中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2015年
12期
3081-3088
,共8页
刘光奎%朱群益%钱林峰%陈智超%张庆花%李争起
劉光奎%硃群益%錢林峰%陳智超%張慶花%李爭起
류광규%주군익%전림봉%진지초%장경화%리쟁기
FW型W火焰锅炉%拱上布置燃尽风%气固流动特性%低NOx技术
FW型W火燄鍋爐%拱上佈置燃儘風%氣固流動特性%低NOx技術
FW형W화염과로%공상포치연진풍%기고류동특성%저NOx기술
FW down-fired boiler%arch-supplied over fired air (OFA)%flow characteristics%low NOx technology
以一台660 MW机组的 FW型W火焰锅炉为研究对象,提出了拱上布置燃尽风(OFA)技术及配套高效燃烧措施。建立了1:15气固两相冷态试验台,采用三维激光相位多普勒分析仪研究了OFA入射角度对炉内气固两相的平均速度、脉动速度、颗粒体积流量以及颗粒平均粒径等气固两相流动特性参数的影响。随着OFA入射角度的增加,浓煤粉气流的射流深度有所减小,固相颗粒在下炉膛的停留时间缩短。OFA 气流穿透深度随入射角度增加呈先升高后降低的趋势。当入射角度为20°时,OFA 气流在水平和竖直方向上的气固两相速度和脉动速度均衰减较慢,而且OFA气流与拱下回流区互不影响,能够与上行气流充分且剧烈的混合。对于拱上布置OFA,认为入射角度为20°较合适。
以一檯660 MW機組的 FW型W火燄鍋爐為研究對象,提齣瞭拱上佈置燃儘風(OFA)技術及配套高效燃燒措施。建立瞭1:15氣固兩相冷態試驗檯,採用三維激光相位多普勒分析儀研究瞭OFA入射角度對爐內氣固兩相的平均速度、脈動速度、顆粒體積流量以及顆粒平均粒徑等氣固兩相流動特性參數的影響。隨著OFA入射角度的增加,濃煤粉氣流的射流深度有所減小,固相顆粒在下爐膛的停留時間縮短。OFA 氣流穿透深度隨入射角度增加呈先升高後降低的趨勢。噹入射角度為20°時,OFA 氣流在水平和豎直方嚮上的氣固兩相速度和脈動速度均衰減較慢,而且OFA氣流與拱下迴流區互不影響,能夠與上行氣流充分且劇烈的混閤。對于拱上佈置OFA,認為入射角度為20°較閤適。
이일태660 MW궤조적 FW형W화염과로위연구대상,제출료공상포치연진풍(OFA)기술급배투고효연소조시。건립료1:15기고량상랭태시험태,채용삼유격광상위다보륵분석의연구료OFA입사각도대로내기고량상적평균속도、맥동속도、과립체적류량이급과립평균립경등기고량상류동특성삼수적영향。수착OFA입사각도적증가,농매분기류적사류심도유소감소,고상과립재하로당적정류시간축단。OFA 기류천투심도수입사각도증가정선승고후강저적추세。당입사각도위20°시,OFA 기류재수평화수직방향상적기고량상속도화맥동속도균쇠감교만,이차OFA기류여공하회류구호불영향,능구여상행기류충분차극렬적혼합。대우공상포치OFA,인위입사각도위20°교합괄。
ABSTRACT:The arch-supplied OFA technology and matched efficient combustion measures were proposed for a FW type down-fired boiler. A gas/particle two phase cold airflow experimental system were established by modeling the utility boiler mentioned above with a proportion of 1:15. Three-dimensional particle dynamic analyzer (PDA) was used to measure the parameters such as the velocity of gas-solid phase, fluctuating velocity, particle volume rate and particle mean diameter in the model furnace. Gas/solid flow characteristics with different OFA injecting angle were investigated. With the increase of the OFA injecting angle, the injection depth of the fuel-rich airflow decrease, and the residence time of solid particle in the lower furnace shorten. The OFA penetration depth first increase and then decrease with the OFA injecting angle increasing. When the injecting angle is 20°, the gas-solid phase velocity and fluctuating velocity on the horizontal and vertical direction for the OFA airflow delay slowly, moreover, the OFA airflow and the recirculation zone below the arches did not affect each other. Therefore, the injecting angle 20° is more appropriate for the arch-supplied OFA program.