燃料化学学报
燃料化學學報
연료화학학보
JOURNAL OF FUEL CHEMISTRY AND TECHNOLOGY
2015年
8期
998-1003
,共6页
张维%刘晓丹%白英芝%王海彦%魏民
張維%劉曉丹%白英芝%王海彥%魏民
장유%류효단%백영지%왕해언%위민
溶胶凝胶法%MoO3-ZrO2 复合氧化物%介孔%加氢脱硫
溶膠凝膠法%MoO3-ZrO2 複閤氧化物%介孔%加氫脫硫
용효응효법%MoO3-ZrO2 복합양화물%개공%가경탈류
sol-gel method%MoO3-ZrO2 composite oxides%mesoporous%hydrodesulfurization
采用溶胶凝胶法制备介孔MoO3-ZrO2复合氧化物,考察MoO3/ZrO2的质量比对其晶相结构、比表面积、孔径以及形貌特征的影响。利用XRD、N2吸附-脱附、SEM及FT-IR表征对所制得的复合氧化物进行分析。以FCC汽油馏分为原料,对MoO3-ZrO2经预硫化后制得的催化剂进行加氢脱硫评价。结果表明,含有MoO3的ZrO2与不含MoO3的ZrO2相比单斜相减少,主要以稳定的四方相存在。适当的提高MoO3/ZrO2的质量比有利于MoO3-ZrO2复合氧化物的比表面积和平均孔径的增大,但过大的质量比并不利于介孔的生长,并且有新的化合键和少量Zr ( MoO4)2相产生。当MoO3/ZrO2的质量比为30%时,ZrO2表面出现蠕虫状结构,此时脱硫率最高。由此,适当提高MoO3/ZrO2质量比可使催化剂的脱硫率升高。
採用溶膠凝膠法製備介孔MoO3-ZrO2複閤氧化物,攷察MoO3/ZrO2的質量比對其晶相結構、比錶麵積、孔徑以及形貌特徵的影響。利用XRD、N2吸附-脫附、SEM及FT-IR錶徵對所製得的複閤氧化物進行分析。以FCC汽油餾分為原料,對MoO3-ZrO2經預硫化後製得的催化劑進行加氫脫硫評價。結果錶明,含有MoO3的ZrO2與不含MoO3的ZrO2相比單斜相減少,主要以穩定的四方相存在。適噹的提高MoO3/ZrO2的質量比有利于MoO3-ZrO2複閤氧化物的比錶麵積和平均孔徑的增大,但過大的質量比併不利于介孔的生長,併且有新的化閤鍵和少量Zr ( MoO4)2相產生。噹MoO3/ZrO2的質量比為30%時,ZrO2錶麵齣現蠕蟲狀結構,此時脫硫率最高。由此,適噹提高MoO3/ZrO2質量比可使催化劑的脫硫率升高。
채용용효응효법제비개공MoO3-ZrO2복합양화물,고찰MoO3/ZrO2적질량비대기정상결구、비표면적、공경이급형모특정적영향。이용XRD、N2흡부-탈부、SEM급FT-IR표정대소제득적복합양화물진행분석。이FCC기유류분위원료,대MoO3-ZrO2경예류화후제득적최화제진행가경탈류평개。결과표명,함유MoO3적ZrO2여불함MoO3적ZrO2상비단사상감소,주요이은정적사방상존재。괄당적제고MoO3/ZrO2적질량비유리우MoO3-ZrO2복합양화물적비표면적화평균공경적증대,단과대적질량비병불리우개공적생장,병차유신적화합건화소량Zr ( MoO4)2상산생。당MoO3/ZrO2적질량비위30%시,ZrO2표면출현연충상결구,차시탈류솔최고。유차,괄당제고MoO3/ZrO2질량비가사최화제적탈류솔승고。
Mesoporous MoO3-ZrO2 composite oxides were prepared by sol-gel method. The influence of the mass ratio of MoO3/ZrO2 on the crystal phase, specific surface area, pore size and morphology characteristics were investigated. The synthesized composite oxides were characterized by XRD, BET, SEM and FT-IR. With FCC gasoline fraction as the raw material, the catalytic activity was evaluated by hydrodesulfurization reaction after the prevulcanization of the composite oxides. The results show that the ZrO2 containing MoO3 had less monoclinic phase than ZrO2 and mainly existed in stable tetragonal phase. The appropriate improvement of the mass ratio of MoO3/ZrO2 were beneficial to the increase of specific surface area and average pore size. The excessive mass ratio of MoO3/ZrO2 depressed the formation of mesopores and produced a new type chemical bond and a small amount of Zr( MoO4 ) 2 crystal phase. When the mass ratio of MoO3/ZrO2 was 30%, the worm structure appeared on the surface of ZrO2 , and the desulfurization rate reached its maximum. Thus, the appropriate improvement of the mass ratio of MoO3/ZrO2 could obtain a higher desulfurization rate.