Fabrication and Characterization of Zeolite-Carbon Composite from Industrial Wastes

摘要:

文章预览

Industrial wastes have exerted high loads on environment in view of the difficulties to reserve landfill space and the risk of air pollution. In this study we proposed a method of simultaneous disposing of inorganic waste and common organic waste, in light of cascade recycling concept. Zeolite-carbon composite was synthesized by a combination of calcinations and hydrothermal treatment of coal fly ash and sawdust mixtures. The microstructure, phase compositions and electromagnetic wave absorption properties of the composite were evaluated. The results showed that the low cost composite has the potential to be used as high value-added humidity-controlling building material with the ability to absorb electromagnetic wave.

信息:

期刊:

编辑:

T. Ohji, T. Sekino and K. Niihara

页数:

743-746

引用:

N.F. Gao et al., "Fabrication and Characterization of Zeolite-Carbon Composite from Industrial Wastes", Key Engineering Materials, Vols. 317-318, pp. 743-746, 2006

上线时间:

August 2006

输出:

价格:

$38.00

[1] Statistical Research and Training Institute of Japan: Japan Statistical Yearbook 2004 (Tokyo 2003).

[2] M. Harada: Chem. and Educ. Vol. 51 (2003), p.650.

[3] G. Belardi, S. Massimilla and L. Piga: Resour. Conser. Recycl. Vol. 24 (1998), p.167.

[4] X. Querol, N. Moreno, J. C. Umana, A. Alastuey, E. Hernandez, A. Lopez-Soler and F. Plana: Inter. J. Coal Geo. Vol. 50 (2002), p.413.

[5] C. S. Cundy and P. A. Cox: Chem. Rev. Vol. 103 (2003), p.663.

[6] Ministry for the Environment of Japan: White Paper on Environment (Tokyo 2003).

[7] W. T. Tsai, C. Y. Chang, S. Y. Wang, C. F. Chang and S. F. Chien: Bioresour. Technol. Vol. 78 (2001), p.203.

[8] M. Maeda, S. Suzuki, S. Tomura, F. Ohashi, T. Kimura and K. Okada: J. Ceram. Soc. Japan Vol. 110 (2002), p.121.

[9] O. Hashimoto, Introduction to Wave Absorber (Morikita Publishing, Tokyo1997).

[10] T. Takenaka: Ceram. Japan Vol. 39 (2004).

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