燃烧科学与技术
燃燒科學與技術
연소과학여기술
JOURNAL OF COMBUSTION SCIENCE AND TECHNOLOGY
2013年
5期
444-451
,共8页
涂垚杰%刘豪%赵然%柳朝晖%米建春%郑楚光
塗垚傑%劉豪%趙然%柳朝暉%米建春%鄭楚光
도요걸%류호%조연%류조휘%미건춘%정초광
MILD燃烧%无焰燃烧%煤粉燃烧%低温预热%NOx排放
MILD燃燒%無燄燃燒%煤粉燃燒%低溫預熱%NOx排放
MILD연소%무염연소%매분연소%저온예열%NOx배방
MILD combustion%flameless combustion%coal combustion%low temperature preheating%NOx emission
借助数值模拟的方法研究了空气预热温度、燃烧器喷嘴射流速度、喷嘴间距以及喷嘴布置形式等对煤粉MILD 燃烧的影响规律.结果表明:高风温并非实现煤粉 MILD 燃烧的必要条件;增大射流速度和喷嘴间距均能提高炉膛内的烟气循环量,但喷嘴间距的影响比射流速度更为重要;射流动量越集中,烟气回流距离越远.相对于常规燃烧方式,MILD 燃烧方式下煤粉着火提前,炉膛温度峰值降低200,K 左右,炉膛内局部 O2体积分数均低于10%,CO分布范围扩大,NOx排放降低为常规方式下的1/2.
藉助數值模擬的方法研究瞭空氣預熱溫度、燃燒器噴嘴射流速度、噴嘴間距以及噴嘴佈置形式等對煤粉MILD 燃燒的影響規律.結果錶明:高風溫併非實現煤粉 MILD 燃燒的必要條件;增大射流速度和噴嘴間距均能提高爐膛內的煙氣循環量,但噴嘴間距的影響比射流速度更為重要;射流動量越集中,煙氣迴流距離越遠.相對于常規燃燒方式,MILD 燃燒方式下煤粉著火提前,爐膛溫度峰值降低200,K 左右,爐膛內跼部 O2體積分數均低于10%,CO分佈範圍擴大,NOx排放降低為常規方式下的1/2.
차조수치모의적방법연구료공기예열온도、연소기분취사류속도、분취간거이급분취포치형식등대매분MILD 연소적영향규률.결과표명:고풍온병비실현매분 MILD 연소적필요조건;증대사류속도화분취간거균능제고로당내적연기순배량,단분취간거적영향비사류속도경위중요;사류동량월집중,연기회류거리월원.상대우상규연소방식,MILD 연소방식하매분착화제전,로당온도봉치강저200,K 좌우,로당내국부 O2체적분수균저우10%,CO분포범위확대,NOx배방강저위상규방식하적1/2.
The impacts of air preheating temperature,nozzle injecting velocity and distance, and arrangements on MILD combustion for pulverized coal were numerically studied. It indicates that high temperature air is not an essen-tial condition for coal MILD combustion. Increasing injecting velocity and nozzle distance can enhance the recircula-tion of flue gas inside the furnace,but it is more effective to increase the nozzle distance than injecting velocity. The more concentrated the injecting flow is,the farther the recirculation flow reaches. Compared to conventional combus-tion,the coal particle ignites earlier,the peak temperature decreases by 200,K,the overall oxygen concentration is below 10%,CO distributes in a broader space,and NOx emission decreases by 1/2 under MILD combustion.
