References
- Remus R, Aguado-Monsonet MA, Roudier S, Sancho LD. Best available techniques (BAT) reference document for iron and steel production, industrial emissions directive 2010/75/EU, integrated pollution prevention and control. Luxembourg: Publications Office of the European Union; 2013.
- Eisen HP, Groß J, Hüsig K-R, Kersting K, Stedem K-H. Reduction of dust emissions in German sinter plants. Proceedings of 3rd International Ironmaking Congress; 1996; Gent; pp. 165–169.
- Delwig C, Hartig W, Hoffmann M, Lüngen HB. Developments in sinter technology. Stahl Eisen. 2007;127:S51–S66.
- Sheng G, Huang P, Mou Y, Zhou, C. Characteristics of fly ash from the dry flue gas desulfurization system for iron ore sintering plants. Environ Technol. 2012;33:837–844. doi: 10.1080/09593330.2011.599428
- Peng C, Guo Z-C, Zhang F-L. Discovery of potassium chloride in the sintering dust by chemical and physical characterization. ISIJ Int. 2008;48:1398–1403. doi: 10.2355/isijinternational.48.1398
- Peng C, Zhang F-L, Guo Z-C. Separation and recovery of potassium chloride from sintering dust of ironmaking works. ISIJ Int. 2009;49:735–742. doi: 10.2355/isijinternational.49.735
- Gebert W. Abgasreinigungssysteme für Sinteranlagen [dissertation]. Kaiserslautern; Universität Kaiserslautern; 1996.
- Lee JK, Hyun OC, Lee JE, Park SD. High resistivity characteristics of the sinter dust generated from the steel plant. KSME Int J. 2001;15:630–638.
- Kasama S, Kitaguchi H, Yamamura Y, Watanabe K, Umezu A. Analysis of exhaust gas visibility in iron ore sintering plant. ISIJ Int. 2006;46:1027–1032. doi: 10.2355/isijinternational.46.1027
- Debrincat D, Loo CE. Factors influencing particulate emissions during iron ore sintering. ISIJ Int. 2007;47:652–658. doi: 10.2355/isijinternational.47.652
- Sinha M, Ramna RV, Sinha S, Bose G. Characterization of ESP dust sample from sinter plant. ISIJ Int. 2010;50:1719–1721. doi: 10.2355/isijinternational.50.1719
- Lievens P, Verbinnen B, Bollaert B, et al. Study of composition change and agglomeration of flue gas cleaning residue from fluidized bed waste incinerator. Environ Technol. 2011;32:1637–1647. doi: 10.1080/09593330.2010.546813
- Schulze D. Powders and bulk solids. Behavior, characterization, storage and flow. Berlin: Springer; 2008.
- Jenike AW. Storage and flow of solids. Bulletin No. 123 Utah Engineering Experiment Station. 4th ed. Salt Lake City (UT): University of Utah; 1970.
- Rumpf H. Particle technology. London: Chapman & Hall; 1990.
- EN ISO 60. Plastics – determination of apparent density of material that can be poured from a special funnel. Brussels: European Committee for Standardization; 1999.
- ISO 4324. Surface active agents – powders and granules – measurement of the angle of repose. Genève: International Organization for Standardization; 1977.
- Schulze D. Measuring powder flowability: a comparison of test methods. Part I. Powder Bulk Eng. 1996;10:45–61.
- Stanley-Wood N. Bulk powder properties: instrumentation and techniques. In: McGlinchey D, editor. Bulk solids handling, equipment selection and operation. Oxford: Blackwell Publishing; 2008. p. 1–67.
- Geldart D, Abdullah EC, Hassanpour A, Nwoke LC, Wouters I. Characterization of powder flowability using measurement of angle of repose. China Particuol. 2006;4: 104–107. doi: 10.1016/S1672-2515(07)60247-4
- Hausner HH. Friction conditions in a mass of metal powder. Int J Powder Metall. 1967;3:7–13.
- Carr RL. Evaluating flow properties of solids. Chem Eng. 1965;72:163–168.
- Lanzerstorfer C. Chemical composition and physical properties of filter fly ashes from eight grate-fired biomass combustion plants. J Environ Sci. 2015;30:191–197. doi: 10.1016/j.jes.2014.08.021