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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 518-523Remediation of Black-Odorous Urban Rivers by Using...

Remediation of Black-Odorous Urban Rivers by Using Biostimulants Combined with Low Intensity Aeration

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Abstract:

Abstract. Biostimulant and low intensity aeration were used to restore black-odorous water body in Zhupai Creek, Nanning. After 60 days’ experiment, results showed that the removal rate of CODCr、NH3-N and TP were 46.8%、98.7%and 73.3% respectively. The pH value of overlying water changed from 7.61 to 7.92 which would be beneficial to the release of P in the sediment. And the reduction of sediment reached to 5.49 cm. Hence, the remediation effects and speed of biostimulants to the black-odorous urban rivers can be improved greatly by using low intensity aeration.

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Advances in Environmental Science and Engineering

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Periodical:

Advanced Materials Research (Volumes 518-523)

Pages:

1784-1789

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.518-523.1784

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Online since:

May 2012

Authors:

Zhan Bo Hu, Cheng Liu, Quan Neng Zhou, Chun Hui Wu, Wei Ling Tu, Yi Cong Liang

Keywords:

Biostimulants, Black-Odorous, Low Intensity Aeration, Urban River, Zhupai Creek

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© 2012 Trans Tech Publications Ltd. All Rights Reserved

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[1] J.D. Luo, FANG BR. Shanghai Environmental Sciences, 1983(5):6-8. (In Chinese)

[2] X.L. Li, P.C. Zhang, H.C. Yu. Environmental Protection Science, 2003, 29(5): 27-28. (In Chinese)

[3] Y.M. Xiong. Railway Occupational Safety Health and Environmental Protection, 2004, 31(3): 131-133. (In Chinese)

[4] S. Zhang, Y.C. Xiong, X.H. Wu, et al. Water and wastewater engineering, 2010, 36(2): 31-35. (In Chinese)

[5] T. Wu, B.B. Liu. Industrial safety and environmental protection, 2010, 36(3): 27-30. (In Chinese)

[6] J.B. Xiao, L.Q. Zhang, Y.C. Cao. China Water and Wastewater, 2007, 23(12): 51-53. (In Chinese)

[7] H.Y. Lei, G.W. Yu, G.L. Liu, et al. Journal of Sun Yatsen University (Science edition), 2007, 46(3): 134-136(In Chinese)

[8] Y. Wang, J. Cheng, M.S. Huang. Water Purification Technologies, 2006, 25(2): 6-10. (In Chinese)

[9] Y. Yuan, S. Zhou, L. Zhuang. Journal of Soils and Sediments, 10(7): 1427-1433.

[10] G. Luo, J. Liu, H.P. Hu. Environmental Sciences and Management, 2009, 34(2): 115-118. (In Chinese)

[11] F.X. Liu, Z.S. Fu, X.F. Song, et al. Sichuan environment, 2009, 28(5): 36-40. (In Chinese)

[12] J. Xi, H.R. Shi. Theories and practices of in-situ remediation to sediments in black-odour water by using biological enzymes. Collected Papers of the 13th World Lake Conference(volume III). 2009, China Agricultural University Press: Wuhan. 2194-2196. (In Chinese)

[13] L.Vezzulli, C.Pruzzo, M. Fabiano. Marine Pollution Bulletin, 2004, 49(9-10): 740-751.

DOI: 10.1016/j.marpolbul.2004.05.010

[14] Y.F. Fang, G.T. Huang, F.K. Lin, et al. Water Purification Technologies, 2005, 24(2): 5-8. (In Chinese)

[15] A.E. Smith, K. Hristova, I. Wood, et al. Environmental health perspectives, 2005, 113(3): 317.

[16] M.Tejada, C. Benetez, I. Gemez, et al. Applied Soil Ecology, 49(0): 11-17.

[17] S. Abdulsalam, A.B. Omale. Brazilian Archives of Biology and Technology, 2009, 52(3): 747-754.

[18] L.J. Lu. Application of bio-stimulant to the remediation of pollution sediment. Shanghai: Donghua University, 2008. (In Chinese)

[19] L.J. Lu, Y.J. Sun, X.P. Li, et al. Environmental science survey, 2007, 26(6): 49-53. (In Chinese)

[20] E. Alp, C.S. Melching. Journal of Environmental Management, 92(6): 1577-1583.

[21] B. Pimpunchat, W.L. Sweatman, G.C. Wake, et al. Applied Mathematics Letters, 2009, 22(3): 304-308.

[22] K.E. Lindenschmidt, P.F. Hamblin. Water Research, 1997, 31(7): 1619-1628.

[23] J.A. Duffie, W.A. Beckman. NASA STI/Recon Technical Report A, 1980, 81: 16591.

[24] G.R. Rogers. Aire-O2 News, 1990, 7(1): 4-5.

[25] I. Griffiths, P. Lloyd. Effluent & water treatment journal, 1985, 25(5): 165-169.

[26] W.Y. Xiong, Y.L. Li. Sichuan Environment, 2004, 23(2): 34-36. (In Chinese)

[27] W. Shen , X. P. Li, C. J. Sun, et al.. China Water and Wastewater, 2009, 25(1): 57-59 (In Chinese)

[28] S. Wood, S.T. William, W.R. White, et al. Wat. Sci. Technol. , 1983, 15: 191-198.

[29] T.L. Ying, G.Y. Zhang, X.X. Wu. Shanghai Environmental Sciences, 1997(1): 23-26. (In Chinese)

[30] Y.P. Zhu. Water Purification Technologies, 2010, 29(5): 53-56. (In Chinese)

[31] X.M. Hao, Z.B. Hu, C. Liu, et al. Journal of East China Normal Unversity(Science edition), 2011(1): 163-171. (In Chinese)

[32] National Environmental Protection Agency. Water and wastewater monitoring and analyzing methods. 4th edition. Beijing: China Environmental Science Publication, 2002. (In Chinese)

[33] X.H. Liu, Y.T. Gao, J.G. Chen, et al. Yunnan Environtal Science, 2006, 25(1): 44-46. (In Chinese)

[34] L.J. Hou, M. Liu, S.Y. Xu. Shanghai Environmental Sciences, 2003, 22(4): 258-260. (In Chinese)