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Four high-volatile bituminous coals were used to investigate the effect of different coal composition on the amount and release of fuel-nitrogen. The nitrogen content and functional groups depend on the exinite content; with increasing amounts of exinite both, the amount of total nitrogen, and the ratio of the pyrrolic form of nitrogen in the coal related to the pyridinic form as determined by XPS grow. Results from pyrolysis and combustion experiments indicate that residence time and temperature as the main influ-96108352 Effect8 Of heating rat8 and Coal type On g88 evolu-tiOn durlng CO81 pyrOlySl8 Takarada, T. et al., Tetsu to Hagane, 1996,82, (5), 388-392. (In Japanese) In order to obtained a decisive conclusion on the effect of the heatmg rate on gas evolution behaviour during coal pyrolysis, the pyrolysis of coal was systematically investigated in thermo-balance using six coals which have different carbon contents ranging from 81 to 88 wt.%. The heating rate ranged from 3 to 300 Wmin. The evolution rates of CH,, GH,, C&, &, CO and CO, were measured. encing parameters are both interrelated. 96106353
π SIMILAR VOLUMES
In this paper, the combustion stability and thermal decomposition properties of a nitramine propellant (composed of EC, NC, RDX and HNS) was studied by closed bomb test and DSC technique. Uniform experimental design was used to investigate the effect of proportions of the different components on com
Vitrain from a bituminous coal was modified by selective chemical reaction to reveal particular structural characteristics of the organic matter responsible for the change in conversion during solubilization by methanol-NaOH treatment (M treatment). The selective reactions were alkylating and non-al