苏州科技学院学报:工程技术版
囌州科技學院學報:工程技術版
소주과기학원학보:공정기술판
Journal of University of Science and Technology of Suzhou:Engineering and Technology
2012年
1期
64-67,75
,共5页
烟气灰%机械研磨%化学激发%活性系数
煙氣灰%機械研磨%化學激髮%活性繫數
연기회%궤계연마%화학격발%활성계수
off ash gas%mechanical grinding%chemical excitation%activity coefficient
烟气灰是从锰铁高炉烟道中收集下来的废渣,含有CaO、MgO和Al2O3等活性化学成分,但玻璃体数量较少,活性较低。文中采用机械活化和化学激发并用的方法,提高烟气灰的活性,并按照GB/T 12957-2005规定的比强度法对烟气灰活性进行了评价。结果表明:机械研磨有利于烟气灰的活性激发,随着粉磨时间的增长,烟气灰的比表面积增大,粒径趋于向小粒径方向分布,机械研磨20~35 min,烟气灰活性系数可达0.8;化学激发剂可进一步提高烟气灰的活性,掺入5%的自配FAA复合激发剂可使烟气灰的活性系数提高至0.9以上。
煙氣灰是從錳鐵高爐煙道中收集下來的廢渣,含有CaO、MgO和Al2O3等活性化學成分,但玻璃體數量較少,活性較低。文中採用機械活化和化學激髮併用的方法,提高煙氣灰的活性,併按照GB/T 12957-2005規定的比彊度法對煙氣灰活性進行瞭評價。結果錶明:機械研磨有利于煙氣灰的活性激髮,隨著粉磨時間的增長,煙氣灰的比錶麵積增大,粒徑趨于嚮小粒徑方嚮分佈,機械研磨20~35 min,煙氣灰活性繫數可達0.8;化學激髮劑可進一步提高煙氣灰的活性,摻入5%的自配FAA複閤激髮劑可使煙氣灰的活性繫數提高至0.9以上。
연기회시종맹철고로연도중수집하래적폐사,함유CaO、MgO화Al2O3등활성화학성분,단파리체수량교소,활성교저。문중채용궤계활화화화학격발병용적방법,제고연기회적활성,병안조GB/T 12957-2005규정적비강도법대연기회활성진행료평개。결과표명:궤계연마유리우연기회적활성격발,수착분마시간적증장,연기회적비표면적증대,립경추우향소립경방향분포,궤계연마20~35 min,연기회활성계수가체0.8;화학격발제가진일보제고연기회적활성,참입5%적자배FAA복합격발제가사연기회적활성계수제고지0.9이상。
Off ash gas generated during the production of the manganese iron is a kind of industrial residue.It is made up of CaO、MgO and Al2O3 and so on.But glassiness included in the residue is low and results in the low activity of the off ash gas.Both mechanical and chemical excitation methods were adopted in the experiment for activating off ash gas.The activity of off ash gas is evaluated by the specific strength according to the GB/T 12957-2005.The results show that the mechanical grinding is propitious to activating off ash gas.With the growth of milling time,the specific surface area of off ash gas is increasing,and particle distribution is in the trend of small size distribution.When the milling time is up to 20-35 min,the activity coefficient of off ash gas can reach 0.8.Chemical agent added in active off ash gas can ulteriorly improve its activity.The composite chemical agent FAA made from laboratory added by 5% can increase the activity coefficient of off ash gas to 0.9.