Naphtha is the feedstock for both ethylene production and catalytic reforming.
石脑油既是裂解制乙烯的原料,也是重整制备芳烃的原料。
The results provide the foundation for establishing the single-event micro-kinetic model of catalytic reforming.
该结果可为催化重整单事件反应动力学模型的建立提供理论基础。
In this paper soft sensing on coking models of reactor in the process of continuous catalytic reforming is studied.
对连续催化重整反应器结焦含量软测量问题进行研究。
Experiment showed that the product components of catalytic reforming are distinctively different from that of thermal pyrolysis.
实验证明,热裂解未经催化改质的产物与裂解气经催化改质后的产物组成有明显的区别。
The above improved model has been applied to practical data reconciliation for a continuous catalytic reforming unit in an oil refinery.
详细叙述了上述改进数据协调模型在炼油厂连续催化重整装置中的实际应用情况。
A new regeneration process for continuous catalytic reforming catalyst is introduced which focuses on modification of coke combustion process.
介绍了一种连续重整催化剂再生新方法,该方法侧重于再生烧炭过程的改进。
This article introduces the technology of FCC heavy gasoline via hydrogenation producing catalytic reforming feed stock which developed by FRIPP.
介绍了抚顺石油化工研究院开发的FCC重汽油深度加氢生产催化重整进料技术及其性能特点。
The influence of implementing reformulated gasoline on catalytic cracking and catalytic reforming is emphasized and some countermeasures are proposed.
着重讨论了实行新配方汽油后对催化裂化、催化重整等炼油工艺过程的影响,并提出了一些相应的对策。
Formerly, researchers took attention to one aspect, for example, it was about generating hydrogen by catalytic reforming or regenerative heat exchange.
以往的研究者只关心一方面,主要研究催化重整制氢,或者是蓄热式换热等。
Catalyst for promoting rearrangement of hydrocarbon molecules in a gasoline boiling-range feedstock to form desired product in catalytic reforming process.
促进汽油沸程原料烃类分子重排以生成催化重整过程所要求产物所用的催化剂。
The catalytic reforming is an important technology providing high-octane gasoline and aromatic hydrocarbon, and also offering a great deal of cheap hydrogen to refinery.
催化重整是生产高辛烷值汽油组分和芳烃的重要工艺,并且能为炼厂提供廉价的氢气。
It could be of high value to apply the successfully developed kinetic model of naphtha catalytic reforming broadly into process design and plant production optimization.
开发成功的动力学模型能广泛应用于工业装置的工艺设计和优化生产操作,具有重要的实用价值。
Another important group of petrochemical raw materials are the aromatic compounds, principally benzene, toluene and xylenes, which are mainly produced by catalytic reforming.
另一组重要的石油化学品原料是芳香烃化合物,主要是苯、甲苯和二甲苯,主要由催化重整制得。
The experimental results and comparison of data prove that the catalytic reforming reactions both improve the combustion of hydrocarbons and expand the flame propagation limits.
此研究从实验角度证明催化重整反应产生的氢气对烃类燃料的火焰传播和稳定均有积极的影响。
Utilization scheme that naphtha fraction is used for catalytic reforming feedstock and the AGO fraction is used as cracking feedstock is put for ward for Yaha's condensated oil.
牙哈凝析油的利用方案应为:石脑油馏分宜作催化重整原料,而轻柴油馏分宜作为裂解原料。
In this paper technological process of catalytic cracking and catalytic reforming and post-processing of waste fat and oil are discussed to prepare the qualified liquid fuel oil.
本论文主要探讨通过废食用油脂催化裂解,裂解气催化改质,燃料油后处理的工艺,将废油脂制备成合格的燃料油。
The feature of normal pressure intermittent cyclic catalytic reforming gas-making system, problems occurred in the commissioning and handling method were described in this paper.
介绍了常压间歇式循环催化改质制气装置的工艺特点、投产过程中出现的问题及处理方法。
The pyrolysis performance of byproduct propane in FCCU and byproduct reforming topped oil in catalytic reforming unit of Lanzhou Petrochemical Company were evaluated in the laboratory.
采用裂解制乙烯实验室评价装置,对兰州石化公司炼油厂催化裂化装置副产的丙烷、催化重整装置副产的拔头油进行了裂解性能评价实验。
The invention discloses a miniature premix catalytic reforming combustor. A combustor body is provided with air inlets, a premix chamber, a combustion chamber and an air outlet from top to bottom;
本发明公开了一种微型预混催化重整燃烧器,燃烧器本体从上至下设置进气孔、预混腔、燃烧腔和排气孔;
For CO2 reforming of CH4 reaction, the effect of the plasma treatment conditions on the catalytic performance of nickel-based catalysts was investigated.
以CO2重整ch4为反应模型考察了等离子体处理条件对镍基催化剂重整性能的影响。
In this paper, some typical reactor designs, process engineering, operation conditions, catalyst, reaction mechanism, and thermal analysis of catalytic steam reforming of bio-oil are presented.
本文介绍了生物油水蒸气催化重整反应机理与热力学分析,介绍了催化重整制氢过程催化剂、制氢工艺条件、代表性的反应器及工艺流程。
The catalytic combustion of methane and the methane reforming with carbon dioxides are two effective ways of make use of the methane.
甲烷催化燃烧和二氧化碳重整甲烷制合成气是利用甲烷的两条有效途径。由于甲烷的化学稳定性,两个反应都需要高温条件才能进行。
According to the technological process of reforming technology through cyclic catalytic cracking of natural gas, the basic technological parameters are calculated.
根据天然气循环催化裂解改制技术的工艺过程,计算出基本的工艺参数,结合工程实际给出了实际生产参数。
The hydrocarbon reforming catalyst has excellent catalytic activity and thermal conductivity, and thus can easily transfer heat required in a hydrocarbon reforming reaction.
所述烃重整催化剂具有优异的催化活性和热导率,因而能够容易地传递烃重整反应中所需要的热。
The hydrocarbon reforming catalyst has excellent catalytic activity and thermal conductivity, and thus can easily transfer heat required in a hydrocarbon reforming reaction.
所述烃重整催化剂具有优异的催化活性和热导率,因而能够容易地传递烃重整反应中所需要的热。
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