燃料化学学报
燃料化學學報
연료화학학보
JOURNAL OF FUEL CHEMISTRY AND TECHNOLOGY
2010年
2期
207-211
,共5页
高俊华%胡津仙%李文怀%张立东%王建国
高俊華%鬍津仙%李文懷%張立東%王建國
고준화%호진선%리문부%장립동%왕건국
烷基化%HZSM-5%苯%乙醇
烷基化%HZSM-5%苯%乙醇
완기화%HZSM-5%분%을순
alkylation%HZSM-5%benzene%ethanol
采用离子交换方法,用硫酸铁、硝酸镍、硫酸钛对HZSM-5分子筛进行改性,得到三种不同金属改性的催化剂; 通过XRD、ICP、BET、NH_3-TPD、Py-IR对催化剂进行了表征,并在连续流动固定床反应装置上进行了活性评价.相同方法改性后钛的负载量最大,酸性变化不大;铁负载量次之,弱酸和中强酸量增加;镍的负载量最少,酸强度降低最多,孔径最小.反应评价结果表明,改性后的催化剂同未改性的相比苯的转化率增加,乙苯选择性略有降低,乙苯产率增加,其中铁、钛改性后的分子筛乙醇利用率增加.综合考虑,铁和钛是比较合适的改性元素.
採用離子交換方法,用硫痠鐵、硝痠鎳、硫痠鈦對HZSM-5分子篩進行改性,得到三種不同金屬改性的催化劑; 通過XRD、ICP、BET、NH_3-TPD、Py-IR對催化劑進行瞭錶徵,併在連續流動固定床反應裝置上進行瞭活性評價.相同方法改性後鈦的負載量最大,痠性變化不大;鐵負載量次之,弱痠和中彊痠量增加;鎳的負載量最少,痠彊度降低最多,孔徑最小.反應評價結果錶明,改性後的催化劑同未改性的相比苯的轉化率增加,乙苯選擇性略有降低,乙苯產率增加,其中鐵、鈦改性後的分子篩乙醇利用率增加.綜閤攷慮,鐵和鈦是比較閤適的改性元素.
채용리자교환방법,용류산철、초산얼、류산태대HZSM-5분자사진행개성,득도삼충불동금속개성적최화제; 통과XRD、ICP、BET、NH_3-TPD、Py-IR대최화제진행료표정,병재련속류동고정상반응장치상진행료활성평개.상동방법개성후태적부재량최대,산성변화불대;철부재량차지,약산화중강산량증가;얼적부재량최소,산강도강저최다,공경최소.반응평개결과표명,개성후적최화제동미개성적상비분적전화솔증가,을분선택성략유강저,을분산솔증가,기중철、태개성후적분자사을순이용솔증가.종합고필,철화태시비교합괄적개성원소.
Alkylation of benzene with ethanol has been investigated over Fe,Ni,Ti ion exchanged modified HZSM-5 catalysts. The catalysts were characterized by NH_3-TPD,Py-IR,XRD,BET,ICP. The Ti loading amount is the most and the Ni loading amount is the least. Modification of Ni enhanced the strong acid and depressed the moderate acid. After modified by Fe the weak and moderate acid increased and the strong acid decreased. With modification of Ti, the weak and moderate acid did not change significantly while the strong acid increased .The ratio of B acid and L acid of Ni-ZSM-5 decreased, the Fe-HZSM-5 and Ti-HZSM-5 increased. The pore diameter of and the BET surface area decreased after Fe and Ti modification. The reaction results showed that the ethylbenzene selectivity of the catalysts decreased a little after modification, while the ethylbenzene yield and benzene conversion increased. In conclusion, the Fe-HZSM-5 and Ti-HZSM-5 were the proper catalysts for the title reaction.
