化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2013年
5期
1060-1064
,共5页
任春晓%吴培%李振昊%贺兆伟%阎立军%李文乐
任春曉%吳培%李振昊%賀兆偉%閻立軍%李文樂
임춘효%오배%리진호%하조위%염립군%리문악
加氢催化剂%硫化剂%器内预硫化%器外预硫化
加氫催化劑%硫化劑%器內預硫化%器外預硫化
가경최화제%류화제%기내예류화%기외예류화
hydrogenation catalyst%vulcanizing agent%ex-situ presulfurization%in-situ presulfurization
介绍了器内预硫化和器外预硫化两种加氢催化剂预硫化技术,阐述了催化剂预硫化反应原理,并对硫化剂进行了比选,讨论了干法硫化和湿法硫化两种器内预硫化技术的特点.干法硫化技术主要适用于分子筛含量较高的加氢催化剂,而湿法硫化技术主要适用于加氢精制类催化剂.通过对比器内预硫化与器外预硫化技术的优缺点,并对国内外器外预硫化技术研究现状进行了综述,认为器外预硫化技术具有开工时间短、环境污染小等优点,必将逐渐替代现有的器内预硫化技术成为加氢催化剂预硫化的主要技术,将是加氢催化剂预硫化技术未来研究发展的方向.
介紹瞭器內預硫化和器外預硫化兩種加氫催化劑預硫化技術,闡述瞭催化劑預硫化反應原理,併對硫化劑進行瞭比選,討論瞭榦法硫化和濕法硫化兩種器內預硫化技術的特點.榦法硫化技術主要適用于分子篩含量較高的加氫催化劑,而濕法硫化技術主要適用于加氫精製類催化劑.通過對比器內預硫化與器外預硫化技術的優缺點,併對國內外器外預硫化技術研究現狀進行瞭綜述,認為器外預硫化技術具有開工時間短、環境汙染小等優點,必將逐漸替代現有的器內預硫化技術成為加氫催化劑預硫化的主要技術,將是加氫催化劑預硫化技術未來研究髮展的方嚮.
개소료기내예류화화기외예류화량충가경최화제예류화기술,천술료최화제예류화반응원리,병대류화제진행료비선,토론료간법류화화습법류화량충기내예류화기술적특점.간법류화기술주요괄용우분자사함량교고적가경최화제,이습법류화기술주요괄용우가경정제류최화제.통과대비기내예류화여기외예류화기술적우결점,병대국내외기외예류화기술연구현상진행료종술,인위기외예류화기술구유개공시간단、배경오염소등우점,필장축점체대현유적기내예류화기술성위가경최화제예류화적주요기술,장시가경최화제예류화기술미래연구발전적방향.
Two presulfurization technologies for hydrogenation catalyst are introduced. One is in-situ presulfurization technology , and the other is ex-situ presulfurization technology. The catalyst presulfurization reaction principle is expounded,and the vulcanizing agent is compared. The characteristics of dry sulfurization and wet sulfurization technologies are discussed,i.e.,dry sulfurization technology is mainly applied to high contain molecular sieve in hydrogenation catalyst, and wet sulfurization technology is mainly applied to hydrotreating catalyst. By comparing in-situ presulfurization and ex-situ presulfurization technology,research status on ex-situ presulfurization technology is summarized,i.e.,ex-situ presulfurization technology needs short starting period and leads less environment pollution,and it will replace existing presulfurization technology gradually and become a main presulfurization technology for hydrogenation catalyst. Ex-site presulfurization technology will be the focus of technical development for hydrogenation catalyst in the future.
