中国有色金属学报(英文版)
中國有色金屬學報(英文版)
중국유색금속학보(영문판)
TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
2015年
6期
2065-2072
,共8页
蒋周青%杨静%马鸿文%王乐%马玺
蔣週青%楊靜%馬鴻文%王樂%馬璽
장주청%양정%마홍문%왕악%마새
高铝粉煤灰%Al2O3%SiO2%碱液处理%反应行为
高鋁粉煤灰%Al2O3%SiO2%堿液處理%反應行為
고려분매회%Al2O3%SiO2%감액처리%반응행위
high alumina coal fly ash%Al2O3%SiO2%alkali hydrothermal treatment%reaction behaviour
研究高铝粉煤灰中Al2O3与SiO2组分在NaOH碱液中不同水热条件下的反应行为。采用XRD、XRF、SEM、FTIR等测试方法对高铝粉煤灰碱溶液处理前后的物相组成和形貌变化进行表征,得到粉煤灰Al2O3和SiO2组分的溶出率变化规律。结果表明,高铝粉煤灰经75°C到160°C不同温度碱溶液处理后,颗粒表面硅铝玻璃相消失,依次生成钠型沸石、A型沸石、P型沸石及羟基方钠石,所含刚玉及莫来石相未被完全溶解。在低碱浓度溶液中P型沸石为主要生成相,高碱浓度下羟基方钠石为稳定的相。在铝硅玻璃体溶解和沸石相生成两种反应的共同作用下,粉煤灰中SiO2的溶出率可达42.13%,滤渣中Al2O3/SiO2质量比提高到2.19:1.
研究高鋁粉煤灰中Al2O3與SiO2組分在NaOH堿液中不同水熱條件下的反應行為。採用XRD、XRF、SEM、FTIR等測試方法對高鋁粉煤灰堿溶液處理前後的物相組成和形貌變化進行錶徵,得到粉煤灰Al2O3和SiO2組分的溶齣率變化規律。結果錶明,高鋁粉煤灰經75°C到160°C不同溫度堿溶液處理後,顆粒錶麵硅鋁玻璃相消失,依次生成鈉型沸石、A型沸石、P型沸石及羥基方鈉石,所含剛玉及莫來石相未被完全溶解。在低堿濃度溶液中P型沸石為主要生成相,高堿濃度下羥基方鈉石為穩定的相。在鋁硅玻璃體溶解和沸石相生成兩種反應的共同作用下,粉煤灰中SiO2的溶齣率可達42.13%,濾渣中Al2O3/SiO2質量比提高到2.19:1.
연구고려분매회중Al2O3여SiO2조분재NaOH감액중불동수열조건하적반응행위。채용XRD、XRF、SEM、FTIR등측시방법대고려분매회감용액처리전후적물상조성화형모변화진행표정,득도분매회Al2O3화SiO2조분적용출솔변화규률。결과표명,고려분매회경75°C도160°C불동온도감용액처리후,과립표면규려파리상소실,의차생성납형비석、A형비석、P형비석급간기방납석,소함강옥급막래석상미피완전용해。재저감농도용액중P형비석위주요생성상,고감농도하간기방납석위은정적상。재려규파리체용해화비석상생성량충반응적공동작용하,분매회중SiO2적용출솔가체42.13%,려사중Al2O3/SiO2질량비제고도2.19:1.
The reaction behaviours of Al2O3 and SiO2 in high alumina coal fly ash under various alkali hydrothermal conditions were studied. The means of XRD, XRF, FTIR and SEM were used to measure the mineral phase and morphology of the solid samples obtained by different alkali hydrothermal treatments as well as the leaching ratio of SiO2 to Al2O3 in alkali solution. The results showed that with the increase of the hydrothermal treating temperature from 75 to 160 °C, phillipsite-Na, zeolite A, zeolite P, and hydroxysodalite were produced sequentially while the mullite and corundum phase still remained. Zeolite P was massively formed at low-alkali concentration and the hydroxysodalite was predominantly obtained at high-alkali concentration. By the dissolution of aluminosilicate glass and the formation of zeolites together, the leaching efficiency of SiO2 can reach 42.13% with the mass ratio of Al2O3/SiO2 up to 2.19:1.
