中国冶金
中國冶金
중국야금
CHINA METALLURGY
2015年
4期
28-32
,共5页
冯祥%张忠孝%杨斌%史强
馮祥%張忠孝%楊斌%史彊
풍상%장충효%양빈%사강
烧结%风量%烟气%成分
燒結%風量%煙氣%成分
소결%풍량%연기%성분
sintering%ventilation volume%flue gas%composition
通过对工业冶金烧结过程进行简化,建立了小型固定型的热态烧结试验台,考察了风量对烧结烟气中可燃稀薄气体组分(CO、H2和 CH4)体积分数变化的影响。研究结果表明:CO 和 H2体积分数随风量与时间的变化趋势相似,呈现刚开始快速增加后平稳再急速下降的变化,CO 与 H2体积分数总体变化为随着风量的增大而减小;燃烧比φCO/(φCO +φCO2)在风量为100 m3/(m2·min)左右时较低,说明此时碳的化学能利用较高,但考虑风量提高伴随风机电耗的提高和漏风量的增加,烧结风量为90 m3/(m2·min)是实验中得出的较优风量;CH4体积分数在各个风量下都呈现先快速增加再平稳到接近烧结终点后体积分数剧烈减小,且在烧结风量为70 m3/(m2·min)时最大,最高接近2%(体积分数)。此实验结果为烧结实际生产的风量选择和烟气回收等节能减排项目提供了一定的参考。
通過對工業冶金燒結過程進行簡化,建立瞭小型固定型的熱態燒結試驗檯,攷察瞭風量對燒結煙氣中可燃稀薄氣體組分(CO、H2和 CH4)體積分數變化的影響。研究結果錶明:CO 和 H2體積分數隨風量與時間的變化趨勢相似,呈現剛開始快速增加後平穩再急速下降的變化,CO 與 H2體積分數總體變化為隨著風量的增大而減小;燃燒比φCO/(φCO +φCO2)在風量為100 m3/(m2·min)左右時較低,說明此時碳的化學能利用較高,但攷慮風量提高伴隨風機電耗的提高和漏風量的增加,燒結風量為90 m3/(m2·min)是實驗中得齣的較優風量;CH4體積分數在各箇風量下都呈現先快速增加再平穩到接近燒結終點後體積分數劇烈減小,且在燒結風量為70 m3/(m2·min)時最大,最高接近2%(體積分數)。此實驗結果為燒結實際生產的風量選擇和煙氣迴收等節能減排項目提供瞭一定的參攷。
통과대공업야금소결과정진행간화,건립료소형고정형적열태소결시험태,고찰료풍량대소결연기중가연희박기체조분(CO、H2화 CH4)체적분수변화적영향。연구결과표명:CO 화 H2체적분수수풍량여시간적변화추세상사,정현강개시쾌속증가후평은재급속하강적변화,CO 여 H2체적분수총체변화위수착풍량적증대이감소;연소비φCO/(φCO +φCO2)재풍량위100 m3/(m2·min)좌우시교저,설명차시탄적화학능이용교고,단고필풍량제고반수풍궤전모적제고화루풍량적증가,소결풍량위90 m3/(m2·min)시실험중득출적교우풍량;CH4체적분수재각개풍량하도정현선쾌속증가재평은도접근소결종점후체적분수극렬감소,차재소결풍량위70 m3/(m2·min)시최대,최고접근2%(체적분수)。차실험결과위소결실제생산적풍량선택화연기회수등절능감배항목제공료일정적삼고。
To simplify the sintering process,a small scale fixed test bed for thermal sintering was built and the influence of ventilation volume on the contents variation of combustible rarefied gases (CO,H2 and CH4 )was investigated.As a result,the CO and H2 content decreased with the augment of ventilation volume as a whole,and the variation trends of both content with ventilation volume and time were alike,which increased rapidly at first and turned to steady then dropped sharply;the relatively lower combustion ratio [φCO/(φCO+φCO )]at a 100m3/(m2 ·min)ventilation volume indicated an enhanced efficient utilization of 2 carbon chemical energy.Considering the increase of power consumption and air leakage with the increase of ventilation volume,the optimal ventilation volume in the experiment was 90m3/(m2 ·min).The CH4 content showed the same trend with various ventila-tion volume that it increased rapidly and maintained before dropped quickly when close to the burn-through point.The CH4 content reached to the max,approximately 2%,at the 70m3/(m2 ·min)ventilation volume.The experiment results could provide some reference for energy saving projects such as the choice of ventilation volume in sintering and the recycle of sintering flue gas.