汽油辛烷值

通过工业应用实例可知：当助辛剂在系统中的含量为10%～30%时，汽油辛烷值（RON）可以提高1～4个单位，MON可以提高1～2个单位。

Commercial application shows that when the content of the additive in system is 10 % ~ 30 % , RON of FCC gasoline can be increased by 1 ~ 4 units , and MON , by 1 ~ 2 units .

研究法汽油辛烷值检测系统的MR统计合并监控与测量不确定度评估

Evaluation of Measurement Uncertainty and Statistical-Monitor of MR Pooled for Gasoline RON Testing System

小波变换在Raman汽油辛烷值测定仪中的应用

Application of Wavelet Transform in Gasoline Octane Number Analyzer Using Raman Spectroscopy

采用催化剂的组装技术，将A、B两种性能不同的组分按照一定比例进行复配，在汽油辛烷值不变的前提下，可以有效降低FCC装置所产汽油的烯烃含量。

Olefin content in FCC gasoline was efficiently lowered with no loss in octane number .

提高FCC汽油辛烷值的技术进展

Advances in Increasing FCC Gasoline Octane Number

介绍了CHO4汽油辛烷值助剂在沧州炼油厂II套催化裂化装置上的试验过程及结果。

Both test course and results of the CHO 4 gasoline octane promotor in the II FCCU of Cangzhou Refinery were introduced .

合理应用MMT提高汽油辛烷值

Application of MMT for increasing octane number of gasoline

汽油辛烷值（RON）根据需要可在86～93之间灵活调节。

The gasoline octane number ( RON ) may be change from 86 to 93 according to requirement of refineries .

将小波变换技术应用到Raman汽油辛烷值测定仪的数据预处理中，减弱荧光背景干扰和高频噪声，提高光谱数据的信噪比。

In order to reduce the fluorescence and improve the signal-noise ratio of Raman spectra in gasoline , wavelet transform is used in the spectra pre-processing for gasoline octane number analyzer .

烯烃主要集中于C4～C8之间，其在C5和C6中分布最多，烯烃对汽油辛烷值贡献很大，其大量减少会使汽油的辛烷值下降。

And most olefins were distributed between C4-C8 , especially C5 and C6 , contributing greatly to gasoline octane number .

提高汽油辛烷值催化剂DOCP（jl）配方设计及工业应用

Design and industrial application of DOCP ( jl ) catalyst for PHV upgrading

同时，汽油辛烷值提高1个单位，催化裂化汽油RON达90.5以上，增加了经济效益。

Meanwhile , the octane number of gasoline increased by 1 unit , the RON of FCC gasoline reached up to 90 . 5 , and economic benefits also increased .

在实验室质量控制中，评估研究法汽油辛烷值（RON）的测量不确定度时，提出了平均移动极差（MR）合并统计动态监控技术。

How to estimate the uncertainty in laboratory quality control activities , when RON ( Research Octane Number ) is determined , is described . The technique of the averaged Moving Range ( MR ) pooled in-statistical-dynamic-monitor is proposed .

探讨了提高FCC汽油辛烷值的各种反应，提出了在研制FCC汽油加氢脱硫催化剂时，应考虑催化剂的异构化、芳构化、氢转移、烷基化和选择性裂化等功能；

The reactions , enhancing octane number of FCC gasoline , were discussed . Besides the hydrodesulfurization activity , the catalyst should have the catalytic activities of isomerization , aromatization , hydrogen transfer , alkylation and selective cracking .

LBO-A助剂是中国石油兰州石化公司开发的用于提高裂化汽油辛烷值和降低汽油烯烃含量的催化剂助剂。

The application of a FCC gasoline olefin reduction LBO-A in Harbin Petrochemical Company was introduced .

CHO-4汽油辛烷值助剂的工业应用

Commercial application of CHO-4 gasoline octane promotor

利用PLS-SVM和WLS-SVM改进方法建立近红外光谱测定汽油辛烷值的校正模型，有效地提高了模型的综合性能，取得良好的检测效果。

Use PLS-SVM and refined WLS-SVM to build the calibration model for the octane number analysis of gasoline based on near infrared spectroscopy .

同时探讨了本研究对废塑料油化技术的指导作用应用此催化剂液体收率可达80%以上，汽油辛烷值为82（RON）

The maximum liquid product yield rate is over 80 % with the research octane number 82 for the gasoline . A cracking reaction model is developed and the guidance of this research to the technology of turning the plastic waste to oil is discussed as well .

根据各个厂家的不同情况，可以选择汽油辛烷值高的GAP-I和GAP-II工艺方案，也可以选择总液体收率高的GAP-III工艺方案。

According to specific conditions , we may choice GAP-I and GAP-II for producing high octane number gasoline and we also may choice GAP-III for getting more liquid yield .

汽油辛烷值测试的两种评价方法的比较

Comparison of the methods for feul octance number testing and calibration

汽油辛烷值神经网络预测模型的设计

The Design of the Neural Network Model for Predicting Gasoline RON

汽油辛烷值测试方法的研究

Study on the Test Method for Knock Characteristics of Motor Fuels

高精度汽油辛烷值测定仪的开发研究

The Research on Detecting Equipment of the High-Precision Gasoline Octane Number

羰基物替代四乙铅提高汽油辛烷值

Increasing Octane Number of Gasoline by Substituting Carbonyl Compounds for Lead Tetraethyl

毛细管气相色谱测定改进费-托法合成汽油辛烷值的研究

Octane Number Determination for MFT Gasoline by Capillary Gas Chromatography

汽油辛烷值和组成的关系

The relationship between octane number and hydrocarbon components in gasoline

实际应用结果表明，利用参数学习的方法计算调合汽油辛烷值是可行的。

The practise result showed that the method was feasible .

解决SYP2102型汽油辛烷值检测仪在高原地区缺氧综合问题的探讨与实践

A Solution of Octane Value Measurement in Highland Area with Deficient Oxygen

汽油辛烷值智能调合系统

Intelligence blending system for calculating the blending octane numbers of blending gasoline components

汽油辛烷值对车辆性能的影响

Effects of Gasoline Octane Number on Performance of Vehicles