Treating n-butane by activated carbon and metal oxides |
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| Authors: | Shuai Cheng Jiang Sheng Bo Ge Xiao Wu Yi Ming Yang Jun Tao Chen |
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| Affiliation: | School of Materials Science and Engineering, Central South University of Forestry and Technology, Changsha, China |
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| Abstract: | In order to reduce environmental pollution and regulatory issues, the adsorption of n-butane from vehicle exhaust is one of the necessary requirements. When active carbon was mixed with different proportions of metal oxides, the adsorption capacity of n-butane was markedly improved. Infrared spectroscopy data provided information on functional groups derived from activated carbon composite metal oxide indicating that one of the best adsorption capacities for n-butane was obtained by mixing 3 g TiO2, 2.7 g CuO, and 2.1 g NaBO3·4H2O with 30 g activated carbon. However, more effective results were obtained by mixing 6 g TiO2, 2.1 g CuO, and 0.9 g NaBO3·4H2O with 30 g activated carbon. Data suggest that these chemical complexes may be effective in lowering n-butane pollution. |
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| Keywords: | Activated carbon metal oxides adsorption n-butane FT-IR |
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