Abstract
The properties of active carbons, products of the steam activation (400–900°C) of mixtures of washed-off petroleum waste and lignin, were studied. The dependences of the yield, the specific surface area, and adsorption activity with respect to iodine (A I) and methylene blue (A MB) on the activation temperature (400–900°C), as well as the characteristics of the pore systems and the parameters of active-carbon supermolecular structure, were obtained. As compared with the properties of active carbon from lignin, the activation of the mixture leads to the formation of active carbon with lower yields, a higher specific surface area, and a substantially (by a factor of 3) increased proportion of mesoporosity. The adsorption properties of active carbons from lignin and its mixture with washed-off petroleum waste are close (A I = 950−1000 mg/g and (A MB = 200−220 mg/g).
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Kartel’, N.T. and Nikolaichuk, A.T., Ekotekhnol. Resursosberezh., 1999, no. 4, p. 38.
Velichko, Yu.M., Zhitar’, I.N., and Protsko, A.A., in Materialy nauchno-prakticheskoi konferentsii “Vidkhodi ta vidkhidni gazi promislovikh pidpriemstv — znachnii potentsial energoresursiv u narodnomu gospodarstvi”. Partenit (Proc. Scientific-Practical Conf. on Industrial Effluents and Emission Gases as Important Energy Resources for National Economy, Partenit, 2001), Kiev: Znannya, 2001, p. 14.
Kamalov, G.L. and Gavsevich, Yu.V., in Proc. 2 Int. Memorial Boreskov Conf. on Catalysis on the Eve of XXI Century. Science and Engineering, 1997, Novosibirsk, p. 305.
Introduction to Carbon Technologies, Marsh, H., Heintz E.A., and Rodrigues-Reinoso, F., Eds., Alicante Universidad, 1997.
Belyaev, E.Yu., Khim. Rastit. Syr’ya, 2000, no. 2, p. 5.
Pokonova, Yu.V., Khim. Tverd. Topliva, 2000, no. 1, p. 15.
Sindh, H., Srivastava, M., Singh, I.D., and Prasada, T.S.R., EUROCARBON’98, Strasbourg, 1998, p. 247.
Pokonova, Yu.V., Khim. Tverd. Topliva, 2003, no. 4, p. 66.
Shendrik, T.G., Pashchenko, L.V., Khabarova, T.V., et al., Catalytic and Thermochemical Conversion of Natural Organic Polymers: Proc. 4th Int. Symp., Krasnoyarsk, 2000, p. 104.
Yatsenko, A.M., Prokopik, Z.V., Chebenko, Yu.N., and Vorob’ev, A.A., Ekotekhnol. Resursosberezh., 2000, no. 3, p. 47.
Shendrik, T.G., Kucherenko, V.A., Pashchenko, L.V., and Khabarova, T.V., in Problemy sbora, pererabotki i utilizatsii otkhodov: Sb. Nauchn. Tr., Odessa: TsNTEPI, 2003, p. 167.
Rudyka, V.I. and Malina, V.P., Uglekhim. Zh., 2003, no. 1, p. 21.
Dollimor, D. and Heal, G.R., J. Colloid. Interfac. Sci., 1973, vol. 33, no. 1, p. 233.
Korolev, Yu.M., Khim. Tverd. Topliva, 1989, no. 6, p. 11.
Shendrik, T.G., Kucherenko, V.A., Tamarkina, Yu.V., and Khabarova, T.V, Uglekhim. Zh., 2005, nos. 1–2, p. 45.
Pittman, C.U., Tiang, W., and Gardner, S.D., Carbon, 1998, vol. 36, nos. 1–2, p. 25.
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Original Russian Text © T.G. Shendrik, L.V. Pashchenko, V.V. Simonova, V.A. Drozdov, V.A. Kucherenko, T.V. Khabarova, 2007, published in Khimiya Tverdogo Topliva, 2007, No. 2, pp. 62–67.
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Shendrik, T.G., Pashchenko, L.V., Simonova, V.V. et al. Adsorbents from lignin and washed-off petroleum waste. Soil Fuel Chem. 41, 114–118 (2007). https://doi.org/10.3103/S0361521907020103
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DOI: https://doi.org/10.3103/S0361521907020103