烃类
- 网络Hydrocarbon
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C6~C8烃类转化及芳构化反应机理的研究
Studies on mechanism for conversion and aromatization of C_6-C_8 hydrocarbons
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C4~C(10)烃类在OV&101柱上的保留指数
Kovats Indices of C_4-C_ ( 10 ) Hydrocarbons on Apolar Quartz Capillary
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C4烃类催化转化反应条件的研究
Study on the reaction conditions of converting c_4 hydrocarbons
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不同组成的C4烃类催化转化反应规律的实验研究
Experiment Study on catalytic converting reaction rules of c_4 hydrocarbons with different compositions
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离子液体溶解性能对C4烃类烷基化的影响
Effect of Ion Liquid Dissolvability to C_4 Alkylation
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高演化区天然气中C6~+烃类分析方法和地质应用
Analysis method and geological application of c_6 ~ + hydrocarbons in natural gas of high evolution areas
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N,N-二甲基羟胺辐解产生的气态烃类的定性和定量分析
Qualitative and quantitative analysis of light hydrocarbons produced by radiation degradation of N , N-dimethyl hydroxylamine
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本文简要介绍轻质烃类C2&C9的分析方法。
This paper gives a brief presentation on the techniques in the analysis of C_2 & C_9 light hydrocarbons .
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济阳拗陷非烃类气藏(CO2、He)的成因探讨
Genesis of the non hydrocarbon gas reservoir ( co 2 、 he ) in Jiyang Depression
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其地球化学特征表现在烃类的组成、C6&C7的轻烃组成及同位素组成等方面有着明显的不同。主体为高成熟的腐泥型气,与海相原油密切共生;
The geochemical characteristics of natural gas exhibit a great variations with respect to composition of hydrocarbon , C_6 & C_7 light hydrocarbon , isotope and so on .
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烃类组分、非烃组分分布以及天然气δ~(13)C1值在和田河气田的东、西部存在明显的差异。
The content of hydrocarbon and non-hydrocarbon gases and δ 13C1 values in the eastern part of the field are obviously different from those in the western part .
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加油站膜分离烃类VOCs回收技术分析
Analysis of Membrane based hydrocarbon VOCs recovery technique at petrol stations
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TiO2粉末的悬浮体系石油烃类化合物光催化降解
Photodegradation of Hydrocarbons Catalyzed by TiO_2 in Aqueous Suspension
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固体废物中多环芳烃类化合物(PAHs)的浸出特性研究
Study on Leaching Characteristics of Polycyclic Aromatic Hydrocarbons ( PAHs ) of Solid Waste
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因此,品质因子可作为油气储层识别和烃类检测的一个判断标志,由此可见品质因子Q的准确反演显的很重要。
Therefore , th-e quality factor can be used as oil and gas reservoir recognition and hydrocarbon detec-tion a judgment sign .
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烃类选择性催化氧化反应按Redox机理进行的一个重要信息
An Important Information for the Selectivity Catalytic-Oxidation Reaction of Hydrocarbons on the Basis of Redox Mechanism
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CO2、烃类、H2等气体在热水成矿体系中极度富集甚至形成独立气流,与热水流体共存。
Gases such as CO2 , hydrocarbon and H2 are extremely concentrated and even form independent gas flow coexisting with hydrothermal fluids in ore-forming hydrothermal system .
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镧改性HL沸石在烃类催化裂化催化剂中的应用
Application of La-Modified HL Zeolite in Cracking Catalyst
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结果发现环己烷同时转化为CO、CH4、CO2及H2,不转化为其它烃类;
It is found that cyclohexane is converted into CO 、 CH_4 , CO_2 and H_2 at the same time , no other hydrocarbon is formed .
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岩石与天然气中C1-C9烃类分析方法的研究
Study of an analytical method for c_1 - c_9 hydrocarbons in rocks and natural gas
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TiO2光催化降解脂肪烃类反应机制的探析
TiO-Catalyzed Photodegradation of Hydrocarbons
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采用熔融硅Al2O3/KCl大孔径毛细管柱,用气相色谱直接进样方式,对汽车尾气中的低碳烃类化合物进行了分析监测。
By using fused silica Al2O3 / KCl capillary column to analyze C1-C4 hydrocarbons in automobile exhaust gas and atmosphere , and sample directly by GC .
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在LNG的液化过程中,天然气中的水、惰性气体、C5等烃类基本被脱去,燃烧时温室气体排放量低,被公认为是未来世界普遍采用的燃料。
In the LNG liquified process , water , inert gases , hydrocarbons like C5 are eliminated .
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烃类转化FZ系列NiO/Al2O3催化剂的热分析
Thermal Analysis of FZ Series NiO / Al_2O_3 Catalysts for Conversion of Hydrocarbon to Hydrogen in H_2
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GW接触式烃类检测技术在钻井安全上的应用
The application of GW contact type hydrocarbon detecting technology in drilling safety
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在烃类的热解气相色谱中,使用氧化铝色谱柱和TCD/FID串联的双检测器系统,在一次进样之后,可同时检测出热解产物中的氢和C1~C6烷烯烃。
In pyrolysis gas chromatography an alumina column and TCD / FID detectors in series are used . H2 and C1 - C6 hydrocarbons in the pyrolysis products can be simultaneously measured for one sample input .
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利用脉冲微反色谱技术对C5~C8的烃类进行了催化裂解的研究。
Pulse micro-reactor was used to investigate the catalytic pyrolysis of hydrocarbons .
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油气烃类体系完整P-T相图模拟计算
The Complete P-T Phase Diagram Calculation for Hydrocarbon Systems
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烃类流体包裹体的最小捕获压力可以通过其在PT空间投影的等容线单值变化和等容线的物理特性来确定。
The minimum trapping pressure ratio of hydrocarbon fluid inclusions can be defined by their isochore single value variations in P-T space projection and physical property of their isochore .
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重铬酸钾法测定COD时,一般存在着该法对苯及其芳烃类的有机物氧化率偏低的问题。
There exists a problem of lower percentage of oxidization to the organic matters of benzene and aromatic hydrocarbons when we determine the COD by the method of potassium dichromate titration .