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Particulate Science and Technology
An International Journal
Volume 36, 2018 - Issue 8
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Original Articles

Study of particle size distribution of pulverized coals in utility boilers

Neha VishnoiMechanical Engineering Department, Thapar University, Patiala, IndiaCorrespondence[email protected]
&
S. K. MohapatraMechanical Engineering Department, Thapar University, Patiala, India
Pages 999-1005 | Published online: 27 Jul 2017

References

  • Alderliesten, M. 2013. Mean particle diameters. Part VII. The Rosin-Rammler size distribution: Physical and mathematical properties and relationships to moment-ratio defined mean particle diameters. Particle and Particle Systems Characterization 30:244–57. doi:10.1002/ppsc.201200021
  • Delagrammatikos, G., and S. Tsimas. 2004. Grinding process simulation based on Rosin-Rammler equation. Chemical Engineering Communications 191:1362–378. doi:10.1080/00986440490472625
  • Dierickx, D., B. Basu, J. Vleugels, and O. Vander Biest. 2000. Statistical extreme value modeling of particle size distributions: Experimental grain size distribution type estimation and parameterization of sintered zirconia. Material Characterization 45:61–70. doi:10.1016/s1044-5803(00)00049-8
  • Eisele, T. C., H. J. Walqui, and S. K. Kawatra. 2013. The coal handbook: Towards cleaner production (ed. Osborne, D.), 240–262. London: Wood Head Publishing.
  • European Commission. 2007. DG JRC institute for energy & energy edge limited, coal of the future, (Supply Prospects for Thermal Coal by 2030–2050). EUR 22644 EN, Prepared for the European Commission–European Communities, Luxembourg, 60.
  • Gómez, M. 1990. Study of the cation exchange process of Na+, Ca2+ and Fe3+ using an exchanger prepared from cork wastes. M.Phil Thesis, University of Extremadura, Badajoz, Spain.
  • Grady, D. E., and M. E. Kipp. 1987. Fracture mechanics of rock. In Dynamic rock fragmentation, ed. B. K. Atkinson, 429–75. London: London Academic Press.
  • Hogg, R. 2003. Particle characterization. In Principles of mineral processing, ed. M. C. Fuerstenau and K. N. Han, 21. Colorado, USA: SME.
  • Lee, S., G. James, and K. Sudarshan. 2015. Handbook of alternative fuel technologies, 2nd ed. Boca Raton.
  • Loureiro, J., E. Figueiredo, and R. J. C. Silva, and M. F. Araujo. 2016. Metal alloys, inclusions and matrix manufacturing techniques of Mills Golas collection (North Portugal): A study by micro-EDXRF, SEM-EDS, optical microscopy, and X-ray radiography. Applied Physics A 122:820.
  • Chang, W., J. Zhang, and D. Luo. 2015. Optimizing calculation of particle size distribution of feeding coal for circulating fluidized bed boiler. Applied Thermal Engineering 87:463–470.
  • Macías-García, A., M. Eduardo, and M. A. Díaz-Díez. 2004. Application of the Rosin–Rammler and Gates–Gaudin–Schuhmann models to the particle size distribution analysis of agglomerated cork. Materials Characterization 52:159–64. doi:10.1016/j.matchar.2004.04.007
  • Mathews, J. P., S. Eser, P. G. Hatcher, and A. W. Scaroni. 2007. The shape of pulverized bituminous vitrinite coal particle. Kona Powder Part Journal 25.
  • Murthy, T., and B. Manohar. 2013. Grinding studies of mango ginger: Mathematical modeling of particle size distribution and energy consumption. Am. J. Food Science Technology 11:470–76.
  • Rosin, P., and E. Rammler. 1934. The laws governing the fineness of powdered coal. Journal of the Institute of Fuel 7:29.
  • Roy, D., G. Singh, and N. Gosai. 2015. Identification of possible sources of atmospheric PM10 using particle size, SEM-EDS and XRD analysis, Jharia Coalfield Dhanbad, India. Environmental Monitoring and Assessment 187:680.
  • Sarkar, S. 1990. Fuels and combustion, 2nd ed. Mumbai, India: Orient Longman.
  • Schalkwyk, V. V. 2011. The evaluation of ultrafine coal treatment options at the western coal complex. PhD thesis, University of Witwatersrand, Johannesburg.
  • Schuhmann Jr., R. 1940. Principles of comminution, 1 - Size distribution and surface calculation. Tech. Publications (AIME 1189) 11.
  • Singer, J. G. 1981. Combustions, fossil power systems: a reference book on fuel burning and steam generation, 3rd ed. Windsor, CT: Combustion Engineering INC.
  • Tasdemir, A., and T. Tasdemir. 2009. A comparative study on PSDS models for chromite ores comminuted by different devices. Particle and Particle Systems Characterization 26:69–79.
  • Ulusoy, U., and C. Igathinathane. 2016. Particle size distribution modeling of milled coals by dynamic image analysis and mechanical sieving. Fuel Processing Technology 143:100–109.
  • Xue, X., and Y. Wang. 2013. Particle size distribution as a non-independent variable affecting pulverized coal burnout in coal fired power plant boilers. Energy Fuels 27:4930–934. doi:10.1021/ef400406w
  • Zhang, Z., J. Yang, L. Ding, and Y. Zhao. 2012. An improved estimation of coal particle mass using image analysis. Powder Technology 229:178–84. doi:10.1016/j.powtec.2012.06.027

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