燃烧科学与技术
燃燒科學與技術
연소과학여기술
JOURNAL OF COMBUSTION SCIENCE AND TECHNOLOGY
2013年
4期
299-305
,共7页
李英杰%陈文辉%刘长天%孙荣岳
李英傑%陳文輝%劉長天%孫榮嶽
리영걸%진문휘%류장천%손영악
造纸白泥%碳酸化/煅烧%硫酸化%SO2/CO2捕集
造紙白泥%碳痠化/煅燒%硫痠化%SO2/CO2捕集
조지백니%탄산화/단소%류산화%SO2/CO2포집
white mud from paper mill%carbonation/calcination%sulfation%SO2/CO2 capture
在热重仪上研究了经历不同碳酸化/煅烧循环反应后白泥的硫酸化特性、微观结构及硫酸化反应动力学。结果表明,在典型循环流化床锅炉温度范围内(850~950,℃),提高反应温度有利于循环碳酸化/煅烧后白泥的硫酸化反应,但对于100次循环反应后的白泥,温度对其硫酸化转化率影响不大。未循环白泥取得了最高硫酸化转化率,此后随着碳酸化/煅烧循环次数增加,硫酸化转化率衰减,但50次循环后白泥取得了更高的硫酸化转化率,高于15次和100次循环后的转化率。这与白泥在循环碳酸化/煅烧中的孔隙结构有关。碳酸化/煅烧循环次数对白泥硫酸化时的活化能有较大影响。经历了不同循环次数的白泥,在硫酸化时化学反应活化能介于15~50,kJ/mol 之间,而产物层扩散活化能则介于40~168,kJ/mol之间。
在熱重儀上研究瞭經歷不同碳痠化/煅燒循環反應後白泥的硫痠化特性、微觀結構及硫痠化反應動力學。結果錶明,在典型循環流化床鍋爐溫度範圍內(850~950,℃),提高反應溫度有利于循環碳痠化/煅燒後白泥的硫痠化反應,但對于100次循環反應後的白泥,溫度對其硫痠化轉化率影響不大。未循環白泥取得瞭最高硫痠化轉化率,此後隨著碳痠化/煅燒循環次數增加,硫痠化轉化率衰減,但50次循環後白泥取得瞭更高的硫痠化轉化率,高于15次和100次循環後的轉化率。這與白泥在循環碳痠化/煅燒中的孔隙結構有關。碳痠化/煅燒循環次數對白泥硫痠化時的活化能有較大影響。經歷瞭不同循環次數的白泥,在硫痠化時化學反應活化能介于15~50,kJ/mol 之間,而產物層擴散活化能則介于40~168,kJ/mol之間。
재열중의상연구료경력불동탄산화/단소순배반응후백니적류산화특성、미관결구급류산화반응동역학。결과표명,재전형순배류화상과로온도범위내(850~950,℃),제고반응온도유리우순배탄산화/단소후백니적류산화반응,단대우100차순배반응후적백니,온도대기류산화전화솔영향불대。미순배백니취득료최고류산화전화솔,차후수착탄산화/단소순배차수증가,류산화전화솔쇠감,단50차순배후백니취득료경고적류산화전화솔,고우15차화100차순배후적전화솔。저여백니재순배탄산화/단소중적공극결구유관。탄산화/단소순배차수대백니류산화시적활화능유교대영향。경력료불동순배차수적백니,재류산화시화학반응활화능개우15~50,kJ/mol 지간,이산물층확산활화능칙개우40~168,kJ/mol지간。
The sulfation behavior , microstructure and sulfation kinetics of white mud after various carbona-tion/calcination cycles were investigated in a thermo-gravimetric analyzer. The results show that at the typical CFB boiler temperatures(850-950,℃),higher sulfation temperature is beneficial for the sulfation of white mud after various carbonation/calcination cycles. However,the effect of sulfation temperature on the sulfation conversion of white mud after 100,cycles is little. The uncycled white mud achieves the highest sulfation conversion. The sulfation conversion of white mud decreases with the increase of the number of cycles,but it achieves a higher conversion after 50 cycles,which is greater than that after 15 and 100 cycles. The sulfation behavior of white mud after various cycles is related to pore structure. The carbonation/calcination cycle number has an important effect on the activation energy for sulfation of white mud. The chemical reaction activation energy for sulfation of white mud after various carbonation/calcination cycles is within the range of 15-50,kJ/mol,and the activation energy for product layer diffu-sion is within the range of 40-168,kJ/mol.
