Volumetric Filtration of Rainfall Runoff. II: Event-Based and Interevent Nutrient Fate
This article is a reply.
VIEW THE ORIGINAL ARTICLEThis article has a reply.
VIEW THE REPLYPublication: Journal of Environmental Engineering
Volume 136, Issue 12
Abstract
This study examines in situ phosphorus treatment using a combined unit operation and process, a volumetric clarifying filter (VCF). Urban rainfall-runoff transports phosphorus in dissolved and particulate phases with the latter phase distributed across the particulate matter (PM) gradation. From a clean initial condition, the VCF was monitored across 19 events without maintenance, to examine partitioning and phosphorus distribution on PM. For the monitoring period, site influent total phosphorus (TP) is 0.342 mg/L of which 0.081 mg/L is dissolved; and subsequently reduced to 0.095 and 0.031 mg/L, respectively, by the VCF. PM-bound phosphorus is categorized as suspended, settleable and sediment fractions based on PM size and separation behavior. Site influent PM-based concentrations (mg/g) are 0.22 for sediment, 0.42 for settleable and 3.27 for the suspended fraction with each fraction further enriched in the VCF, based on effluent monitoring. A categorical analysis and odds ratio testing of PM-based phosphorus specific capacities (mg/g) indicate that a significant fraction of phosphorus can bind to suspended PM preferentially over settleable and sediment PM as a PM-based concentration. At the end of the event-based monitoring the inter-event change in phosphorus and nitrogen, chemistry is examined as a function of runoff storage time. Runoff retention generates nitrate reduction and ammonia production; predominately as ammonium. Phosphorus partitioning is stable during runoff storage with a dissolved fraction between one fourth to one-third of TP. Predominant species are for a and for a .
Get full access to this article
View all available purchase options and get full access to this article.
References
American Public Health Association (APHA). (1998). Standard methods for the examination of water and wastewater, A. D. Eaton, L. S. Clesceri, and A. E. Greenberg, eds., 20th Ed., Washington, D.C.
ASTM. (1993). “Standard practice for dry preparation of soil samples for particle size analysis and determination of soil constants.” D421-85, West Conshohocken, Pa.
Berkheiser, V. E., Street, J. J., Rao, P. S. C., and Yuan, T. L. (1980). “Partitioning of inorganic orthophosphate in soilwater systems.” Crit. Rev. Environ. Control, 10(3), 179–224.
Compton, J., Mallinson, D., Glenn, C. R., Filippelli, G., Follmi, K., Shields, G., and Zanin, Y. (2000). Variations in the global phosphorus cycle, Vol. 66, SEPM, Tulsa, Okla., 21–33.
Correll, D. L. (1998). “The role of phosphorus in the eutrophication of receiving waters: Review.” J. Environ. Qual., 27(2), 261–266.
Dean, C. M., Sansalone, J. J., Cartledge, F. K., and Pardue, J. H. (2005). “Influence of hydrology on storm water metal element speciation at the upper end of the urban watershed.” J. Environ. Eng., 131(4), 632–642.
Erickson, A. J., Gulliver, J. S., and Weiss, P. T. (2007). “Enhanced sand filtration for storm water phosphorus removal.” J. Environ. Eng., 133(5), 485–497.
Garn, H. S. (2002). “Effects of lawn fertilizer on nutrient concentration in runoff from lakeshore lawns.” Rep. No. 02-4130, Water Resources Investigations-USGS, Lauderdale Lakes, Wis.
Gunduz, L., Sariisik, A., Tozacan, B., Davraz, M., Ugur, I., and Cankiran, O. (1998). Pumice technology, Vol. 1, ISBAS A.S. and SDU College of Engineering, Isparta, Turkey.
Han, J. S., Hur, N., Choi, B., and Min, S. -H. (2003). “Removal of phosphorous using chemically modified lignocellulosic materials.” Proc., 6th Inter-Regional Conf. on Environment - Water, Land and Water Use Planning and Management, International Commission of Agriculture and Biosystems Engineering, Hokkaido, Japan, 1–11.
Holtan, H., Kamp-Nielsen, L., and Stuanes, A. O. (1998). “Phosphorus in soil, water and sediment: Overview.” Hydrobiologia, 170, 19–34.
Hsieh, C. -H., Davis, A., and Needelman, B. (2007a). “Bioretention column studies of phosphorus removal from urban stormwater runoff.” Water Environ. Res., 79(2), 177–184.
Hsieh, C. -H., Davis, A., and Needelman, B. (2007b). “Nitrogen removal from urban stormwater runoff through layered bioretention columns.” Water Environ. Res., 79(12), 2404–2411.
Huber, W. (1993). “Contaminant transport in surface water.” Handbook of hydrology, D. R. Maidment, ed., McGraw-Hill, New York, 14.1–14.50.
Jenkins, D., Ferguson, J. F., and Menar, A. B. (1971). “Chemical processes for phosphate removal.” Water Res., 5(7), 369–389.
Kim, J. -Y., Ma, J., Howerter, K., Garofalo, G., and Sansalone, J. J. (2007). “Interactions of phosphorus with anthropogenic and engineered particulate matter as a function of mass, number and surface area.” Urban water systems, monograph 11, W. James, ed., CHI Publications, Guelph, Ont., Canada.
Kim, J. Y., and Sansalone, J. J. (2008). “Suspended particle destabilization in retained urban stormwater as a function of coagulant dosage and redox condition.” Water Res., 42(4–5), 902–922.
Kitis, M., Kaplan, S. S., Karakaya, E., Yigit, N. O., and Civelekoglu, G. (2007). “Adsorption of natural organic matter from waters by iron coated pumice.” Chemosphere, 66(1), 130–138.
Kofinas, P., and Kioussis, D. R. (2003). “Reactive phosphorous removal from aquaculture and poultry productions systems using polymeric hydrogels.” Environ. Sci. Technol., 37(2), 423–427.
Liu, D., Sansalone, J. J., and Cartledge, F. K. (2005a). “Comparison of sorptive filter media for treatment of metals in runoff.” J. Environ. Eng., 131(8), 1178–1186.
Liu, D., Sansalone, J. J., and Cartledge, F. K. (2005b). “Adsorption kinetics for urban rainfall-runoff metals by composite oxide-coated polymeric media.” J. Environ. Eng., 131(8), 1168–1177.
Minton, G., Leif, B., and Sutherland, R. (1996), “PNW experience with vegetated (bio)swales.” Stormwater treatment northwest, Vol. 2, Gary Minton, Portland, Ore.
Pretty, J. N., Mason, C. F., Nedwell, D. B., Hine, R. E., Leaf, S., and Dils, R. (2003). “Environmental costs of freshwater eutrophication in England and Wales.” Environ. Sci. Technol., 37(2), 201–208.
Sample, D., and Heaney, J. (2006). “Integrated management of irrigation and urban storm-water infiltration.” J. Water Resour. Plann. Manage., 132(5), 362–373.
Sample, D., Heaney, J., Wright, L., Fan, C. -Y., Lai, F. -H., and Field, R. (2003). “Costs of best management practices and associated land for urban stormwater control.” J. Water Resour. Plann. Manage., 129(1), 59–68.
Sansalone, J., and Kim, J. Y. (2008). “Transport of particulate matter fractions in urban source area pavement surface runoff.” J. Environ. Qual., 37(5), 1883–1893.
Sansalone, J., Liu, B., and Kim, J. (2009). “Volumetric clarifying filtration of urban source area rainfall runoff.” J. Environ. Eng., 135(8), 609–620.
Sansalone, J. J. (1999). “In-situ performance of a passive treatment system for metal source control.” Water Sci. Technol., 39(2), 193–200.
Sawyer, C., and McCarty, P. (1978). Chemistry for environmental engineering, McGraw-Hill, New York, 532.
Seida, Y., and Nakano, Y. (2002). “Removal of phosphate by layered double hydroxides containing iron.” Water Res., 36(5), 1306–1312.
Sharpley, A. N., Daniel, T., Sims, J. T., Lemunyon, J., Stevens, R., and Parry, R. (1999). Agricultural phosphorus and eutrophication, USDA, U.S. GPO, Washington, D.C.
U.S. EPA. (1993). Handbook of runoff pollution, Office of Research and Development, Washington, D.C.
Vaze, J., and Chiew, H. S. F. (2002). “Experimental study of pollutant accumulation on an urban road surface.” Urban Water, 4(4), 379–389.
Welch, E. B. (1992). Ecological effects of wastewater, 2nd Ed., Chapman & Hall, New York.
Wendt, R. C., and Corey, R. B. (1980). “Phosphorus variations in surface runoff from agricultural lands as a function of land use.” J. Environ. Qual., 9(1), 130–136.
Wesley, L. D. (2001). “Determination of specific gravity and void ratio of pumice materials.” Geotech. Test. J., 24, 418–422.
Yao, K. M., Habibian, M. T., and O’Melia, C. R. (1971). “Water and wastewater filtration: Concepts and applications.” Environ. Sci. Technol., 5(11), 1105–1112.
Information & Authors
Information
Published In
Journal of Environmental Engineering
Volume 136 • Issue 12 • December 2010
Pages: 1331 - 1340
Copyright
© 2010 ASCE.
History
Received: Jun 27, 2009
Accepted: Jun 1, 2010
Published online: Jun 3, 2010
Published in print: Dec 2010
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.