Screening of optimum condition for combined modification of ultra-stable Y zeolites using multi-hydroxyl carboxylic acid and phosphate
详细信息 查看全文
- 作者:Xing-wen Chang ; Li-feng He ; Hai-ning Liang ; Xin-mei Liu ; Zi-feng Yan
- 关键词:Multi-hydroxyl carboxylic acid ; Phosphate ; USY zeolites ; Modification ; Orthogonal experiment
- 刊名:Catalysis Today
- 出版年:2010
- 出版时间:22 December 2010
- 年:2010
- 卷:158
- 期:3-4
- 页码:198-204
- 全文大小:464 K
文摘
According to the performance requirements of hydrocracking catalyst with high selectivity to middle distillate, multi-hydroxyl carboxylic acid (MHCA) and phosphate (AP) were used to achieve combined dealuminum modification of ultra-stable Y zeolites. The modification effect was influenced by the concentration of MHCA and AP, liquid–liquid ratio, reaction temperature and reaction time. In order to find the optimum modification condition, orthogonal experiment was adopted. L27(313) orthogonal layout with five factors and three levels was designed and their orthogonal interactions were also included. After investigating the coupling effect of modification systems, the structure and properties of modified samples were characterized by means of BET, FT-IR, NH3-TPD, XRD and TG–DTA. The optimum modification condition was obtained from variance analysis. When the modification was operated under 100 °C lasting 8 h with MHCA 0.4 mol/L, AP 0.2 mol/L and liquid–liquid ratio 1.5, the modified USY samples could have developed secondary pore 0.184 cm3/g, 43.7 % of the whole pore volume, and appropriate acid distribution as well as good crystallinity. And then 1 L scale-up test was done. The results showed that the secondary pore volume of modified samples could reach 0.145 cm3/g, 43.9 % of the whole pore volume, and the amount and intensity of medium strong acid as well as the thermal stability of modified USY were favorable. Performance evaluation was carried out on a 200 mL fixed—bed single stage hydrogenation unit using Daqing VGO as feedstock. The 140–370 °C middle distillate yield was 66.04 % , and middle distilate selectivity could reach up to 80.43 % . Compared with commercial catalyst, the yield and selectivity were increased by 5.62 % and 4.05 % , respectively. This result showed that combined modification using multi-hydroxyl carboxylic acid and phosphate could meet the need of productive middle distillate in the industrial unit, which predicted it might be a potentially industrialized method of Y zeolites modification.