气态烃

结果表明，碳含量与液态烃产率、H／C与气态烃产率以及氧含量与CO、CO2和水产率有对应关系。

The results indicated that , carbon content of coal to yields of liquid hydrocarbon , H / C of coal to yields of gas hydrocarbon and oxygen content of coal to yields of CO 、 CO 2 and H 2O show close corresponding relations .

在构造应力作用下，煤中的有机质超前向两个方向演化，一方面聚合形成更大的高芳构化的大分子结构，另一方面则形成低分子化合物和气态烃（瓦斯）。

In the process of the tectonic stress , the organics of coal is evolved to two different orientations , one hand forming the aromatic macromolecule network structure , on the other hand forming low molecular compounds and the gas hydrocarbon ( gas ) .

模拟气体组成以非烃气体（CO2等）为主，随温度升高，气态烃产率升高，烃类气体中以甲烷为主。

Gas compositions for simulated peat are dominated by non - hydrocarbon gases , such as CO2 and N2 . With increasing simulation temperatures , gaseous hydrocarbon yields increase rapidly .

研究了N，N-二乙基羟胺（DEHA）水溶液辐解产生的气态烃。

The study on the light hydrocarbons generated by radiation degradation of N , N-diethylhydroxylamine ( DEHA ) is reported .

CN-18气态烃蒸汽转化催化剂是以αAl2O3为载体的浸渍型Ni活性组分催化剂。

CN-18 catalyst of hydrocarbon gas steam reforming with supporter of ɑ Al 2O 3 , by nickel component impregnated on it .

气态烃在CN-18催化剂上蒸汽转化宏观动力学

Macrokinetics of methane - steam conversion by CN-18 catalyst

C-98液态或气态烃常温脱胂催化剂探析

The analysis of C - 98 liquid and gas atmospheric de - arsine catalyst

有机包裹体气态烃成份以CH4为主（占总量的44%～49%），同时含CO2和H2O等无机气体成份。

The main gaseous composition of the organic inclusion was CH 4 ( account of 44 % ~ 49 % of the total organic gas ) in addition to the inorganic gas of CO 2 and H 2O .

添加碳酸钾后，H2产率增幅较小，CO、CH4及其它气态烃产率基本不变，表明碳酸钾对烃类裂解反应无明显催化作用。

Slightly increase of hydrogen yield was found with potassium carbonate , but CO , CH_4 and other alkanes yields kept constant at the same time . It was obvious that the potassium carbonate had not clear catalytic effect on cracking reaction of heavy alkanes .

根据气态烃预转化工艺的特点设计了预转化催化剂研制方案，研制出用于预转化炉的CN-30型镍系催化剂。

Based on the characteristics of the pre-reforming processes of gaseous hydrocarbons , the preparation of nickel based pre-reforming catalyst CN-30 was proposed .

气态烃低温绝热转化催化剂

Study on the Catalyst for Low-temperature Adiabatic Reforming of Gaseous Hydrocarbons

单质硫能够影响气态烃产物的化学组成。

Sulphur can influence the chemical compositions of gaseous hydrocarbon produced .

深层烃源岩热模拟过程中气态烃产物变化特征&以济阳坳陷沙四段和昌潍坳陷孔二段烃源岩为例

Evolution characteristics of gaseous hydrocarbon during thermal simulation of deep source rocks

南黄海水中可溶气态烃的分布特征

The distributional characteristic of dissolved hydrocarbon gas in the South Yellow Sea

氢氧燃烧－分光光度法测定气态烃中的痕量砷

Determination of Trace Arsenic in Gaseous Hydrocarbons with Oxyhydrogen Burning-Spectrophotometry

三水盆地气态烃的地球化学特征和成因

Geochemical characteristics and origin of gaseous hydrocarbon in Sanshui Basin

气态烃快速探测系统在海洋油气勘探中的应用

Applications of on-site detection system for the oil and gas resources in oceans

活性氧化铝担体用于气态烃的气相色谱分离

Active alumina as solid support for the gas chromatographic separation of gaseous hydrocarbons

不同地质条件下各种类型气源岩气态烃产率的求取

Gaseous Hydrocarbon Generation of Different Types of Source Rocks under Different Geological Conditions

气态烃自热转化炉冷态实验研究与数值模拟

Cold Model Experiment and Simulation of Autothermal Reforming Reactor

水中可溶气态烃和苯系物联测的新技术

The new technology of soluble gaseous hydrocarbons and benzene homologues in groundwater joint test

氢气和气态烃在煤成气形成演化研究中的意义

Significance of hydrogen and gaseous hydrocarbon in study of coal-type gas generation and evolution

十八烷的裂解动力学研究（I）：气态烃组分及其碳同位素演化特征

Pyrolysis Kinetics of Pure n-C_18H_38 ( I ): Gaseous Hydrocarbon and Carbon Isotope Evolution

氧化作用对气态烃组成和碳同位素组成的影响

Influence of oxidation by minerals on proportional and carbon isotopic compositions of gaseous hydrocarbons

气态烃预转化工艺及催化剂

Pre reforming Process and Catalyst of Gaseous Hydrocarbon

南海北部海域表层沉积物中吸附气态烃的特征

Characteristics of the adsorbed gaseous hydrocarbon in surface sediments of northern South China Sea

油田水中可溶气态烃的组成与含量的地球化学意义

The content and composition of dissolved gas hydrocarbons in oilfield water and its geochemical significance

研究发现，海底沉积物随着埋深的增加气态烃含量具有增高的趋势；

The results reveal that methane content increases with the increase in depth of the sediment .

应用产率比法和物质平衡法对其生烃能力恢复：泥质碳酸盐岩最终气态烃最终产率相对较低。

The hydrocarbon generating ability is recovered by means of productivity method and material balance method .

煤快速热解获得液态烃和气态烃的研究（Ⅲ）&气体停留时间的考察

Flash pyrolysis of brown coal for obtaining liquid and gaseous hydrocarbons (ⅲ) effect of gas residence time