Paper Titles

Research on the Driving Force Factors of Development of Low Carbon of Urban Transportation: Taking Tianjin as an Example
p.1115

Study on Security Risk of Impounding Safety in China's Small Reservoir
p.1119

High Cr(VI) Adsorption Performance of Coal-Based Activated Carbon in Aqueous Solution
p.1123

Research on the Construction of Low-Carbon City for Beijing Based on Energy Consumption and Energy Intensity
p.1128

Progress of Microbial Removal of Arsenic from Wastewater
p.1134

Microbial Biomass and Enzyme Activities in Chromium and Lead-Contaminated Sediments
p.1139

The Forecasts Study of City Economy and Cyclic Integrating Development
p.1144

Assessment on Industrial Land-Use Fitness in a Resource Based Town
p.1148

Research on Life Cycle Cost Modular Evaluation System of Green Building Materials: Based on Entropy Decision Making Method
p.1152

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 798-799Progress of Microbial Removal of Arsenic from...

Progress of Microbial Removal of Arsenic from Wastewater

Article Preview

Abstract:

The traditional technology of arsenic removal had been limited owing to their higher environmental requirements. But biological methods, especially microbial technology,had been the most promising technology because of its environment friendliness. This article analyzed and explored the mechanism and the latest research of microbial removal of arsenic. Based on the findings of the present situation, the research direction keys of this method were put forward.

You might also be interested in these eBooks

Advances in Applied Science and Industrial Technology

Info:

Periodical:

Advanced Materials Research (Volumes 798-799)

Pages:

1134-1138

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.798-799.1134

Citation:

Cite this paper

Online since:

September 2013

Authors:

Bo Meng, Cun Zhen Geng

Keywords:

Arsenic, Microbe, Wastewater Containing Arsenic

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2013 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] Feng Gao, et al. Journal of Salt Lake Research，2010，18（1）：53-57. (in Chinese).

[2] Xiaojian Zhang. China Water, 2008；（1）. (in Chinese).

[3] Lijun Han, et al. Journal of Qingdao University(Natural Science Edition)，2004，19(1)：87-92. (in Chinese).

[4] Bingyi Feng. Public Utilities，2010，24（1）：21-23. (in Chinese).

[5] Quan Zhou, Yao Zhang. Science＆Technology Information, 2010，19：792-803. (in Chinese).

[6] Aizhong Ding, et al. Journal of Anhui Agri. Sci., 2008，3（27）： 11979-11982. (in Chinese).

[7] Robert M, Berthelin J. Soil Science Society of America, 1986, Special Publication: 453-465.

[8] Jiyan Shi, et al. China Environment Science, 2004, 24(3): 316-319. (in Chinese).

[9] Jia Wu, et al. Environment Science, 2011，32（3）：817-824. (in Chinese).

[10] Xingsheng Kang, et al. Journal of Shangdong Jianzhu University，2011，26（4）：392-395. (in Chinese).

[11] Yuan Li, et al. Environmental Science & Technology，2009，32（6C）：144-149. (in Chinese).

[12] Xianchn Jin. Chemical Engineering，2009, 12（37）：17-21. (in Chinese).

[13] Liao Min. Environmental Pollution & Control, 1997, 19(2): 11-13. (in Chinese).

[14] Murugesan G S, Sathishkumar M, Swaminathan K. Biocrsour Technol, 206, 97(3): 483-487.

[15] Ridvans I S, Nalan Y, Adii D. Sep Sci Technol, 2003, 38(9): 2039—(2053).

[16] Yun Ti, et al. Liaoning Chemical Industry, 2008，37（9）：629-631. (in Chinese).

[17] Yaqin Li, et al. Transactions of Nonferrous Metals Society of China，1994（2）：24-25. (in Chinese).

[18] Qin J, et al. Proceedings of the National Academy of Sciences, 2006, 103(7): 2075-(2080).

[19] Voegelin A. Hug S J. Environmental Science& Technology, 2003，37(5): 972-978.

[20] Rosen B. FEBS Letter，2002，529（1）：86-92.

[21] Huaming Guo, et al. Earth Science Frontiers，2008，15（5）：317-323. (in Chinese).

[22] F Busetti, et al. Chem Res, 2005, 44: 9264-9272.

[23] Santini JM. et al. Geomicrobiology Journa1, 2002, 19(1): 67—76.

[24] Duquesne K, et al. Applied and Environmental Microbiology, 2003, 69(10): 6165-6169.

[25] Anderson C R, Cook G M. Current Microbiology，2004, 48(5): 341-347.

[26] Maniatis and T Pickett. Arsenic Metallurgy, 2005, (2): 209-214.

[27] Jianhua Ni. Foreign Medical Sciences(Section of Blood Transfusion and Heanatology)，1997，20（4）：210-213. (in Chinese).

[38] Yanzhi Su, et al. Sichuan Environment，2006，25（4）：68-71. (in Chinese).

[29] Kai Zhao, et al. Journal of Huazhong Agriculture University，2011，30(1)：88-93. (in Chinese).

[30] Ioannis A, et al. Water Research, 2004, 38(1): 17-26.

[31] Agely A, et al. Journal of Environmental Quality, 2005, 34(6): 2181-2186.

[32] Ahmed F, Killham K, Alexander I. Plant Soil, 2006, 258 (1-2) : 33 - 41.

[33] Liu Y, Zhu Y, Chen B, et al. Mycorrhiza, 2005, 15(3): 187-192.

[34] Xianjun Jiang, et al. Journal of Southwest Agricultural University, 2000, 22(2): 116-119. (in Chinese).

[35] Cuifei Lian, et al. Acta Phytopathologica Sinica, 2007, 37(2): 197-203 . (in Chinese).

[36] Phillips D A, Fox T C, King M D, et al. Plant Physiology, 2004, 136(1): 2887-2894.

[37] Yanli Li, Lin KE. Agicultural Science＆Technology, 2012, 13(6): 1303-1308, 1327.