摘要
采用淀粉及聚合物-PDDA(聚二甲基二烯丙基氯化铵)分别作为有机添加剂,通过原位晶化方法制备NaY/高岭土复合物及催化裂化催化剂,并采用XRD、N_2吸附及ACE装置进行表征和评价。结果表明:引入淀粉或者聚合物-PDDA后,NaY/高岭土复合物结晶度从18%增加到24%,引入淀粉后,复合物介孔孔体积从0.180cm^3/g提升到0.355cm^3/g,而引入PDDA后,复合物介孔孔体积进一步增加到0.431cm^3/g;与空白试验相比,使用引入淀粉和PDDA所制备的催化剂时,油浆产率分别降低1.98百分点和2.43百分点,总液体收率增加2.55百分点和3.07百分点。
NaY kaolin composite microspheres and the corresponding FCC catalysts were prepared via in-situ synthesis by adding organic additives(starch and polymer PDDA).XRD,N 2-adsorption and ACE were used to study the crystallinity,pore structures,and the cracking performances of the NaY kaolin composites and catalysts.The results showed that the crystallinity of the composites is increased from 18%to 24%by adding starch or PDDA.The mesopore volume of the composites adding starch are increased from 0.180cm^3/g to 0.355cm^3/g,and further increased to 0.431cm^3/g by using PDDA additive.ACE tests showed the as-made catalyst using starch or PDDA improves the catalytic performances,the slurry yields are 1.98 and 2.43 percentage points lower than the reference,respectively,while the liquid yields increase 2.55 and 3.07 percentage points,respectively,compared to the catalysts prepared without additive.
作者
熊晓云
高雄厚
赵红娟
胡清勋
Xiong Xiaoyun;Gao Xionghou;Zhao Hongjuan;Hu Qingxun(PetroChina Lanzhou Petrochemical Research Center,Lanzhou 730060)
出处
《石油炼制与化工》
CAS
CSCD
北大核心
2019年第3期58-62,共5页
Petroleum Processing and Petrochemicals
关键词
催化裂化
原位晶化
催化剂
有机添加剂
大孔
FCC
in-situ crystallization
catalyst
organic additive
macropore
