Examination of flame length for burning pulverized coal in laminar flow reactor
Jae-Dong Kim, Gyu-Bo Kim, Young-June Chang, Ju-Hun Song, Chung-Hwan Jeon*
The Journal of Mechanical Science and Technology, vol. 24, no. 12, pp.2567-2575, 2010
Abstract : Because there has been a recent increase in the use of low calorific coal compared to standard coal, it is crucial to control the char
flame length governing the burning life-time of coal in a coal-fired utility boiler. The main objective of this study is to develop a simplified
model that can theoretically predict the flame length for burning coal in a laboratory-scale entrained laminar flow reactor (LFR)
system. The char burning behavior was experimentally observed when sub-bituminous pulverized coal was fed into the LFR under burning
conditions similar to those in a real boiler: a heating rate of 1000 K/s, an oxygen molar fraction of 7.7 %, and reacting flue gas temperatures
ranging from 1500 to 2000 K. By using the theoretical model developed in this study, the effect of particle size on the coal
flame length was exclusively addressed. In this model, the effect of particle mass was eliminated to compare with the experimental result
performed under a constant mass feeding of coal. Overall, the computed results for the coal flame length were in good agreement with
the experimental data, particularly when the external oxygen diffusion effect was considered in the model.
Keyword : Char combustion; Coal flame length; Laminar flow reactor (LFR); Particle temperature; Diffusion; Particle size |