Difference between revisions of "References for iron enhanced sand filter"
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| − | *Banchand, P.A. M., and A. Heyvaert. 2005. Adsorptive Media Investigations and Testing for Improved Performance of Stormwater Treatment Systems in the Tahoe Basin. Prepared for Placer County Department of Public Works, Auburn, CA, and California Tahoe Conservancy, South Lake Tahoe, CA. Prepared by Bachand and Associates, and U.C. David Tahoe Research Group. | + | *Banchand, P.A. M., and A. Heyvaert. 2005. [http://aquaticcommons.org/2070/1/Microsoft_Word_-_Placer_Final_Report_With_Appendices_15Mar05_pamb-ach_v2.pdf Adsorptive Media Investigations and Testing for Improved Performance of Stormwater Treatment Systems in the Tahoe Basin]. Prepared for Placer County Department of Public Works, Auburn, CA, and California Tahoe Conservancy, South Lake Tahoe, CA. Prepared by Bachand and Associates, and U.C. David Tahoe Research Group. |
| − | *Barr Engineering Company. 2010. Iron-enhanced sand filter monitoring – 2010. December 28, 2010 Report to the Ramsey-Washington Metro Watershed District. | + | *Barr Engineering Company. 2010. Iron-enhanced sand filter monitoring – 2010. December 28, 2010 Report to the [http://www.rwmwd.org/index.asp?Type=B_BASIC&SEC=%7B58E60B76-2BA3-4B6D-A41C-7B8DC882B113%7D Ramsey-Washington Metro Watershed District]. |
| − | *Center for Watershed Protection & Chesapeake Stormwater Network (CWP & CSN) | + | *Center for Watershed Protection & Chesapeake Stormwater Network (CWP & CSN). 2008. [http://vwrrc.vt.edu/swc/documents/pdf/TechnicalMemo.pdf Technical Memorandum: The Runoff Reduction Method]. April 18, 2008 |
| − | *City of Bellevue Utilities Department and Shapiro and Associates. 1999. Lakemont storm water treatment facility monitoring program. Final Report. City of Bellevue Utilities Department. 301 116th Avenue SE. Bellevue, WA 98009-9012. | + | *[http://www.ci.bellevue.wa.us/utilities.htm City of Bellevue Utilities Department] and Shapiro and Associates. 1999. ''Lakemont storm water treatment facility monitoring program. Final Report''. City of Bellevue Utilities Department. 301 116th Avenue SE. Bellevue, WA 98009-9012. |
| − | *Claytor, R.A., and T.R. Schueler. 1996. Design of stormwater filtering systems. Prepared by The Center for Watershed Protection. 8391 Main Street, Ellicott City, MD 21043. Prepared for Chesapeake Research Consortium. (410) 461-8323. | + | *Claytor, R.A., and T.R. Schueler. 1996. [http://pittsburghpermaculture.org/wp-content/uploads/2010/04/stormwater_filtration_system_design.pdf Design of stormwater filtering systems]. Prepared by The Center for Watershed Protection. 8391 Main Street, Ellicott City, MD 21043. Prepared for Chesapeake Research Consortium. (410) 461-8323. |
| − | *Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2012. Capturing phosphates with iron enhanced sand filtration. Water Research. Vol. 26, pp. 3032-3042. | + | *Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2012. [http://stormwater.safl.umn.edu/sites/stormwater.safl.umn.edu/files/092612erickson.pdf Capturing phosphates with iron enhanced sand filtration]. Water Research. Vol. 26, pp. 3032-3042. |
| − | *Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2011. Removing dissolved phosphorus from stormwater. 12nd International Conference on Urban Drainage, Porto Alegre/Brazil, 10-15 September 2011. | + | *Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2011. [http://stormwater.safl.umn.edu/sites/stormwater.safl.umn.edu/files/091511weiss.pdf Removing dissolved phosphorus from stormwater]. 12nd International Conference on Urban Drainage, Porto Alegre/Brazil, 10-15 September 2011. |
| − | *Erickson, A.J. and J.S Gulliver. 2010. Performance Assessment of an Iron-Enhanced Sand Filtration Trench for Capturing Dissolved Phosphorus | + | *Erickson, A.J. and J.S Gulliver. 2010. [http://conservancy.umn.edu/bitstream/115602/1/pr549.pdf Performance Assessment of an Iron-Enhanced Sand Filtration Trench for Capturing Dissolved Phosphorus]. Project Report No. 549, St. Anthony Falls Laboratory, University of Minnesota, Minneapolis, Prepared for the City of Prior Lake, Minnesota |
*Erickson, A.J., Gulliver, J.S, Weiss, P.T., and B.J. Huser. 2010. Iron-enhanced sand filtration for stormwater phosphorus removal. 7th International Urban Watershed Management Conference. The University of Auckland, New Zealand, February 21-24. | *Erickson, A.J., Gulliver, J.S, Weiss, P.T., and B.J. Huser. 2010. Iron-enhanced sand filtration for stormwater phosphorus removal. 7th International Urban Watershed Management Conference. The University of Auckland, New Zealand, February 21-24. | ||
| − | *Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2007. Enhanced sand filtration for storm water phosphorus removal. Journal of Environmental Engineering. pp. 485-497. May 2007. | + | *Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2007. [http://www.pca.state.mn.us/index.php/view-document.html?gid=7749 Enhanced sand filtration for storm water phosphorus removal]. Journal of Environmental Engineering. pp. 485-497. May 2007. |
| − | *MNDOT 2005. MnDOT Standard Specifications Book, Division III – Materials, Minnesota Department of Transportation, St. Paul, Minnesota. | + | *MNDOT 2005. [http://www.dot.state.mn.us/pre-letting/spec/2005/3835-3973.pdf MnDOT Standard Specifications Book], Division III – Materials, Minnesota Department of Transportation, St. Paul, Minnesota. |
*Minnesota Pollution Control Agency (MPCA). 2008. Minnesota Stormwater Manual, Version 2. | *Minnesota Pollution Control Agency (MPCA). 2008. Minnesota Stormwater Manual, Version 2. | ||
*Rawls, W. J., Gimenez, D., Grossman, R. 1998. Use of soil texture, bulk density, and slope of the water retention curve to predict saturated hydraulic conductivity. Transaction of the ASAE. Vol. 41(4): 983-988. | *Rawls, W. J., Gimenez, D., Grossman, R. 1998. Use of soil texture, bulk density, and slope of the water retention curve to predict saturated hydraulic conductivity. Transaction of the ASAE. Vol. 41(4): 983-988. | ||
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*MNDOT 2005. MnDOT Standard Specifications Book, Division III – Materials, Minnesota Department of Transportation, St. Paul, Minnesota. | *MNDOT 2005. MnDOT Standard Specifications Book, Division III – Materials, Minnesota Department of Transportation, St. Paul, Minnesota. | ||
*Minnesota Pollution Control Agency (MPCA). 2008. Minnesota Stormwater Manual, Version 2. | *Minnesota Pollution Control Agency (MPCA). 2008. Minnesota Stormwater Manual, Version 2. | ||
| − | *Rawls, W. J., Gimenez, D., Grossman, R. 1998. Use of soil texture, bulk density, and slope of the water retention curve to predict saturated hydraulic conductivity. Transaction of the ASAE. Vol. 41(4): 983-988. | + | *Rawls, W. J., Gimenez, D., Grossman, R. 1998. ''Use of soil texture, bulk density, and slope of the water retention curve to predict saturated hydraulic conductivity''. Transaction of the ASAE. Vol. 41(4): 983-988. |
Revision as of 15:44, 9 April 2013
- Banchand, P.A. M., and A. Heyvaert. 2005. Adsorptive Media Investigations and Testing for Improved Performance of Stormwater Treatment Systems in the Tahoe Basin. Prepared for Placer County Department of Public Works, Auburn, CA, and California Tahoe Conservancy, South Lake Tahoe, CA. Prepared by Bachand and Associates, and U.C. David Tahoe Research Group.
- Barr Engineering Company. 2010. Iron-enhanced sand filter monitoring – 2010. December 28, 2010 Report to the Ramsey-Washington Metro Watershed District.
- Center for Watershed Protection & Chesapeake Stormwater Network (CWP & CSN). 2008. Technical Memorandum: The Runoff Reduction Method. April 18, 2008
- City of Bellevue Utilities Department and Shapiro and Associates. 1999. Lakemont storm water treatment facility monitoring program. Final Report. City of Bellevue Utilities Department. 301 116th Avenue SE. Bellevue, WA 98009-9012.
- Claytor, R.A., and T.R. Schueler. 1996. Design of stormwater filtering systems. Prepared by The Center for Watershed Protection. 8391 Main Street, Ellicott City, MD 21043. Prepared for Chesapeake Research Consortium. (410) 461-8323.
- Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2012. Capturing phosphates with iron enhanced sand filtration. Water Research. Vol. 26, pp. 3032-3042.
- Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2011. Removing dissolved phosphorus from stormwater. 12nd International Conference on Urban Drainage, Porto Alegre/Brazil, 10-15 September 2011.
- Erickson, A.J. and J.S Gulliver. 2010. Performance Assessment of an Iron-Enhanced Sand Filtration Trench for Capturing Dissolved Phosphorus. Project Report No. 549, St. Anthony Falls Laboratory, University of Minnesota, Minneapolis, Prepared for the City of Prior Lake, Minnesota
- Erickson, A.J., Gulliver, J.S, Weiss, P.T., and B.J. Huser. 2010. Iron-enhanced sand filtration for stormwater phosphorus removal. 7th International Urban Watershed Management Conference. The University of Auckland, New Zealand, February 21-24.
- Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2007. Enhanced sand filtration for storm water phosphorus removal. Journal of Environmental Engineering. pp. 485-497. May 2007.
- MNDOT 2005. MnDOT Standard Specifications Book, Division III – Materials, Minnesota Department of Transportation, St. Paul, Minnesota.
- Minnesota Pollution Control Agency (MPCA). 2008. Minnesota Stormwater Manual, Version 2.
- Rawls, W. J., Gimenez, D., Grossman, R. 1998. Use of soil texture, bulk density, and slope of the water retention curve to predict saturated hydraulic conductivity. Transaction of the ASAE. Vol. 41(4): 983-988.
- Barr Engineering Company. 2010. Iron-enhanced sand filter monitoring – 2010. December 28, 2010 Report to the Ramsey-Washington Metro Watershed District.
- Center for Watershed Protection & Chesapeake Stormwater Network (CWP & CSN), 2008. Technical Memorandum: The Runoff Reduction Method. April 18, 2008
- City of Bellevue Utilities Department and Shapiro and Associates. 1999. Lakemont storm water treatment facility monitoring program. Final Report. City of Bellevue Utilities Department. 301 116th Avenue SE. Bellevue, WA 98009-9012.
- Claytor, R.A., and T.R. Schueler. 1996. Design of stormwater filtering systems. Prepared by The Center for Watershed Protection. 8391 Main Street, Ellicott City, MD 21043. Prepared for Chesapeake Research Consortium. (410) 461-8323.
- Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2012. Capturing phosphates with iron enhanced sand filtration. Water Research. Vol. 26, pp. 3032-3042.
- Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2011. Removing dissolved phosphorus from stormwater. 12nd International Conference on Urban Drainage, Porto Alegre/Brazil, 10-15 September 2011.
- Erickson, A.J. and J.S Gulliver. 2010. Performance Assessment of an Iron-Enhanced Sand Filtration Trench for Capturing Dissolved Phosphorus, Project Report No. 549, St. Anthony Falls Laboratory, University of Minnesota, Minneapolis, Prepared for the City of Prior Lake, Minnesota
- Erickson, A.J., Gulliver, J.S, Weiss, P.T., and B.J. Huser. 2010. Iron-enhanced sand filtration for stormwater phosphorus removal. 7th International Urban Watershed Management Conference. The University of Auckland, New Zealand, February 21-24.
- Erickson, A.J., Gulliver, J.S., and P.T. Weiss. 2007. Enhanced sand filtration for storm water phosphorus removal. Journal of Environmental Engineering. pp. 485-497. May 2007.
- MNDOT 2005. MnDOT Standard Specifications Book, Division III – Materials, Minnesota Department of Transportation, St. Paul, Minnesota.
- Minnesota Pollution Control Agency (MPCA). 2008. Minnesota Stormwater Manual, Version 2.
- Rawls, W. J., Gimenez, D., Grossman, R. 1998. Use of soil texture, bulk density, and slope of the water retention curve to predict saturated hydraulic conductivity. Transaction of the ASAE. Vol. 41(4): 983-988.