Author:
Isyomin R. L.,Kuzmin S. N.,Mikhalev A. V.,Konyakhin V. V.,Viryasov D. M.,Klimov D. V.,Milovanov O. Yu.
Publisher
Springer Science and Business Media LLC
Subject
Geochemistry and Petrology,Energy Engineering and Power Technology,Fuel Technology,General Chemical Engineering
Reference6 articles.
1. M. Hiltunen and M. Almark, “Defluidization time of different materials in fluidized bed combustion,” Proc. Swedish- Finnish Flame Days, Böras, Sweden. Oct. 18–19, 2005, pp. 28–36.
2. S. Y. Li, H. P. Teng, W. H. Jiao, L. L. Shang, and Q. G. Lu, “Characterization on combustion and emission of several kinds of herbaceous biomass pellets in a circulating fluidized bed combuster,” Proc. 20th Int. Conf. on Fluidized Bed Combustion, Xi’an, China, pp. 1309–1315.
3. W. Lin, K. Dam-Johansen, and F. Frandsen, “Agglomeration in bio-fuel fired fluidized bed combustors,” Chem. Eng. J., 96, 171–185 (2003).
4. J. Zhang, J. Lü, X. Wang, H. Zhang, G. Yue, T. Suda, and J. Sato, “Characterization of pressure signals in fluidized beds loaded with large particles using Wigner distribution analysis: feasibility of diagnosis of agglomeration,” Chin. J. Chem. Eng., 15 (1), 24–29 (2007).
5. M. R. Parise, P. R. G. Kurka, and O. P. Taranto, “Identification of defluidization region in a gas-solid fluidized bed using a method on pressure fluctuation measurements,” Brazilian J. Chem. Eng., 26, No. 3, 537–543 (2009).