裂解气

高温裂解气的生成造成甲烷碳同位素变重的假象。

Cracked gas in high-temperature causes methane carbon isotope to heavy .

原油裂解气的形成、鉴别与运移研究综述

Review of oil cracked gas formation , identification and migration

对催化裂解装置裂解气分离回收单元的中冷油吸收脱甲烷塔的主要工艺参数应用大型化工软件PROCESS进行了优化和全面分析。

The major process parameters of demethanizer in the recovery section of FCC unit are optimized and analysed by using the chemical simulator process .

裂解气中CO2含量高的原因与对策

Causes and Countermeasures against high co_2 content in cracking gas

从甲醇裂解气中由PSA法提取纯H2与CO2

Purification of hydrogen and carbon dioxide from methanol decomposition gas by PSA

天然气乙炔炉喷油裂解气杂质成分的GC-MS分析

Analysis of impurity of spitting gas of natural gas ethyne stove by GC-MS

本文研究了以裂解气相色谱法鉴定PET和PBT树脂。

A pyrolysis gas chromatographic method with steer capillary column was established for identification of PET and PBT .

简要叙述了湿法脱硫OMC工艺在重油裂解气过程中的工艺参数的确定，同时比较了相对于改良A。

The author presents briefly the definition of parameters in OMC process , by comparing with the improved A.

根据裂解气组分沸点相差很大的特点，本文选用SRK作为热力学计算方法进行模拟。

Since the boiling points of pyrolysis gas components are different , SRK is selected for thermodynamic calculations .

GC/FTIR法和GC/MS法联合分析裂解碳五馏份的组成色质联用分析裂解气中NO、AsH3、COS等杂质

Proximate Analysis of Cracking C 5 Fraction by GC FTIR and GC MS Methods Study on the determination of NO 、 AsH_3 、 COS and other impurity in pyrolysis gas by chromatography / mass spectrometry method

含氧聚合物主要来自于醛酮的Aldol缩合聚合反应，而裂解气中的醛酮来自于蒸汽裂解制乙烯过程中的二级反应。

Oxygen containing polymers come from the aldol condensation of ketone and / or aldehyde , which are produced from the secondary reaction of steam cracking .

介绍了乙烯装置急冷系统的工艺流程，运用PRO／Ⅱ软件对乙烯装置初分馏系统进行了模拟，其裂解气成分采用反推法获取。

The process of cooling system in ethylene unit was introduced , the primary fractionation system in the ethylene unit was simulated by using Pro / ⅱ software , and the components of pyrolytic gas were obtained by the backing-out method .

在实际运行中，与常规PID控制相比，模糊-PID复合控制对裂解气温度的控制效果更好，而裂解气温度是乙炔产率的一个重要指标，也就达到了提高乙炔产率的目的。

In actual process , compared with the conventional PID control , the control of pyrolysis temperature is better with Fuzzy-PID hybrid control , while pyrolysis temperature is an important indicator of acetylene yield , then the purpose of improving the yield of acetylene is achieved .

研究了有机碱试剂，氢氧化四甲铵（tetramethylammoniumhydroxideTMAH）共存下的反应热裂解气相色谱（Py-GC）应用于天然树脂紫胶的化学组成分析。

Reactive pyrolysis gas chromatography ( Py-GC ) in the presence of an organic alkali , tetramethylammonium hydroxide (( CH3 ) 4NOH , TMAH ), was applied to the compositional analysis of natural resin shellac .

旋转填充床脱除裂解气中酸性气体的冷模实验

Removal of Acid Gas from Pyro gas in Rotating Packed Bed

原油裂解气的形成条件是目前油气生成过程研究的热点。

Study on formation mode of splitting gas of Minfeng depression ;

裂解炉裂解气输送的管线设计

Design of the Transfer Line for Cracked Gases from Cracking Furnace

甲醇裂解气发动机性能参数分析及优化

Performance ′ s Prediction and Optimization of Dissociated Methanol Gas Engine

乙烯裂解气的水合物法分离实验研究

Study on the Hydrate Method to Separate the Ethylene Cracking Gas

多通道并行气相色谱在裂解气分析中的应用

Study on Multichannel Parallel Analysis of Cracking Gases by Gas Chromatography

用居里点多阶裂解气相色谱法分析氯丁粘合剂

Analysis of polychloroprene adhesive by Curie point multistage pyrolysis gas chromatography

气相色谱&四温裂解气相色谱联用分析

Analysis of gas chromatograph interfaced with FOUR-TEMPERATURE pyrolysis gas chromatograph

裂解气洗涤塔筒体化学爆炸剖析

Chemical Explosion Dissection of the Cylinder of a Pyrolysis Gas Washing Tower

甲醇催化裂解气组成调变之应用&65Mn弹簧片回火保护

The application of regulating the composition of catalytic dissociated gas of methanol

柴油机进气预混微量甲醇裂解气的试验研究

Experimental Study on Diesel Engine Intake Premixed with Little Methanol Pyrolysis Gas

492甲醇裂解气发动机性能优化研究

A Study on Performance Optimization for 492 Dissociated Methanol Engine

三通道色谱法快速分析裂解气组成

The Speedy Analysis of Flue Gas by Mutil - Channel Gas Chromatography

热裂解气中模型化合物萘的催化转化

Catalytic Conversion of Pyrolysis Gas Tar with Naphthalene as the Model Compound

芽胞杆菌全细胞热裂解气相色谱聚类分析

Cluster Analysis Based on Pyrolysis Gas Chromatography of Whole Cell of Bacillus

折流杆式换热器在冷却裂解气上的应用

The Application of Reflexive Rod Exchanger on Cooling Cracked Gas