%0 Journal Article %T 灰化方式和温度对新疆高碱煤灰理化特性的影响<br>Effects of Ashing Method and Temperature on the Ash Physicochemical Properties of High??Alkali Coals in Xinjiang %A 赵磊 %A 王长安 %A 朱晨钊 %A 袁茂博 %A 韩涛 %A 车得福 %J 西安交通大学学报 %D 2018 %R 10.7652/xjtuxb201808021 %X 为研究灰化方式和温度对新疆高碱煤灰理化特性的影响,对新疆准东煤分别利用等离子低温灰化方式和传统缓慢制灰方式制灰,使用X射线荧光光谱仪、电子扫描显微镜与能谱分析、X射线衍射仪等手段分析研究了灰样的微观形貌、组分和灰中矿物质的演变规律。实验结果表明:灰化方式不同时灰中元素含量和矿物质种类有较大差异,等离子低温灰中矿物质种类较多,不同煤种低温灰中钠的赋存形态存在差异;灰化温度升高,钠和氯元素相对含量减少,释放速率主要与钠和氯赋存的矿物质种类有关;随温度升高灰中矿物质主要变化是CaCO3的分解和CaSO4的生成,天池灰中Na2SO4特征峰在815℃消失,一部分钠以硫酸盐的形式释放到烟气中,而另一部分生成新的含钠组分;对于准东煤这种高碱金属燃料,现有国标缓慢灰化法制灰会造成灰中碱金属的大量释放及矿物质种类发生变化。为确保碱金属测量的准确性,建议在采取常规制灰方式的同时采用等离子低温灰化方法进行对比研究。<br>Effects of ashing method and temperature on the ash physicochemical properties of the high??alkali coal in Xinjiang are investigated using the plasma low temperature ashing method and the traditional slow ashing method. X??ray fluorescence spectroscopy, scanning electron microscopy and X??ray diffractometer are used to analyze the micromorphology, composition and evolution of the minerals in the ashes. Results show that the elements content and mineral species in the ashes are quite different for different ashing methods. The ash from the plasma low??temperature ashing process has more mineral species, and the existence of sodium is different in different coal ashes. When the ashing temperature increases, the contents of sodium and chlorine decrease and their releasing rate is mainly related to the mineral species in ash. The main changes of minerals in ashes are the decomposition of CaCO3 and the formation of CaSO4 as the temperature increases. Part of the sodium component is released into the flue gas in the form of sulfate at 815℃, while the rest of the sodium is formed into new sodium??containing components. The slowing ashing method in the existing national standard would lead to a large release of alkali metals and transformation of mineral varieties for Zhundong coal with high alkali metal materials of. For ensuring the accuracy of measurement of alkali metals, it is suggested that the plasma low temperature ashing method could be used for comparative study while using the conventional ashing method %K 准东煤 %K 低温灰 %K 碱金属 %K 矿物质< %K br> %K Zhundong coal %K low temperature ash %K alkali metal %K minerals %U http://zkxb.xjtu.edu.cn/oa/DArticle.aspx?type=view&id=201808021