Paper Titles

Part of the Town Sewage Treatment Plants Investigation and Analysis of Current Situation of Guizhou Province
p.364

Problems of Water Quality Management in Marine Nature Reserve of Fujian Province and the Countermeasures
p.369

Progress of the Research of Nitrogenous Disinfection By-Products Haloacetonitriles (HANs) in Drinking Water
p.374

Progress on OCPs and Chronic Disease
p.383

Research Development on Constructed Wetlands
p.388

Research on the Pattern of Comprehensive Improvement of Small Watershed Pollution in Guangxi Province
p.394

Research for Water Quality Problems of Power Plant Circulating Cooling Water Source Heat Pump System in the Cold and Severe Cold Regions
p.399

Risk Assessment of Heavy Metal Pollution by Three Plants at Zihu River in Nanjing, China
p.403

Risk Control Measures for Environmental Protection of Guangxi Coastal Waters
p.409

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 535Research Development on Constructed Wetlands

Research Development on Constructed Wetlands

Article Preview

Abstract:

Constructed wetland is a mode of economical and highly effective system applied in wastewater treatment with special removal mechanism function, which has drawn much attention over the world constantly. On the basis of study from abroad, this article makes the brief induction of removal mechanism, influential factors and combined technique of constructed wetlands, for the further research works were also put forward in the next future.

You might also be interested in these eBooks

Energy Engineering and Environment Engineering

Info:

Periodical:

Applied Mechanics and Materials (Volume 535)

Pages:

388-393

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.535.388

Citation:

Cite this paper

Online since:

February 2014

Authors:

Lu Mei Qin, Hong Hu Zeng*, Yan Peng Liang

Keywords:

Combined Technique, Constructed Wetland, Influential Factor, Removal Mechanism

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2014 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] X. Li, Characteristic and ecological significance of constructed wetlands, J. Jiangsu, Productivity Promotion Center, 31(2011)128-128.

[2] R. Chen, S.Y. Liu, C. Qiu, Purification mechanization and influencing factors on the domestic sewage, J. Guangdong Chemical industry, 20(2013)20-27.

[3] Y. Zhu, G.X. Li, Y.X. Yang, Research progress of constructed wetland removal pollutants model, J. Journal of Anhui Agricultural Sciences, 15(2010)8138-8140.

[4] G. Sun, K. R Gray, A.J. Biddlestone, Effect of effluent recirculation on the performance of a reed bed system treating agricultural wastewater, J. Process Biochemistry, 39(2003)351-357.

DOI: 10.1016/s0032-9592(03)00075-x

[5] J.F. Li, Y. Xie, B. Tian, Constructed wetland purification mechanism analysis of sludge treatment system, J. Heilongjiang Science and Technology Information, 22(2013)75-75.

[6] Y.L. Zhu, Research progress and application of phytoremediation for heavy metal contaminated soil, J. Huber Agricultural Sciences, 06(2010)1495-1499.

[7] D. Hu, W.Q. Chen, Research progress on the soil heavy metal pollution status and phytoremediation, J. Journal of Anhui Agricultural, 05(2011)2706-2707.

[8] Z.J. Wei, J.P. Xie, Y.M. Huang, Effect of the subsurface constructed wetland evolution into free surface flow constructed wetland on the removal of organic matter nitrogen, and phosphor in wastewater, J. Environmental Science, 11(2012)3812-3819.

DOI: 10.17077/etd.jd4ll2e7

[9] L. Zhang, L.B. Man, L.L. Li, Constructed wetland compared with traditional wastewater treatment technology, J. Heilongjiang Science and Technology Information, 24(2013)74-74.

[10] Y. Zhang, L.J. Cui, W. Li, Modeling phosphorus removal in horizontal subsurface constructed wetland based on principal component analysis, J. Transactions of the Chinese Society of Agricultural Engineering, 29(2013)200-207.

[11] X.Y. Zhao, J.C. Yang, S. Qin, The technique of constructed wetland system research prospects, J. Wetland Science and Management, 02(2013)45-53.

[12] G.G. Cai, Research of rural domestic sewage treatment by constructed wetlands in southern region of china, J. Huazhong Agricultural University, 05(2012).

[13] M. Wang, M. Tao, J.J. Qu, Study on optimization of operating condition in constructed wetland enhanced nitrogen removal System, J. Journal of Hubei Polytechnic University, 05(2013) 2095-2100.

[14] T. Xie, The study of horizontal flow constructed wetland and vertical flow constructed wetland to treat river pollution, J. Ocean University of China, (2012)76-115.

[15] W. Pan, F.L. Wang, L.J. Ren, Effect of aerations pattern on the sewage purification capacity of series-operated subsurface flow constructed wetlands, J. Environmental Pollution and Control, 08(2013)45-49.

[16] H.X. Zhang, J. Wang Constructed wetland technology in the application of the rural sewage treatment, J. Henan Building Materials, 03(2013)56-73.

[17] G.C. Zheng, X.N. Fan Y.P. Li. The artificial wetland research progress and application in cold region, J. The Water Ecological Environment, 11(2012)52-59.

[18] P.L. Hou, Z.J. Li, B. Qi, Constructed wetland wastewater treatment technology and its application in the practice of qinghai province, J. Journal of Qinghai Environment, 03(2013)149-153.

[19] J. Zhu, H.B. Chen, Discussion on constructed wetlands clogging, J. China Water and Wastewater, 06(2009)24-28.

[20] C. Ye, J.F. Ye,W. Han, Exploration of Mechanism in Clogging Problems for Constructed Wetlands, J. Water Purification Technology, 4(2012)43-48.

[21] X.P. Liu, F. Yao, M.F. Wang, Constructed wetland congestion causes and solutions, J. Resources Economization Environment Protection, 2(2013).