广东化工
廣東化工
엄동화공
GUANGDONG CHEMICAL INDUSTRY
2012年
4期
174-177,199
,共5页
张冬梅%李寒旭%石旵东%张琨%杨和彦
張鼕梅%李寒旭%石旵東%張琨%楊和彥
장동매%리한욱%석참동%장곤%양화언
Shell煤气化%大渣块%形成机理%富集%粘附
Shell煤氣化%大渣塊%形成機理%富集%粘附
Shell매기화%대사괴%형성궤리%부집%점부
Shell gasification%large slag%formation mechanism%enrichment%adhesion
为了弄清实际生产过程中Shell粉煤气化炉大块渣的形成机理,文章运用XRD、SEM-EDX技术,对比分析气化炉稳定运行期间排出的灰渣和堵渣停车期间采集的大块渣的矿物组成、表观形貌及微区化学组成。结果表明:在Shell气化炉内大块渣形成期间,煤中含铁和含钙矿物存在明显的富集和析晶现象,在高温还原气氛下含钙矿物与石英形成大量低温共熔物—钙长石,钙长石在熔融状态下易吸附小块渣样,从而使渣块增长变大;含铁矿物质在气化炉里逐渐演变成(Fe-S-O)共熔体,这种物质具有很强的吸附粘结性,从而使渣块迅速增长变大。
為瞭弄清實際生產過程中Shell粉煤氣化爐大塊渣的形成機理,文章運用XRD、SEM-EDX技術,對比分析氣化爐穩定運行期間排齣的灰渣和堵渣停車期間採集的大塊渣的礦物組成、錶觀形貌及微區化學組成。結果錶明:在Shell氣化爐內大塊渣形成期間,煤中含鐵和含鈣礦物存在明顯的富集和析晶現象,在高溫還原氣氛下含鈣礦物與石英形成大量低溫共鎔物—鈣長石,鈣長石在鎔融狀態下易吸附小塊渣樣,從而使渣塊增長變大;含鐵礦物質在氣化爐裏逐漸縯變成(Fe-S-O)共鎔體,這種物質具有很彊的吸附粘結性,從而使渣塊迅速增長變大。
위료롱청실제생산과정중Shell분매기화로대괴사적형성궤리,문장운용XRD、SEM-EDX기술,대비분석기화로은정운행기간배출적회사화도사정차기간채집적대괴사적광물조성、표관형모급미구화학조성。결과표명:재Shell기화로내대괴사형성기간,매중함철화함개광물존재명현적부집화석정현상,재고온환원기분하함개광물여석영형성대량저온공용물—개장석,개장석재용융상태하역흡부소괴사양,종이사사괴증장변대;함철광물질재기화로리축점연변성(Fe-S-O)공용체,저충물질구유흔강적흡부점결성,종이사사괴신속증장변대。
In order to make clear the formation mechanism of large slag in Shell gasifier during the practical production,mineral composition,surface morphologics and micro-chemical composition were analysed by XRD and SEM-EDX compared slags of the stable operation with large slags during the parking due to slag-blocking.The results showed that iron-bearing minerals and calcium-bearing minerals in coal had obvious enrichment and crystallization phenomenon during large slags formation in the Shell gasifier.In the high temperature and reducing atmosphere,calcium-containing minerals and quartz formed lots of eutectic mixture known as anorthite which could absorb small slags in molten state,so that made slag grow bigger.Iron-bearing minerals gradually evolved into(Fe-S-O) eutectics which had a strong ability to absorb and adhere small slags,so that made slag grow bigger rapidly.
