Of fice of Drinking Water, 1984.
Regulation of the Government of the Slovak Republic No. 496/2010 on Drinking Wa ter, 2010.
WHO. Guidelines for Drinking-Water Quality. 4th edition. WHO, Geneva, 2011.
C ouncil Directive 98/83/EC, Quality of water intended for human consumption, 1998.
P itter P. Hydrochemie, fourth ed., Institute of Chemical Technology Press, Praha, 2009 (in C zech).
WHO. Antimony in drinking-water. Background document for preparation of WHO Guideli nes for drinking-water quality. WHO, Geneva, 2003.
Petrusevski P. & Sharma S. & Schippers J.C. & Shordt K. Arsenic in Drinking Wa ter. Thematic Overview Paper 17, IRC, March 2007. GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems
Barloková D. &. Ilavský J. Removal of arsenic and antimony from water. Vodní hospodařství 59, pp.45-50, 2009 (in S lovak).
Gannon K. & Wilson D. J. Removal of antimony from aqueous system. Separation Science and Technology 21, pp. 475–493, 1986.
MacPhee M.J. & Charles G.E. & Cornwell D.A. Treatment of Arsenic Residual from Drinking Water Removal Prosesses. (EPA/600/R-11/090), 2001.
Bailey S.E. & Olin T.J. & Bricka R.M. & Adrian D.D. A review of potentially low – cost sorbents for heavy metals. Water Research 33, pp. 2469-2479, 1999
Westerhoff P. & Benn T. & Chen A.S.C. & Wang L. & Cumming L.J. Assesing arsenic removal by metal (hydr)oxide adsorptive media using rapid small Scale Column Test. EPA/600/R-08/051, 2008.
Cumming L.J. & Wang L. & Chen A.S.C. Arsenic and Antimony Removal from Drinking Water by Adsorptive Media, U.S. EPA Demonstration Project at South Truckee Meadows General Improvement District (STMGID), NV Final Performance Evaluation Report, EPA/600/R-09/016, 2009.
Thirunavukkarasu O.S. & Viraraghavan T. & Subramanian V. Arsenic removal from drinking water using granular ferric hydroxide. Water SA 29, pp. 161-170, 2003.
Sperlich A. &, Werner A. & Genz A. & Amy G. & WorchE. & Jekel M. Breakthrough behavior of granular ferric hydroxide (GFH) fixed-bed adsorption filters : modeling and experimental approaches. Water Research 39, pp. 1190-1198, 2005.
Saha B. & Bains R. & Greenwood F. Physicochemical characterization of granular ferric hydroxide (GFH) for arsenic(V) sorption from water, Separation Science and Technology 40, pp. 2909-2932, 2005.
Strnadová N. & Matějková D. Utilization of sorption materials for removal of As and Ni from water. Acta Montanistica Slovaca 10, pp. 263-271, 2005 (in Czech).
Jekel M. & Seith R. Comparison of Conventional and New Techniques for the Removal of Arsenic in a Full Scale Water Treatment Plant. Water Supply 18, pp. 628- 631, 2000.
Zeng H. & Arashiro M. & Giammar D. Effect of water chemistry and flow rate on arsenate removal by adsorption to an iron-based sorbent. Water Research 42, pp. 4629- 4636, 2008.
Severn Trent Services: http://www.severntrentservices.com/en_us/LiteratureDownloads/Documents/565_0200. pdf, 2012.
Backman B. & Kettunen V. & Ruskeeniemi T. & Luoma S. & Karttunen V. Arsenic removal from groundwater and surface water - Field tests in the Pirkanmaa Region, Finland. Geological Survey of Finland, Espoo, pp. 1-40, 2007.
Kemwater ProChemie: http://www.prochemie.cz/chem/tech-list-hydroxid-zelezity- kemira-cfh.pdf, 2012.
GEH-Wassechemie: http://www.geh-wasserchemie.de/files/datenblatt_geh101_en_web.pdf, 2012.
Driehaus W. & Jekel M. & Hildebrandt U. Granular Ferric Hydroxide – A New Adsorbent for the Removal of Arsenic from Natural Water. Journal of Water Supply: Research and Technology - Aqua 47 , pp. 30-35, 1998.
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