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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 777Research Progress and Development of Expanded...

Research Progress and Development of Expanded Graphite in Water Pollution Control

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Abstract:

Expanded graphite is a new porous carbon-based adsorption material with well-developed pore structure and large adsorption capacity for nonpolar molecules pollutants. In this paper, research of the expanded graphite as novel functional carbon material in the fields of environmental remediation of oil pollution and wastewater treatment are reviewed. Based on this, the problems that exist in the current research on expanded graphite in treatment of environmental pollution are analyzed, and the main development trend of research on expanded graphite in the field of water environmental protection is put forward.

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Environmental Biotechnology and Materials Engineering (2013)

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Periodical:

Advanced Materials Research (Volume 777)

Pages:

43-46

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.777.43

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Online since:

September 2013

Authors:

Li Xin Li, Zhi Wei Song, Xian Kui Shi, Wen Ze Kang, Hai Jun Zhang, Hong Li Zhao

Keywords:

Adsorption, Compound Material, Expanded Graphite, Wastewater Treatment

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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[1] N.Z. Cao, W.C. Shen, S.Z. Wen et al, Application of expanded & graphite adsorption material to environmental protection, Environmental Engineering. 14(1996)27-30.

[2] N. Wang, Study on the Removal of Pollutants by Expanded Graphite, Harbin, Harbin Institute of Technology. (2006).

[3] J.H. Zhang, Preparation Methods and Current Situation of Expandable Graphite Used as Environment-friendly Materials, China Non-Metallic Minerals Industry. (2010)15-16.

[4] M. Toyoda, I. Michio, Heavy Oil Sorption using Exfoliated Graphite: New Application of Exfoliated Graphite to Protect Heavy Oil Pollution, Carbon. 38(2000)199-210.

DOI: 10.1016/s0008-6223(99)00174-8

[5] M. Toyoda, M. Kouji, A. Jun-ichi et al, Sorption and Recovery of Heavy Oils by using Exfoliated Graphite Part Ι: Maximum sorption capacity, Desalination. 128 (2000) 205-211.

DOI: 10.1016/s0011-9164(00)00034-5

[6] Denki. Sorption Kinetics of Various Oils Into Exfoliated Graphite, Carbon. 170(1995)298-301.

[7] N.Z. Cao ,W.C. Shen, S.Z. Wen, Affinity adsorption of oil on expanded graphite, Chemical research and application. 9(1997) 54-56.

[8] W. Zhou, H. Zhao, X.F. Hu, et al, Behavior and mechanism of oil sorption on expanded graphitc, Technology of Water Treatment. 27 (2001)335-337.

[9] J.C. Ren, et al, Expanded Graphite, a New Type of Eco-Materials, China non-metallic mining industry herald. (1999)25-26.

[10] N.Z. Cao, , W.C. Shen, C.B. Jin, The removal of oil materials from water by a new type graphite material, China environmental science. 17(1997)188-190.

[11] F.Y. Kang, Y.P. Zheng, H. Zhao, et al, Sorption of heavy oils and biomedical liquids into exfoliated graphite - Research in China, New Carbon Materials. 18(2003)161-173.

DOI: 10.1016/s0008-6223(03)00423-8

[12] N.Z. Cao, W.C. Shen, S.Z. Wen, et al, A study on adsorption prperties of heavy oil on expanded graphite, Carbon. (1996)1-5.

[13] W.C. Shen, N.Z. Cao, S.Z. Wen, et al, A study on the regeneration of expanded graphite after adsorbing heavy oil, Carbon. (1996) l-3.

[14] X.Q. Yue, Study of Sorbing Oil and Recycling of Exfoliated Graphite Mounted with TiO2, Yanshan University. (2006).

[15] H.L. Ren, Study on the Adsorbing Characteristics of ExPanded GraPhite for oil and Phenyl Organic Molecules, Hebei University. (2009).

[16] X. Xu, The Research on Sorption Capacity to the Oils and Recovery Capacity of Exfoliated Graphite, Harbin Instiutte of Teehnology. (2006).

[17] L.I. Yin, Adsorption of Diesel Oil in Seawater and Its Mechanism with Clay Materials and Exfoliate Graphite, QingdaoTechnological University. (2009).

[18] P. Lv, Study on the Preparing Technics and Characteristics of Expanded Graphite and Its Adsorbtion Capacities, Hebei University. (2008).

[19] J. Zhen, B.J. Zhang, X. Xu, et al, Study on the recovery of exfoliate graphite after saturation from sorption, Journal of Harbin Institute of Technology. 38(2006) 1065-1067.

[20] X.Y. Pang, H.L. Ren, F. Gong, et al, Sorption Capacities of Oils on Expanded Graphite or the Regenerative Expanded Graphite, Journal of Hebei University(Natural Science Edition). 28 (2008) 512 - 516.

[21] H. Liu, Study of Microwave Preparation Technology of Exfoliated Graphite and Applied Technology of Oil Spill Adsorption, Yanshan University. (2011).

[22] J.H. Li, Y.Z. Gao, S.F. Liu, et al, Adsorption and decoloration of acid dyes waste water with expanded graphite, Journal of Sichuan University (Natural Science Edition). 44(2007)399-402.

[23] S.F. Liu, J.H. Li, L.N. Yang, Research on Decolorization of Wastewater Containing Direct Dye by Adsorption on Expanded Graphite. Environmental Protection of Chemical Industry. 26 (2006) 182 - 184.

[24] S.F. Liu, J.H. Li, Adsorption and Discoloration of Reactive Brilliant Red X-3B Dye with Expanded Graphite, Urban Environment & Urban Ecology. 19(2006) 23-24.

[25] M. Li, Study on Treatment of Dye Wastewater by Combination of Ultrasound and Exfoliated Graphite, Hebei University. (2008).

[26] C.C. Zhan, X H. Cao, P. Yan, et al, Degradation of methyl orange wastewater by microwave-expanded graphite-fenton reagent synergetic catalytic oxidation process, Technology of Water Treatment. 38(2012)22-25.

[27] J.H. Li, S.F. Liu, Z.X. Jia, et al, Research on Treatment of Pesticide-carrying Wastewater by Expanded Graphite Inlaying with TiO2, Non-Metallic Mines. 30(2007)54-56.

[28] Z.X. Jia, The Preparation of an Exfoliated Graphite Inserting TiO2 and Research for Its Adsorption and Photoactivity, Hebei Normal University. (2006).

[29] X.T. Duan, Z.G. Chen, C.B. Liu, et al, Preparation of Supported Nano-TiO2 Expanded Graphite/Activated Carbon Composite and Its Properties, Materials for Mechanical Engineering. 34(2010)46-49.

[30] H. Chen, Preparation of expanded graphite-based C／C composites by vacuum impregnation and its adsorption property for phenol in wastewater, Jiangsu university. (2011).

[31] T.B. Wang, Z.G. Chen, F. Chen, et al, Preparation of expanded graphite-based carbon/carbon composite electrode and its degradation of phenol, Journal of Functional Materials. 43 (2012) 240 - 243.

[32] S.N. Zheng, R.S. Xie, J.M. Lian, et al, Study on Adsorption of Nitrobenzene onto Expanded Graphite, Journal of Fujian Normal University (Natural Science Edition). 26(2010)50-52.

[33] Y.H. Zhao, C. Jin, D.X. Li, Adsorption of Cr(Ⅵ) in Wastewater on Expanded Graphite, Environmental Science & Technology. 35(2012)149-152.

[34] Y.H. Zhao, D.X. Li, Adsorption characteristics of modified expanded graphite to wastewater containing lead, Chinese Journal of Environmental Engineering. 6(2012)3613-3617.