Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8955762 | Journal of the Energy Institute | 2018 | 13 Pages |
Abstract
Growth of ash deposits when wood was co-fired with coal was visually investigated in a 300Â kW pilot-scale furnace. For comparison, combustion of pure coal was also conducted. A total of 10% and 20% wood were mixed with coal. The thickness and heat flux were obtained. The collected ash deposits and fly ash were characterized by a series of analysis methods to determine the physical and mineral properties. Their relationships were also revealed. Results showed that co-firing of coal with wood dramatically increased the ash deposition propensity. During the coal combustion, shedding of ash deposit occurred and the maximum deposit thickness was 15.33Â mm. A deposit thickness of up to 27.02Â mm was achieved for 10% wood, and the thickness increased to 34.20Â mm for 20% wood. The variation in heat flux with deposit thickness substantially changed when wood was co-fired. A significant change was also observed in the mineral composition of ash deposit with the increase in wood ratio. The proportion of anorthite increased because that of lime in fly ash increased with wood ratio. In addition, the mean diameter of fly ash particles increased as wood ratio increased.
Related Topics
Physical Sciences and Engineering
Energy
Energy Engineering and Power Technology
Authors
Hao Zhou, Weichen Ma, Jiakai Zhang, Yong Xu, Menghao Zhao,