化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2014年
2期
684-691
,共8页
王勤辉%蔡毅%程乐鸣%许霖杰%方梦祥
王勤輝%蔡毅%程樂鳴%許霖傑%方夢祥
왕근휘%채의%정악명%허림걸%방몽상
脱硫%飞灰%低温%增湿%活化%循环流化床
脫硫%飛灰%低溫%增濕%活化%循環流化床
탈류%비회%저온%증습%활화%순배류화상
desulfurization%fly ash%low temperature%humidification%activation%circulating fluidized bed
以循环流化床锅炉飞灰作为实验对象,研究增湿活化飞灰在低温悬浮反应器中的脱硫特性。实验结果表明:增湿低温悬浮脱硫过程中,当水钙比能保证反应器中增湿灰的悬浮流化状态时,反应温度对钙利用率存在促进与抑制作用。水钙比为1时,钙利用率随反应温度的升高而增大;水钙比为3、5时,钙利用率随反应温度升高先升高后降低;水钙比为10时,钙利用率随反应温度的升高而降低;当水钙比为10,飞灰增湿低温悬浮脱硫可将循环流化床锅炉飞灰初始钙利用率由41%提高至60%左右,最佳反应温度在60~80℃之间。扫描电镜表明,飞灰增湿活化后,飞灰颗粒表面空隙增多、产生裂缝,有利于进一步在悬浮反应器中脱硫。
以循環流化床鍋爐飛灰作為實驗對象,研究增濕活化飛灰在低溫懸浮反應器中的脫硫特性。實驗結果錶明:增濕低溫懸浮脫硫過程中,噹水鈣比能保證反應器中增濕灰的懸浮流化狀態時,反應溫度對鈣利用率存在促進與抑製作用。水鈣比為1時,鈣利用率隨反應溫度的升高而增大;水鈣比為3、5時,鈣利用率隨反應溫度升高先升高後降低;水鈣比為10時,鈣利用率隨反應溫度的升高而降低;噹水鈣比為10,飛灰增濕低溫懸浮脫硫可將循環流化床鍋爐飛灰初始鈣利用率由41%提高至60%左右,最佳反應溫度在60~80℃之間。掃描電鏡錶明,飛灰增濕活化後,飛灰顆粒錶麵空隙增多、產生裂縫,有利于進一步在懸浮反應器中脫硫。
이순배류화상과로비회작위실험대상,연구증습활화비회재저온현부반응기중적탈류특성。실험결과표명:증습저온현부탈류과정중,당수개비능보증반응기중증습회적현부류화상태시,반응온도대개이용솔존재촉진여억제작용。수개비위1시,개이용솔수반응온도적승고이증대;수개비위3、5시,개이용솔수반응온도승고선승고후강저;수개비위10시,개이용솔수반응온도적승고이강저;당수개비위10,비회증습저온현부탈류가장순배류화상과로비회초시개이용솔유41%제고지60%좌우,최가반응온도재60~80℃지간。소묘전경표명,비회증습활화후,비회과립표면공극증다、산생렬봉,유리우진일보재현부반응기중탈류。
Humidified activation of fly ashes from circulating fluidized bed (CFB) boilers was conducted. Samples of the fly ash were characterized by desulfurization in the suspended fluidized bed and scanning electron microscopy (SEM). The desulfurization of humidified fly ashes was conducted at low temperature. The results indicated that with increase of reaction temperature, the calcium utilization increased when water/CaO ratio was 1. The utilization increased continuously and then decreased with temperature when the ratio was 3 or 5. The rate decreased when the ratio was 10. It was shown that the calcium utilization of humidified fly ashes in a suspended fluidized bed could be increased from 41%to 60%. The optimal reaction temperature was between 60℃ and 80℃. The results from SEM showed that treatment of humidified activation promoted an increase in ash porosity, while the porosity contributed to further desulfurization in suspended fluidized beds.
