1) isodewaxing
异构脱蜡
1.
The production of high quality base oils should rely on the developmment hydrocracking and isodewaxing technologies.
生产高质量基础油的重点是开发自主知识产权的加氢裂化、异构脱蜡技术。
2.
The role of hydrotreating, hydrocracking and isodewaxing in the production of API group Ⅱand Ⅲ basestocks is discussed.
从润滑油基础油生产的角度论述了加氢处理、加氢裂化和异构脱蜡等工艺在生产APIⅡ和Ⅲ类基础油中的作用。
3.
It is pointed out that the furfural extraction is very important in almost all the production technologies of lube base oil, including the traditional furfural extraction-MEK dewaxing-hydrogenation or clay finishing and rising hydrogenation processing and isodewaxing.
介绍了国内外几种典型的糠醛精制工艺及其在不同基础油生产工艺中的应用情况,提出糠醛精制工艺几乎在所有润滑油基础油生产工艺中都具有举足轻重的作用,包括传统的糠醛精制-酮苯脱蜡-加氢(白土)补充精制工艺和新兴的加氢处理及异构脱蜡工艺等,从而应予以充分重视。
2) IDW
异构脱蜡
1.
SETTING UP MATHEMATICAL MODEL OPTIMIZATION AND DISCUSSION ABOUT HEAVY OIL YIELD WITH 5.0mm~2/s IN IDW UNIT;
异构脱蜡装置5.0mm~2/s重质油收率建模优化和探讨
2.
THE COMPREHENSIVE APPLICATION OF IDW PRODUCTS;
异构脱蜡产品的综合利用
3.
PRODUCTION OF HIGH-QUALITY LUBRICATING BASE OIL WITH IDW TECHNOLOGY;
利用异构脱蜡技术生产优质润滑油基础油
3) isodewaxing technology
异构脱蜡技术
4) hydroisomerization dewax
加氢异构脱蜡
1.
Study on the performance comparisons of hydroisomerization dewax base oil and solvent refining base oil;
加氢异构脱蜡基础油与溶剂精制基础油性能对比考察
5) wax isomerization
蜡异构化
1.
The latest advancement and commercial applications of catalytic dewaxing, isodewaxing, MDDW and wax isomerization as well as the combined processes were reviewed inside and outside China.
论述了润滑油脱蜡的意义,综述了国内外催化脱蜡、异构脱蜡、临氢降凝、蜡异构化及组合工艺的最新发展和工业应用情况,提出了发展我国加氢脱蜡技术的建议。
6) dehydroisomerization
异构脱氢
1.
The catalytic performance of the synthesized molecular sieves, modified by Pd or Pt, for isomerization and dehydroisomerization of n butane was investigated.
在以合成的分子筛为基质所制备的催化剂上进行了丁烷异构化和一步异构脱氢反应 。
2.
The isomerization and dehydroisomerization of n-butane have been studied and the latter reaction is thought to be more economical for the production of isobutene.
本论文即以丁烷一步异构脱氢反应为背景,广泛考察了担载金属的分子筛双功能催化剂的反应性能,并借助于NH_3-TPD,IR,MAS NMR,XPS,XRD,物理吸附,CO脉冲化学吸附,TPR等多种现代分析表征手段,深入探讨了双功能催化剂中担载金属与载体之间的相互作用。
补充资料:传蜡
1.唐韩翃《寒食》诗:"春城无处不飞花,寒食东风御柳斜。日暮汉宫传蜡烛,轻烟散入五侯家。"谓寒食节宫中钻新火燃烛,以赐贵戚近臣,然后传之于民。
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