Authors: Debabrata Mazumder

Abstract:

Constructed and natural wetlands are being used extensively to treat different types of wastewater including the domestic one. Considerable removal efficiency has been achieved for a variety of pollutants like BOD, nitrogen and phosphorous in the wetlands. Wetland treatment appears to be the best choice for treatment or pre-treatment of wastewater because of the low maintenance cost and simplicity of operation. Wetlands are the natural exporters of organic carbon on account of decomposition of organic matter. The emergent plants like reeds, bulrushes and cattails are commonly used in constructed wetland for the treatment process providing surface for bacterial growth, filtration of solids, nutrient uptake and oxygenation to promote nitrification as well as denitrification. The present paper explored different scopes of organic matter (BOD), nitrogen and phosphorous removal from wastewater through wetlands. Emphasis is given to look into the soil chemistry for tracing the behavior of carbon, nitrogen and phosphorus in the wetland. Due consideration is also made to see the viability for upgrading the BOD, nitrogen and phosphorus removal efficiency through different classical modifications of wetland.

Keywords: BOD removal, modification, nitrogen removal, phosphorous removal, wetland.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1089653

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 2689

References:

[1] Rune Bakke, Bioreactor and wetland combinations. Telemark University College, Porsgrunn, Norway, 2001.
[2] Shulin Chen, Guang Te Wang, and S. K. Xue, "Modeling BOD removal in constructed wetlands with mixing cell method,” Journal of Environmental Engineering, ASCE, vol. 125, no. 1, pp. 64-71, Jan. 1999.
[3] Y. Comeau, J. Brisson, J. P. Reville, C. Forget, and A. Drizo, "Phosphorus removal from trout farm effluents by constructed wetlands,” Water Science and Technology, vol. 44, no. (11 – 12), pp. 55 – 60, 2001.
[4] Torbjörn Emil Davidsson, and Ståhl Mattias, "The influence of organic carbon on nitrogen transformation in five wetland soils,” Soil Science Society of America Journal, vol. 64, pp. 1129 – 1136, 2000.
[5] William F. Debusk, "Wastewater Treatment Wetlands: Applications and Treatment Efficiency,” Institute of Food and Agricultural Sciences, University of Florida, USA, 1999.
[6] B. Gruneberg and J. Kern, "Phosphorus retention capacity of iron-ore and blast furnace slag in subsurface flow constructed wetlands,” Water Science and Technology, vol. 44, no.11 – 12, pp. 69 – 75, 2001.
[7] A. S. Juwarkar, B. Oke, A. Juwarkar and S. M. Patnaik, "Domestic wastewater treatment through constructed wetland in India,” Water Science and Technology, vol. 32, no 3, pp. 291–294, 1995.
[8] R. H. Kadlec and R. L. Knight, Treatment Wetlands. Lewis-CRC Press, Boca Raton, Florida, USA, 1996.
[9] S. Kantawanichkul, P. Neamkam and R. B. E. Shutes, "Nitrogen removal in a combined system: vertical vegetated bed over horizontal flow sand bed,” Water Science and Technology, vol. 44, no. (11 - 12), pp. 137 – 142, 2001.
[10] Kevin D. White, "Enhancement of nitrogen removal in subsurface flow constructed wetlands employing a 2-stage configuration, an unsaturated zone, and recirculation,” Water Science and Technology, vol. 32, no.3, pp. 59 – 67, 1995.
[11] V. Kuusements, U. Mander, K. Lohmus and M. Ivask, "Nitrogen and Phosphorus variation in shallow groundwater and assimilation in plants in complex riparian buffer zones,” Water Science and Technology, vol. 44, no. (11 – 12), pp. 615 – 622, 2001.
[12] Chao-Xiang Liu, Hu Hong-Ying, Huang Xia, Shi Hang-chang, Qian Yi and Koichi Fujie, "Performance of a combined constructed wetland system for treating village sewage in Lake Dianchi Valley,” Journal of Water and Environment Technology, vol.2, no. 2, pp. 49 – 56, 2004.
[13] Metcalf and Eddy Inc., Wastewater Engineering, Treatment, Disposal and Reuse, Fourth edition, Tata McGraw Hill Publishers, New Delhi, India, 2003.
[14] M. K. Nnungesser and M. J. Chimney, "Evaluation of phosphorus retention in a South Florida treatment wetland”, Water Science and Technology, vol. 44, no. (11 – 12), pp. 109 – 115, 2001.
[15] A. J. van Oostrom, "Nitrogen removal in constructed wetlands treating nitrified meat processing effluent,” Water Science and Technology, vol. 32, no.3, pp. 137 – 147, 1995.
[16] Curtis J. Richardson and Mark R. Walbridge. Soil chemistry and phosphorus retention capacity of North Carolina coastal plain swamps receiving sewage effluent, School of Forestry and Environmental Studies, Report 241, Duke University, November, 1998.
[17] H. Rustige and Chr. Platzer, "Nutrient removal in subsurface flow constructed wetlands for application in sensitive regions,” Water Science and Technology, vol. 44, no. (11 – 12), pp. 149 – 155, 2001.
[18] Robert W. Seabloom, University Curriculum Development for Decentralized Wastewater Management. A preliminary report on natural systems constructed wetlands. University of Washington, USA, September, 2002.
[19] Robert W. Seabloom, University Curriculum Development for Decentralized Wastewater Management, A critical review on wetland treatment processes. University of Washington, USA, September, 2003.
[20] K. Seidel, "Macrophytes and Water Purification,” Biological Control of Water Pollution, Editors J. Tourbier and R. W. Peterson Jr., University of Pennsylvania Press, Philadelphia, USA, 1976.
[21] Andrew Sharpley, "Fate and transport of nutrients : Phosphorus,” Working paper No.8, United States Department of Agriculture, Agricultural Research Service, National Agricultural Water Quality Laboratory, Durant, Oklahoma, USA, October, 1995.
[22] R. R. Shrestha, R. Haberl, Manandhar J. R. Laber, and J. Mader, "Application of constructed wetlands for wastewater treatment in Nepal,” Water Science and Technology, vol. 44, no. (11 – 12), pp. 381 – 386, 2001.
[23] Steven T. Summerfelt, Paul R. Adler, Michael Glenn and Ricarda N. Krestschmann, "Aquaculture Sludge Removal and Stabilization within Created Wetlands (using Vetivier Grass),” News Letter No. 16, The Conservation Fund’s Freshwater Institute, West Virginia, USA, November, 1996.
[24] Sandeep T. Tayade, Ajay R. Ojha, Rakesh Kumar and R. N. Singh, (2005, May). Feasibility Study of Constructed Wetland for Treatment of Municipal Wastewater. Green Page, Available in website http://www.eco-web.com.
[25] Ing. Sylvia Toet, A treatment wetland used for polishing tertiary effluent from a sewage treatment plant. Ph.D. dissertation submitted to Universiteit Urecht, The Netherland, September, 2003.
[26] Zhu Tong and F. J. Sikora, "Ammonium and nitrate removal in vegetated and unvegetated gravel bed microcosm wetlands,” Water Science and Technology, vol. 32, no. 3, pp. 219 – 228, 1995.
[27] United States Environmental Protection Agency, Constructed Wetlands Treatment of Municipal Wastewaters. National Risk Management Research Laboratory, Office of Research and Development, EPA/625/R/010, September Cincinnati, OH, USA, 1999.
[28] United States Environmental Protection Agency, Wastewater Technology Fact Sheet: Free Water Surface Wetlands. Office of Water, Washington, D.C., USA, EPA 832-F-00-24, September, 2000.
[29] L. Wang, J. Peng, B. Wang and R. Cao, "Performance of a combined eco-system of ponds and constructed wetlands for wastewater reclamation and reuse,” Water Science and Technology, vol. 51, no 12, pp. 315–323, 2005.
[30] Hans B. Wittgren and Scott Tobiason, "Nitrogen removal from pretreated wastewater in surface flow wetlands,” Water Science and Technology, vol. 32, no 3, pp. 69–78, 1995.