Models for rapid devolatilization of pulverized coal

A general model for pulverized coal devolatilization is proposed in this paper. The difference between the present model and previous models is that the equivalent activation energy, E, and the equivalent frequency factor, K,, of coal particle devolatilization are independent of coal type, and depen

Here, reflt'x'ted shock temperatures were calcu-lal~ by assuming that tmndational, rotational and vii~rational freedoms of all species were completely relaxed. However, vibrational relaxation of nitrogen is comparable to the induction peric, d in the present experimental conditions -~. Another calcu

The distributed-energy chain model (DISCHAIN) interprets coal devolatilization in terms of independent influences from chemical reaction rates and from macromolecular configuration. Coal is represented by three components: (1) aromatic units that are attached pairwise by (2) labile bridges to form n

The initial stages of the devolatilization of three United Kingdom pulverized coals have been studied in a coal-laden turbulent air jet emerging into the combustion gas environment produced by a methane-air flat flame burner. The temperature range provided by these flames was between 1670 and 1870 K