Home /Archive /2015 /2015 №3 /2015_3_7

Visn. Nac. Akad. Nauk Ukr. 2015. (3): 61-72.
https://doi.org/10.15407/visn2015.03.061

D.P. Savitskiy, A.S. Makarov, D.Yu. Sadovskyi
Dumanskii Institute of Colloid and Water Chemistry of National Academy of Sciences of Ukraine, Kyiv

PHYSICAL AND CHEMICAL ASPECTS OF MANUFACTURING FUEL DISPERSE SYSTEMS BASED ON NATURAL COAL AND LIQUID ORGANIC WASTE

Abstract:
In the present article we review the main physico-chemical and technological aspects of the production of fuels based on coal and liquid organic media. The features of structure formation in the fuel disperse systems based on coal depend on particle size distribution, particle shape, and nature of the dispersion medium. In this study we propose the process flowsheet for producing fuel disperse systems based on coal and liquid organic waste. The technological characteristics of fuel disperse systems obtained using waste of alcohol, biodiesel, and oil refineries are determined.

Keywords: coal, fuel disperse systems, liquid organic waste, rheological properties.

 

Language of article: ukrainian

References:

  1. Makarov A., Kobitovych O., Savitskiy D., Egurnov A. Visn. Nac. Akad. Nauk Ukr. 2009. (1): 56–67.
  2. Volchyn I., Dunayevska N., Haponych L., Chernyavskyi M., Topal A., Zasyadko Ya. Prospects for the Implementation of Clean Coal Technologies in the Energy Sector of Ukraine (Kyiv: Gnozis, 2013). [in Ukrainian].
  3. Palgunov P.P., Sumarokov M. Utilization of industrial wastes (Moscow: Stroyizdat, 1990). [in Russian].
  4. Gyulmaliev A.M., Golovin G.S., Gladun T.G. Theoretical Foundations of Chemistry of Coal (Moscow: MGGU, 2003). [in Russian].
  5. Uriev N.B. Physical and Chemical Bases of Technology of Disperse Systems and Materials (Moscow: Khimia, 1988). [in Russian].
  6. Babak V.G., Shchukin Ye.D. Kolloidnyi zhurnal (Colloid Journal). 1973. 35(5): 942.
  7. Matveenko V.N., Kirsanov E.A. The viscosity and structure of dispersed systems. Moscow University Chemistry Bulletin. 2011. 66(4): 199. http://doi.org/10.3103/S0027131411040079
  8. Malkin A.Ya., Isayev A.I. Rheology: concepts, methods, and applications (Saint Petersburg: Professia, 2007). [in Russian].
  9. Scharamm G. A Practical Approach to Rheology and Rheometry (Karlsruhe: Gebrueder HAAKE GmbH, 2000).
  10. Froyshteter G.B., Trilistyi K.K., Ischuk Y.L., Stupak P.M. The Rheological and Thermal Properties of Greases (Moscow: Khimia, 1980). [in Russian].
  11. Reiner M. Ten lectures on Theoretical Rheology (Jerusalem, 1943).
  12. Rebinder P.A. Selected Works (Moscow: Nauka, 1979). [in Russian].
  13. Kruglitsky N.N. Fundamentals of Physical and Chemical Mechanics (Kyiv: Naukova Dumka, 1975). [in Russian].
  14. Khodakov G.S. Rossiyskiy khimicheskiy zhurnal. 2003. 48(2): 33. http://www.chem.msu.su/rus/jvho/2003-2/33.pdf.
  15. Laskowski J.S. Coal Flotation and Fine Coal Utilization (Amsterdam: Elsevier, 2001).
  16. Vlasov S.V., Kandyrin L.B., Kuleznev V.N. Basics of Plastics Processing (Moscow: Khimia, 2004). [in Russian].
  17. Barnes H.A. Thixotropy – a review. J. Non-Newtonian Fluid Mech. 1997. 70: 1. http://doi.org/10.1016/S0377-0257(97)00004-9
  18. Schick M.J., Villa J.L. Surfactants in coal technology. J. Am. Oil Chem. Soc. 1983. 60(7): 1349. http://doi.org/10.1007/BF02702116
  19. Vlasov S.V., Kandyrin L.B., Kuleznev V.N. Visn. Akad. Nauk URSR. 1988. (1): 41.
  20. Khodakov G.S., Gorlov Ye.G., Golovin G.S. Khimiya tverdogo topliva (Chemistry of Solid Fuels). 2005. (4): 22.
  21. Murko V.I., Fedyayev V.I., Khamyalyaynen V.A. Physical and Technical Bases of Coal-Water Fuel (Kemerovo: Kuzbassvuzszdat, 2009). [in Russian].
  22. Zaydenvarg V.Ye., Trubetskoy K.N., Murko V.I., Nekhoroshiy I.H. The current state of the global production and use of coal-water fuel (Moscow: Nedra, 2001). [in Russian].
  23. Kustov V.F. Kustov V.F. Fuel Suspension (Moscow: AN USSR, 1942). [in Russian].
  24. Ivanov V.M., Kantorovich B.V. Fuel Emulsions and Suspensions (Moscow: Metalurgizdat, 1963). [in Russian].
  25. Akasov R. Khimiya i zhyzn (Chemistry and Life). 2011. (3): 28.