煤清洁利用新途径——煤焦二氧化碳气化法

探讨了煤焦二氧化碳气化工艺研究现状及其作为煤清洁利用途径的优势。目前,还没有单独用纯二氧化碳参与煤焦大规模气化的研究。该工艺可以减少大气中二氧化碳,是一种煤清洁利用的手段,具有很好的经济、社会和生态效益。

煤焦二氧化碳气化反应活性影响因素研究现状

煤二氧化碳气化反应是一种煤清洁利用的手段,其关键是提高反应活性。综述了原煤性质、热解过程、反应温度与压力、催化剂,以及二氧化碳气速、煤焦的粒度等因素对反应活性的影响,并对煤焦气化技术进行了展望。

鲁西南煤田东滩煤矿煤质特征及煤相分析

煤的工艺性质受煤岩、煤质和煤类特征影响,为查明煤炭形成过程中对清洁用煤的控制作用,采用煤岩学和煤化学等研究方法,以鲁西南煤田东滩煤矿山西组3_(上)煤为研究对象,通过煤层剖面采样及测试,分析了东滩煤矿3_(上)煤层煤质、煤岩及煤相特征,探讨了东滩煤矿3_(上)煤成煤环境。研究结果表明,东滩煤矿3_(上)煤层属于低灰分-特低灰分、高挥发分、低硫煤;煤中显微煤岩组分以镜质组为主,惰质组次之,煤中矿物主要以黏土类矿物为主;煤层自下而上经历了潮湿草本沼泽相-干燥森林沼泽相-潮湿森林沼泽相3个演化阶段。从煤的清洁利用方向分析,3_(上)煤适宜作为炼焦用煤和直接液化用煤。

气流床煤气化技术与IGCC发电

分析了典型气流床气化技术的优缺点及其在IGCC发电系统上的应用,提出带显热回收的二段式干煤粉加压气流床气化技术是今后IGCC煤气化的主要发展方向,指出随着大规模煤气化技术的发展,IGCC技术具有广阔的应用前景。

Dry coal fly ash cleaning using rotary triboelectrostatic separator

More than 80 million metric tons of fly ash is produced annually in the U.S. as coal combustion by-product. Coal fly ash can be converted to value-added products if unburned carbon is reduced to less than 2.5%. However, most of fly ash is currently landfilled as waste due to lack of efficient purification technologies to separate unburned carbon from fly ash. A rotary triboelectrostatic separator has been developed and patented recently at the University of Kentucky with unique features. Several fly ash samples have been used to understand the effects of major process parameters on the separation performance. The results show that compared to existing triboelectrostatic separators, the rotary triboelectrostatic separator has significant advantages in particle charging efficiency, solids throughput, separation efficiency, applicable particle size range.