安徽化工
安徽化工
안휘화공
ANHUI CHEMICAL INDUSTRY
2015年
1期
24-28
,共5页
陈未来%崔洁%熊浪%程慕鑫%李召召%营莹
陳未來%崔潔%熊浪%程慕鑫%李召召%營瑩
진미래%최길%웅랑%정모흠%리소소%영형
柴油%二苯并噻吩%脱硫
柴油%二苯併噻吩%脫硫
시유%이분병새분%탈류
diesel%dibenzothiophene%desulfurization
加氢柴油中残留的硫化物主要为二苯并噻吩及其衍生物,因此,脱除柴油中二苯并噻吩类硫化物是实现柴油深度脱硫的关键技术。系统地介绍了加氢脱硫、生物脱硫、氧化脱硫和吸附脱硫等技术及其优缺点,重点介绍了反应吸附脱硫技术的最新研究进展。
加氫柴油中殘留的硫化物主要為二苯併噻吩及其衍生物,因此,脫除柴油中二苯併噻吩類硫化物是實現柴油深度脫硫的關鍵技術。繫統地介紹瞭加氫脫硫、生物脫硫、氧化脫硫和吸附脫硫等技術及其優缺點,重點介紹瞭反應吸附脫硫技術的最新研究進展。
가경시유중잔류적류화물주요위이분병새분급기연생물,인차,탈제시유중이분병새분류류화물시실현시유심도탈류적관건기술。계통지개소료가경탈류、생물탈류、양화탈류화흡부탈류등기술급기우결점,중점개소료반응흡부탈류기술적최신연구진전。
Residual sulfur-containing compounds in hydrogenated diesel are mainly dibenzothiophene and its derivatives (DBTs). Therefore, removing DBTs from diesel fuels is the key to ultra-deep desulfurization technology for diesel fuels. The hydrodesulfurization, biological desulfurization, oxidative desulfurization and absorptive desulfurization technology are systematically introduced in the paper, in which the latest research progress of reactive adsorption desulfurization is described in detail.