加氢汽油

通过Tyndal效应、电镜观察和超过滤实验表明，FeCl3－Al（iBu）3－Phen催化剂在溶有了二烯的加氢汽油介质中为胶体分散系，活性中心位于胶粒表面，因此是胶体催化剂。

By the Tyndall effect , TEM observation and ultrafiltration experiment , FeCl 3 Al ( iBu ) 3 phen catalyst is proved as a colloidal disperse system in butadiene hydrogasoline solution .

采用N-甲酰吗啉（NFM）添加一种助溶剂（COS）构成复合溶剂作萃取精馏溶剂，从裂解加氢汽油苯馏分中回收高纯苯。

An extractive distillation process for recovering high purity benzene from pyrolysis gasoline was studied . The solvent selected was N - formylmorpholine ( NFM ) promoted by a co-solvent ( COS ) .

重整加氢汽油干点软测量应用研究

Application and Research of gasoline endpoint soft-sensing in hydroforming unit

通过提高反应深度，加氢汽油总硫的脱除率提高，汽油中硫醇硫含量下降。

Thus , total desulfurization percent of hydrotreated gasoline increases , and mercaptan sulfur content reduces , because of the higher depth of reaction .

结果表明：添加HDPE、PP使煤焦油中脂肪烃的相对收率提高，焦油中脂肪烃的含量明显增加和轻质化，可作为加氢精制汽油的原料；

The results show that the additions of HDPE and PP increase the yields of aliphatic hydrocarbons in tars . The remarkable increase of hydrocarbons and light compounds makes the tar be used as feedstocks for production of hydrogenated gasoline .

加氢焦化汽油芳构化改质提高辛烷值的研究

Study on aromatization of hydrotreated coker gasoline for improving octane number

掺炼加氢焦化汽油扩大重整原料来源

Expand Catalytic Reformer Feedstock Sources by Blending Hydrotreated Coker Naphtha

加氢焦化汽油中正、异构烃的吸附分离及优化利用

Adsorption Separation and Optimizing Utilization of Normal and iso-Hydrocarbons in Hydrotreated Coker Gasoline

高温煤焦油加氢制取汽油和柴油

Production of Gasoline and Diesel Oil by Hydrogenation of High Temperature Coal Tar

试验结果表明，加氢焦化汽油芳构化改质可使汽油马达法辛烷值由41.4提高到81.4，收率为67.3%。

The results showed that the gasoline MON raised from 41.4 to 81.4 with a yield of 67.3 % .

为了缓解催化重整原料不足的矛盾，锦州石化公司分别以石脑油、石脑油中掺入10%的加氢焦化汽油和石脑油中掺入25%的加氢焦化汽油作重整原料，进行生产试验。

To mitigate the catalytic reformer feedstock shortage , naphtha , naphtha blended with 10 % and 25 % of hydrotreated coker naphtha respectively were used as feedstocks by Jinzhou Petrochemical Company for commercial tests .

结果表明：与加氢焦化汽油相比，正构烃在相同的工艺条件下可使乙烯收率提高11%，吸余油的芳烃潜含量提高14%。

With the use of the desorption oil as the raw material , the ethylene yield increases by 11 % and the aromatic potential content of the raffinate oil increases by 14 % compared with the hydrotreated coker gasoline in the present plant and operation conditions .

本文就加氢后的汽油机过量空气系数、点火提前角的变化、燃烧过程的循环压力变动、发动机的经济性及HC和CO排放问题进行了研究。

Some changes of the excessive air ratio and ignition advanced timing after adding hydrogen , combustion pressure variation and some problems on economic performance and hydrocarbon and carbon monoxide emission are investigated in this paper .

介绍了OCT-M汽油选择性加氢技术在汽油加氢装置的应用情况。

This article introduced application of OCT-M technology on selective hydrogenation of catalytic gasoline in Refinery of Luoyang Petrochemical Co.

分析了FCC汽油中各种烯烃的加氢饱和对汽油辛烷值的影响，其中支链化程度不高且碳数大于6的烯烃的加氢饱和是FCC汽油加氢后辛烷值降低的主要原因。

The influences of olefin saturation on octane number of FCC gasoline in hydrotreating process were discussed . The main reason for the octane number loss of hydrotreated FCC gasoline was the saturation of low branched chain C_ ( 6 + ) olefins .

加氢技术在汽油质量升级中的应用及研究进展

Application of Hydrotreating Technology in Gasoline Quality Upgrading and Its Research Progress

催化裂化装置加工加氢渣油后汽油收率提高了2.67个百分点，干气收率下降1.29个百分点。不足之处是，柴油收率稍有降低，油浆产率略有增加。

With FCCU processing hydrogenated residue , the gasoline yield enhanced by 2.67 percent points , dry gas yield decreased by 1.29 percent points with a slight decrease of diesel yield and a slight increase of slurry .

考察了不同脱硫工艺、加氢催化剂对汽油硫含量和烯烃含量的影响，开发了催化裂化汽油选择性加氢脱硫技术（RSDS-Ⅰ），并在上海石化进行了首次工业试验。

The influence of different desulfurization technologies and hydrogenation catalysts on the sulfur and olefin content of gasoline was investigated , selective hydrodesulfurization technology ( RSDS - ⅰ) for FCC gasoline was developed and its first industrial experiment was carried out in Shanghai Petrochemical Company .

采用选择性加氢技术对FCC汽油重馏分进行处理时，有可能产生微量的二次硫醇，其稳定性高，较难脱除。

Recombinant mercaptans formed during the selective hydrodesulfurization of heavy FCC naphtha were stable and hard to be removed .

2-丁烯齐聚物加氢制异辛烷汽油中试研究

Preparation of isooctane gasoline by butylene oli-gomer hydrogenation

对脱砷－加氢－脱氯汽油中碱金属和碱土金属的测定结果表明，不存在催化剂的金属流失问题。

The results of determining the alkaline and alkaline earth metals in the treated gasoline showed there was no loss of metals from the catalysts .

在适宜的工艺条件下，采用Pd/Al2O3催化剂进行连续重整汽油BTX馏分选择性加氢脱烯烃，可以使加氢汽油满足芳烃抽提进料的质量要求。

In the selective hydrogenation process of olefin removal from BTX fraction of reformate , the quality of hydrogenated gasoline satisfied the demand of aromatics extraction unit under suitable condition with the use of Pd / Al_2O_3 catalyst .

介绍了加氢脱硫和非加氢脱硫2种汽油脱硫技术。

The hydrodesulfurization technology and non - hydrodesulfurization technology of gasoline is introduced .