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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 726-731Characteristics of Cu2+ Adsorption by Modified...

Characteristics of Cu²⁺ Adsorption by Modified Rice Straw

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Abstract:

In this paper, modified rice straw was investigated for its Cu²⁺removal ability from aqueous solution. The effects of environmental factors on metal biosorption were studied under static state, including initial concentration of metal ions, sorption time, initial pH value and adsordent dosage. In addition, the relevant equilibrium, kinetics were discussed. The results showed that the rice straw which was modified by NaOH had been improved greatly in its Cu²⁺removal ability. The rice straw had good effects on adsorption of low concentration of Cu²⁺ solution. The adsorption data fit Langmuir isotherm model well, the maximum adsorption capacity for Cu²⁺ reached 8.48 mg·g^-1. The adsorption of Cu²⁺ on the modified rice straw was a very rapid process, the kinetics fit a pseudo-second-order equation well. The pH value had prominent effect on the removal rate of Cu²⁺, adsorption efficient could reach over 92% when pH value was between 5 and 6.5. With increasing adsordent dosage, the removal rate of Cu²⁺ increased.

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Periodical:

Advanced Materials Research (Volumes 726-731)

Pages:

2622-2628

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.726-731.2622

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Online since:

August 2013

Authors:

Ming Da Liu, Lei Guo, Jun Yang, Yao Jing Wang*

Keywords:

Adsorption, Cu²⁺, Kinetic, Modified Rice Straw

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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[1] Yuyun Bi, Chunyu Gao, Yajing Wang et al: Transactions of the CSAE, Vol.5 (2009), pp.211-217, In Chinese.

[2] Yuyun Bi, Chunyu GaoO, Yajing Wang et a1: Journal of Agricultural Mechanization, Vol.3 (2010), pp.1-7, In Chinese.

[3] Wong K K, Lee C K, Low K S, et al: Chemosphere, Vol.50(2003), p.23–28.

[4] Marshall W E, Wartelle L H, Boler D E, et al: Bioresource Technology, Vol.69(1999), pp.263-268.

[5] Brown P, Jefcoat I A, Parrish D, et al: Advances in Environmental Research, Vol.4(2000), p.19–29.

[6] Zhu Bo, Fan Tongxiang, Zhang Di: Journal of Hazardous Materials, Vol.153(2008), p.300–308.

[7] Dang V B H, Doan H D, Dang-Vu T, et al: Bioresource Technology , Vol.100(2009), p.211–219.

[8] Šciban M, Klašnja M, Škrbic B: Desalination ,Vol.229(2008), p.170–180.

[9] Al-asheh S, Banat F, Al-omari R, et al: Chemosphere ,Vol.41(2005), pp.659-665.

DOI: 10.1016/s0045-6535(99)00497-x

[10] Ghodbane Ilhem, Nouri Loubna, Hamdaoui Oualid, et al: Journal of Hazardous Materials, Vol.52(2008 ), pp.148-158.

[11] Shufang Lou, Feng Mao, Hongling Li et a1: Journ al of Anhu iAgr.i Sci, Vol.36(2008), pp.8801-8802&8866, In Chinese.

[12] Jianmei Yang, Hui Gao, Ting Li, et a1: Environmental Science & Technology, Vol.32(2009), pp.78-82, In Chinese.

[13] Jun Yang, Yulong Zhang, DanYang et al: Research of Environmental Sciences, Vol.25(2012), pp.815-819, In Chinese.

[14] Shidan Bao: Soil agro-chemistry analysis (China Agriculture Press The Third Edition, Beijing 2000), In Chinese.

[15] Haobo Zhen, Yongyou Hu, Jianhua Cheng: Acta Scientiae Circumstantiae,,Vol.3(2011), pp.1369-1376, In Chinese.

[16] Jiyi Zhang, Liping Liang, Lijun Pu et a1: Research of Environmental Sciences, ,Vol.23(2010), pp.1546-1552, In Chinese.

[17] Guany A, Arslankaya E, Tosun I: Journal of Hazardous Materials,Vol.146(2007), pp.362-371.

[18] Ho Y S, Mckay: Process Safety and Environmental Protection, Vol.76(1998), pp.32-340.

[19] Bektas N, Agim B A, Kara S: Journal of Hazardous Materials, Vol.112(2004), pp.115-122.

[20] Ho Y S, McKay G: Process Biochemistry, Vol.34(1999), pp.451-465.

[21] Ho Y S, McKay G: Water Research, Vol.34(2000), pp.735-742.

[22] WANG J L, CHEN C: Biotechnology Advances, Vol.24(2006), pp.427-451.

[23] Larous S, Meniai A H, Lehocine M B: Desalination, Vol.185, (2005), p.3–490.

[24] Asmal M, Khan A H, Ahmad S, et al: Water Research, Vol.32, (1998), p.85–3091.