生物质与平朔煤共热解研究

Jian Wang, Shouyu Zhang, A. Dong, Xi Guo, Chuan Chen, Shaowu Xiong
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引用次数: 3

摘要

采用程序升温热重分析法,以氮气为平衡气体,在常压下对生物质与平朔煤共热解进行了实验研究。实验选用平朔煤、木屑和稻草。最终热解温度为1000℃,升温速率为10℃/min,生物质与煤的混合比例为0 ~ 100wt.%。实验结果表明,生物质与平朔煤在共热解过程中存在协同效应。当生物质(木屑和稻草)的混合比例低于50%时,生物质的出现促进了平朔煤的热解。研究发现,在混合热解过程中,平朔煤挥发分排放起始温度和最大热解转化率对应的温度均低于平朔煤热解温度。此外,与木屑与平朔煤共热解相比,稻草与平朔煤的协同效应更为明显。然而,当生物质(木屑和稻草)的混合比例超过50%时,协同效应消失,甚至生物质的出现抑制了平朔煤的热解。此外,在共热解曲线上,生物质(木屑和稻草)热解温度范围向高温范围转移,而平朔煤热解温度范围向低温范围转移。由此可以推断,生物质与平朔煤在共热解过程中存在协同效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Co-pyrolysis of biomass and pingshuo coal
An experimental study on the co-pyrolysis of biomass and Pingshuo coal was performed using temperature programmed thermogravimetric analysis method under atmospheric pressure with nitrogen as balance gas. Pingshuo coal, sawdust and rice straw were chosen for the experiment. The final pyrolysis temperature was designed as 1000°C and the heating rate was chosen as 10°C/min, and the mixture ratio of the biomass and the coal was varied from 0 to 100wt.%. The experimental results indicate that there exist synergetic effects between the biomass and Pingshuo coal during their co-pyrolysis process. When the mixture ratio of the biomass(sawdust and rice straw) is below 50%, the appearance of the biomass promotes Pingshuo coal pyrolysis. It is found that the initial temperature of volatile emission from Pingshuo coal and the temperature corresponding to the maximum pyrolysis conversion rate during the mixture pyrolysis are lower than the temperature of Pingshuo coal pyrolysis. Moreover, compared with the co-pyrolysis of sawdust and Pingshuo coal, the synergetic effects between rice straw and Pingshuo coal are much more obvious. However, when the mixture ratio of the biomass(sawdust and rice straw) is above 50%, the synergetic effects disappear, even the appearance of the biomass restrains Pingshuo coal pyrolysis. In addition, on the co-pyrolysis curves, the temperature range of the biomass(sawdust and rice straw) pyrolysis shifts to high temperature range, however, the temperature range of Pingshuo coal pyrolysis shifts to low temperature range. Thus, it can be deduced that there exist synergetic effects between the biomass and Pingshuo coal during co-pyrolysis.
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