TY - JOUR
AU1 - Volkov, É.
AU2 - Zaichik, L.
AU3 - Pershukov, V.
AB - M. K. Bologa, F. P. Grosu, and I. A. Kozhukhar', Electrical Convection and Heat Trans- fer [in Russian], Kishinev (1977). . M. K. Bologa and A. B. Berkov, Electroconvective Heat Transfer of Dispersed Systems [in Russian], Kishinev (1989). 4. S. I. Zhebelev, Inzh.-Fiz. Zh., 60, No. I, 64-72 (1991). 5. S. I. Zhebelev, Inzh.-Fiz. Zh., 60, No. 5, 758-764 (1991). 6. N. S. Vakhvalov, Numerical Methods [in Russian], Moscow (1973). 7. O. A. Myazdrikov, Electrodynamic Fluidization of Dispersed Systems [in Russian], Lenin- grad (1984). MODELLING THE COMBUSTION OF HIGH-ASH CONTENT SOLID FUEL IN CIRCULATING SYSTEMS E. P. Volkov, L. I. Zaichik, UDC 662.61 and V. A. Pershukov We analyze the complete combustion of high-ash content fuel in circulating systems, based on the solution of the equation for the probability density distribution of particles by size and carbon content. The concept of the creation of ecologically clean methods of processing solid fuels has forced a reconsideration of the merits of traditional torch and bed methods of combustion. It has brought about the first plan for a system with multiple cycling of fuel and ash through external cyclones: furnaces with circulating fluidized or air-charged beds [1-4]. However, despite the significant practical 
TI - Modelling the combustion of high-ash content solid fuel in circulating systems
JF - Journal of Engineering Physics and Thermophysics
DO - 10.1007/BF00851762
DA - 2004-12-04
UR - https://www.deepdyve.com/lp/springer-journals/modelling-the-combustion-of-high-ash-content-solid-fuel-in-circulating-arGhzSHdGS
SP - 315
EP - 321
VL - 62
IS - 3
DP - DeepDyve
ER -