International Journal of Energy and Sustainable Development
Articles Information
International Journal of Energy and Sustainable Development, Vol.1, No.1, Dec. 2016, Pub. Date: Jan. 21, 2017
Experimental Investigation of Vertical Purification Capacity of Different Lithologies in the Unsaturated Zone of Riverbed
Pages: 6-16 Views: 1999 Downloads: 712
[01] Zhou Yuexian, Henan Jinyang Ecological Engineering Co., ltd, Zhengzhou, China.
[02] Xing Shuo, .
[03] Lv Liugen, School of Civil Engineering and Architecture, Jiaxing University, Jiaxing, China.
With test simulation of unsaturated zone under the condition of different lithologies such as sand, gravel, sandy soil, clay soil, the paper discusses the vertical purification capacity of unsaturated zone of riverbed of different pollutants, provides scientific experimental basis for delineating Water Source Protection Areas for Groundwater in Luoyang City.
Different Lithologies, Vertical Purification, Unsaturated zone, Filtration, Experimental Investigation
[01] R. W. McDowell, N. Cox, C. J. Daughney, D. Wheeler, and M. Moreau. 2015. A nitional assessment of the potential linkage between soil, and surface and groudwater concentrations of phosphorus. Journal of the American water resources association, Vol. 51, pp. 993-1002.
[02] Abbasi M. K., Hina M., Tahir M. M. 2011. Effect of Azadirachta indica (neem), sodium rhiosuphate and calcium chloride on changes in nitrogen transformations and inhibition of nitrification in soil incubated under laboratory conditions. Chemosphere, Vol. 82, pp. 1629-1635.
[03] Babatunde A. O., Zhao Y. Q., O’ Neili M., O’Sullivan B. 2008. Constructed wetlands for environmental pollution control: A review of developments, research and practice in Ireland [J]. Environment International, Vol. 34, pp. 116-126.
[04] Benjanmin M., Sletten R., Bailey R., Bailey R. P., Bennett T. 1996. Sorption and filtration of metals using iron-oxide-coated sand. Water Research, pp. 2609-2620.
[05] Borin M., Passoni M., Thiene M., Tempesta T. Multiple functions of buffer strips in farming area. 2010. European Journal of Agronomy, 2010, Vol. 32, Issue 2, pp. 103-111.
[06] Borin M., Vianello M., Morari F., Zanin G. 2005. Effectiveness of buffer strips in removing pollutants in runoff from a cultivated field in North-East Italy. Soil Biology and Biochemistry, Vol. 102, Issue 1-2, pp. 101-114.
[07] Chang W. S., Hong S. W., Park J. 2002. Effect of zeolite media for the treatment of textile wastewater in a biological aerated filter. Process Biochenmistry, Vol. 37, Issue 7, pp. 693-398.
[08] Chung S. J., Ahn H. K., Oh J. M., Choi I. S., Chun S. H., Choung Y. K. 2010. Comparative analysis on reduction of agricultural non-point pollution by riparian buffer strips in the Paldang Watershed. Desalination and Water Treatment, Vol. 16, Issue 1-3, pp. 411-426.
[09] Kenneth E. Mc Connell. Valuing discrete improvements in drinking water quality through revealed preferences. 2000. Water Resources Research, Vol. 36, Issue 6, pp. 1575-1582
[10] Townsend A. R., Vitousek P. M., Trumbore S. E. 1995. Soil organic matter dynamics along gradients in temperature and land use on the island of Hawaii. Ecology, Vol. 76, pp. 721-733.
[11] Vassolo S. 1998. Determination of a well head protection zone by stochastic inverse modeling. Journal of Hydrology, Vol. 206, pp. 268-280.
[12] Hatt B. E., Fletcher T. D., Deletic A. 2009. Hydrologic and pollutant removal performance of stormwater biofiltration systems at the field scale. Journal of Hydrology, Vol. 365, pp. 310-321.
[13] Hatt B. E., Fletcher T. D., Deletic A. 2008. Hydrologic and pollutant removal performance of fine media stormwater filtration systems. Environmental Science and Technology, Vol. 42, pp. 2535-2541.
[14] Hayakawa A., Nakata M., Kuramochi K. 2012. Spatial variation of denitrification potential of grassland, windbreak forest, and riparian forest soils in an agricultural catchment in eastern Hokkaido, Japan. Ecological Engineering, Vol. 47, pp. 92-100.
[15] Adekalu K., Olorunfemi I., Osunbitan J. 2007. Grass mulching effect on infiltation, surface runoff and soil loss of three agricultural soils in Nigeria. Bioresource Technology, Vol. 98, pp. 912-917.
[16] Adejuwon J. O., Ekanade O. 1988. A comparion of soil properties under different land use types in a part of Nigerian Cocoa Belt. Catena, Vol. 15, pp. 319-331.
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