期刊
FUEL PROCESSING TECHNOLOGY
卷 167, 期 -, 页码 711-720出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.fuproc.2017.08.016
关键词
Coal; Miscanthus; Hydrothermal carbonization; Hydrochar; Solid fuel; Pellet
资金
- Ohio University
Co-Hydrothermal Carbonization (Co-HTC) was performed on a blended feedstock of coal and miscanthus. The main goal of this work was to evaluate the synergistic effects of miscanthus on coal during Co-HTC. Fuel quality was assessed for all hydrochars by evaluating mass yields, energy content, ultimate analysis, and proximate analysis. Calculation of combustion parameters showed experimental ignition and burnout indices of Co-HTC 260 degrees C hydrochar were 29.0% and 26.5% lower than theoretical, non-interacting indices, respectively. Hydrochars shared the benefits of low sulfur and low ash content of miscanthus but maintaining higher energy content of coal. Hydrochars produced at 260 degrees C had energy contents as high as coal (27.3 +/- 0.6 MJ kg(-1)) and 73% less ash content and 74% less sulfur than raw coal as a result of the more acidic environment produced by miscanthus decomposition. Furthermore, hydrochars were homogeneous as miscanthus-derived hydrochar was formed on coal surface according to SEM imaging and verified by the reduced pore width from nitrogen adsorption. Co-HTC hydrochars were pelletized in a single-press pellet press. Both mass and energy densities of CoHTC pellets were increased with the increase of Co-HTC temperature. For instance, energy densities of pelletized Co-HTC hydrochars were increased to 32.4 GJ m(-3), whereas HTC coal contains energy density of 28 GJ m(-3).
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