燃料化学学报
燃料化學學報
연료화학학보
JOURNAL OF FUEL CHEMISTRY AND TECHNOLOGY
2015年
8期
932-939
,共8页
梁鹏%王晓航%张希望%魏爱芳%姜万敏%张荣%毕继诚
樑鵬%王曉航%張希望%魏愛芳%薑萬敏%張榮%畢繼誠
량붕%왕효항%장희망%위애방%강만민%장영%필계성
含尘焦油%白云石催化剂%裂解%再生%粉尘
含塵焦油%白雲石催化劑%裂解%再生%粉塵
함진초유%백운석최화제%렬해%재생%분진
dust-containing tar%dolomite catalyst%cracking%regeneration%dust
采用混捏法制备了一种添加助剂La的Ni-白云石催化剂。在常压固定床反应器中,以正十二烷、环己烷、甲苯和甲基萘的混合物作为焦油模型化合物,进行焦油裂解特性研究。考察了温度、空速、水料比等条件对气相产物产率的影响,对该催化剂进行了稳定性和再生性评价,在此基础上探讨了粉尘在催化剂表面沉积对催化剂性能影响的作用及机理。结果表明,该催化剂的最佳操作条件为反应温度800℃、空速300 h-1、水料比5:1、再生温度700℃、再生时间1 h。 XRD表征结果表明,改性白云石催化剂中形成了MgO-NiO固溶体和La( NiO3)晶相。粉尘中的不同组分对催化剂性能的影响不同,CaO有利于提高催化剂的活性,Fe2 O3的沉积会形成NiFe2 O4的新晶相,而SiO2会促进表面积炭,对催化活性的“抑制”作用明显。
採用混捏法製備瞭一種添加助劑La的Ni-白雲石催化劑。在常壓固定床反應器中,以正十二烷、環己烷、甲苯和甲基萘的混閤物作為焦油模型化閤物,進行焦油裂解特性研究。攷察瞭溫度、空速、水料比等條件對氣相產物產率的影響,對該催化劑進行瞭穩定性和再生性評價,在此基礎上探討瞭粉塵在催化劑錶麵沉積對催化劑性能影響的作用及機理。結果錶明,該催化劑的最佳操作條件為反應溫度800℃、空速300 h-1、水料比5:1、再生溫度700℃、再生時間1 h。 XRD錶徵結果錶明,改性白雲石催化劑中形成瞭MgO-NiO固溶體和La( NiO3)晶相。粉塵中的不同組分對催化劑性能的影響不同,CaO有利于提高催化劑的活性,Fe2 O3的沉積會形成NiFe2 O4的新晶相,而SiO2會促進錶麵積炭,對催化活性的“抑製”作用明顯。
채용혼날법제비료일충첨가조제La적Ni-백운석최화제。재상압고정상반응기중,이정십이완、배기완、갑분화갑기내적혼합물작위초유모형화합물,진행초유렬해특성연구。고찰료온도、공속、수료비등조건대기상산물산솔적영향,대해최화제진행료은정성화재생성평개,재차기출상탐토료분진재최화제표면침적대최화제성능영향적작용급궤리。결과표명,해최화제적최가조작조건위반응온도800℃、공속300 h-1、수료비5:1、재생온도700℃、재생시간1 h。 XRD표정결과표명,개성백운석최화제중형성료MgO-NiO고용체화La( NiO3)정상。분진중적불동조분대최화제성능적영향불동,CaO유리우제고최화제적활성,Fe2 O3적침적회형성NiFe2 O4적신정상,이SiO2회촉진표면적탄,대최화활성적“억제”작용명현。
A Ni-dolomite catalyst with promoter Lanthanum was prepared by kneading method. The catalyst was used for the cracking reaction of tar model compound containing N-dodecane, cyclohexane, toluene and methylnaphthalene in an atmospheric fixed reactor. The effects of temperature, space velocity and the ratio of water and ingredient on the yield of gas products were examined. The stability test and reaction-regeneration experiments were conducted. Moreover, cracking characteristics of dust-containing tar over the catalyst and dust deposition mechanism were investigated. The results show that the optimum operating condition for the catalyst is reaction temperature 800 ℃, space velocity 300 h-1 , the ratio of water to ingredient 5 :1 . The optimum regeneration condition is 700 ℃ and 1 h. XRD results show that MgO-NiO solid solution and La ( NiO3 ) crystalline phase are converted in the modified dolomite catalyst. Different dust species depositing on the catalyst surface have different influences on the catalytic activity. CaO can improve the catalytic activity. The deposition of Fe2 O3 can convert into a new crystalline phase NiFe2 O4 . SiO2 plays a promoting role in carbon deposition, which can significantly inhibit the catalytic activity.
