摘要
概述了未来炼油厂主要任务中关键技术的特点和使用效果. (1)提高轻质油收率, 关键在于重油的高效转化, 关键技术包括渣油加氢技术、重油加氢与催化裂化双向组合技术、多产轻质油的催化裂化蜡油选择性加氢工艺与选择性催化裂化工艺集成技术、浅度溶剂脱沥青-脱沥青油加氢处理-催化裂化技术; (2)生产清洁燃料, 主要是生产要求越来越高的清洁汽油和柴油, 关键技术有汽油选择性加氢脱硫技术、柴油超深度加氢脱硫技术、柴油超深度加氢脱硫催化剂; (3)生产优质化工原料, 关键技术主要是催化丙烯技术.
The primary tasks of refineries in the future are to improve the yield of light oil and to produce clean fuels and high‐quality chemical raw materials.The efficient conversion of heavy oil is necessary to improve the yield of light oil.This conversion requires some crucial technologies,including:(1) residue hydrotreating technology,(2) the research institute of petroleum processing’s(RIPP’s) integrated combination process for residue hydroprocessing,(3) the integration of selective hydrogenation of fluid catalytic cracking gas oil with selective catalytic cracking process,and(4) the combination of superficial solvent deasphalting,hydrotreatment of deasphalted oil,and fluid catalytic cracking technology.The most important technologies for producing clean fuels such as qualified gasoline and diesel include the RIPP’s selective hydrodesulfurization technology,the RIPP’s hydro‐ genation technology for producing ultra‐low‐sulfur diesel fuel,and catalysts for producing RS‐1000 and RS‐2000(grades of ultra‐low‐sulfur diesel).To produce high quality chemical raw materials,the Sinopec hydroprocessing for maximum propylene of fluid catalytic cracking process is of vital importance.The characteristics and effects of these technologies are summarized in this article.
出处
《催化学报》
SCIE
EI
CAS
CSCD
北大核心
2013年第1期48-60,共13页
关键词
渣油
沥青质
汽油
柴油
催化加氢
催化裂化
丙烯
Residue
Asphaltenes
Gasoline
Diesel
Catalytic hydrogenation
Fluid catalytic cracking
Propylene