NT-1和BCH催化剂在乙烯淤浆聚合中的催化性能

化工进展

NT-1和BCH催化剂在乙烯淤浆聚合中的催化性能

孟伟娟1，2，张欣2，李洪泊2，李建伟1，陈标华1

1北京化工大学化工资源有效利用国家重点实验室，北京100029；2中国石油化工股份有限公司北京化工研究院燕山分院，北京102500

出版日期:2011-06-05 发布日期:2011-06-05

Performance of NT-1 and BCH catalysts in ethylene slurry polymerization

MENG Weijuan1，2，ZHANG Xin2，LI Hongbo2，LI Jianwei1，CHEN Biaohua1

1State Key Laboratory of Chemical Resource Engineering，Beijing University of Chemical Technology，Beijing 100029，China；2Research Institute of Beijing Yanshan Petrochemical Limited Company，SINOPEC，Beijing 102500，China

Online:2011-06-05 Published:2011-06-05

摘要/Abstract

摘要：

利用XRD和BET测试技术对BCH和NT-1两种工业催化剂进行了物相表征和结构分析，研究了两种催化剂的结构对其催化乙烯淤浆聚合活性的影响。结果表明，BCH催化剂较多的大孔有利于单体的扩散，使得其初始活性较高，随着部分活性中心的被包埋导致中后期活性低于NT-1催化剂。采用NT-1催化剂聚合得到的产品粉末平均粒径大，粒径分布集中，但堆密度略低；产品的力学性能略优于用BCH聚合得到的产品。NT-1催化剂的氢调敏感性和共聚性能优于BCH催化剂。

Abstract:

The physical and structural properties of BCH and NT-1 industrial catalysts were characterized with XRD and BET. The effect of their structure on catalytic activity for ethylene slurry polymerization was investigated. It was found that BCH had a higher initial activity due to more macro-pores，which was in favor of the diffusion of ethylene. During the intermediate and final stage，the activity of BCH was lower than NT-1 because part of active sites were embedded by polymer. The product synthesized by NT-1 catalyst possessed bigger average particle size，narrower particle size distribution and better mechanical properties than that synthesized by BCH catalyst. However，the bulk density of polyethylene produced by NT-1 catalyst was slightly lower than that produced by BCH catalyst. NT-1 catalyst’s sensitivity of hydrogen response and ability of copolymerization were better than those of BCH catalyst.

孟伟娟1，2，张欣2，李洪泊2，李建伟1，陈标华1. NT-1和BCH催化剂在乙烯淤浆聚合中的催化性能 [J]. 化工进展.

MENG Weijuan1，2，ZHANG Xin2，LI Hongbo2，LI Jianwei1，CHEN Biaohua1 . Performance of NT-1 and BCH catalysts in ethylene slurry polymerization[J]. Chemical Industry and Engineering Progree.