生物质快速热裂解技术是实现生物质液化的重要手段。
Biomass fast pyrolysis technology is one of the most important approach for biomass liquefaction.
结果表明,C4、C5选择性裂解技术具有良好的发展前景。
Result showed that C4 and C5 selective cracking had good development prospect.
介绍了分析裂解技术的基本原理,综述了分析裂解技术在橡胶工程中的应用。
The basic principle of analytical pyrolysis was introduced. Its application to rubber engineering was also reviewed.
乙烯裂解炉是乙烯装置的核心设备,而乙烯裂解技术是整个乙烯工业的关键技术之一。
The ethylene cracking furnace was the core unit, and the thermal cracking process was one of the most important technologies of the ethylene industry.
综述了裂解汽油重质馏分增产BT X芳烃的技术进展以及与此相关的加氢脱烷基和非芳烃加氢裂解技术。
Technology Progress of producing BTX aromatics from heavy fraction of pyrolysis gasoline and correlative hydrodealkylation and non-aromatics hydrocracking techniques were reviewed in this paper.
综述了裂解C5石油树脂的聚合改性技术进展。
The progress of polymeric modification technologies for cracking C5 petroleum resin were reviewed.
采用电喷雾离子阱(ESI - MS)质谱技术对水飞蓟宾的结构和裂解途径进行研究。
The structure and fragmentation pathway of silybin were elucidated by electron spray ionization mass spectrometry (ESI-MS).
介绍了俄罗斯热裂解型等离子点火技术的技术特点、工作原理、应用状况和其等离子枪的结构优点。
In this paper, the technical features, working principles and application of a Russian Thermal-Pyrolysis-Type plasma ignition technology, as well as the associated plasma gun was introduced.
最后评估了生物质热裂解制取液体燃料技术的经济和社会效益,结果表明它具有广泛的应用前景。
At last the economy benefit was analyzed, with the environmental benefit, the result shows this technology has a good market prospect.
并介绍了C 4烯烃芳构化、催化裂解、歧化制低碳烯烃等新技术的研究进展情况。
The technique advance of C4 olefin aromatization, catalytic cracking and disproportionation for producing low-carbon olefin were introduced too.
在采油生产中已成功推广了振动解堵、酸化压裂解堵、注蒸汽、注水等增产技术。
Vibration blocking removal technologies, acid fracturing technique, steam injection, water injection were generalized successfully in oil recovery process.
采用均相化学催化氧化技术对乙烯裂解废碱液进行了处理,考察了影响处理效果的各种因素。
Homogeneous catalytic oxidization technology is used for removing sulfide from spent alkali lye of ethylene cracking, and the various factors of influencing removal efficiency are investigated.
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。
According to the technological process of reforming technology through cyclic catalytic cracking of natural gas, the basic technological parameters are calculated.
介绍了提高裂解炉热效率和加工能力所采取的技术措施。
Technical measures for increasing heat efficiency and processing capacity of cracking furnace were introduced.
指出从重油接触裂解柴油馏分中制备2 ,6 -二甲基萘是石油萘生产的最理想的技术方向。
The paper also points out, the ideal technology of petroleum naphthalene production is preparing 2,6 DMN from diesel fraction, a product of heavy oil contact cracking.
重点分析了裂解碳九加氢工艺和催化剂技术,强调了原料预处理、反应工艺和催化剂设计等要点。
The hydrogenation technologies, as well as catalysts used in hydrotreating, were analyzed and compared, and feedstock pretreatment, reaction process and catalyst design were discussed.
本文综述了管式裂解炉蒸汽热裂解过程中,焦碳的形成及形态、抑制结焦及焦碳脱除技术、裂解炉烧焦过程研究进展。
Formation and shape of coke in coils of thermal cracking furnace, and advances in technologies of coking inhibitor, especially in decoking were reviewed in this paper.
应用CFX软件对裂解炉中的关键技术的模拟、分析及计算情况的综述。
The CFX software application in simulation, computation and results analysis for design and operation of cracking heater.
大力开发生物质的热裂解制油技术,可将低品位的生物质能转化成高品质的、高能量密度,清洁、无污染而且二氧化碳排放为零的生物油液体燃料。
The technology of biomass pyrolysis can convert low-quality biomass into bio-oil that has the character of high-quality, high energy density, cleanness and zero carbon dioxide emission.
为适应各种原料,对裂解炉进料系统进行技术改进。
Technical innovation is done for feed system of cracking furnace for adapting various feedstocks.
采用裂解色谱质谱技术对光固化聚氨酯丙烯酸酯齐聚物裂解产物进行了分析,并对裂解机理进行了讨论。
In this paper, the pyrolytic compound of polyurethane acrylate oligomer was analyzed by pyrolytic gas chromatography-mass spectrometry and the pyrolytic mechanism was also discussed.
对不饱和聚酯树脂(upr)废料裂解制原料油技术进行了研究,系统地考察了催化裂解反应工艺条件。
Unsaturated polyester resin (UPR) wastes pyrolysis was cracked to prepare feed stock, and process conditions of catalytic cracking reaction were introduced systematically.
热等离子体裂解天然气是可以高效转化天然气的技术手段之一,当以氮气为工作气体时主要产物有乙炔、乙烯、氢气。
Cracking natural gas with thermal plasma is one of the technical tools to convert natural gas efficiently. With nitrogen as the working gas, the main products include acetylene, ethylene and hydrogen.
最新的分离技术使得从裂解汽油中回收高纯度的苯乙烯和异构级的混合二甲苯成为可能。这比把他们混合到汽油中更大大提升了其价值。
Latest separation technology makes it possible that recycling high-purity styrene and isomerous MX (mixed xylene), which greatly upgrades its value rather than those mixed into gasoline.
生物质能源的开发主要利用了沼气技术、生物质热裂解气化技术、生物质液体燃料技术等。
The development of biomass energy use of biogas technology mainly biomass pyrolysis gasification technology, biomass liquid fuel technologies.
生物柴油是生物质能的一种,它是生物质利用热裂解等技术得到的一种长链脂肪酸的单碗基脂。
Biodiesel is a kind of biomass, which is the pyrolysis of biomass technologies such as the use of a long chain fatty acids by a single bowl of grease.
将强放热的甲醇转化过程与烃类裂解制烯烃过程进行反应耦合,无疑会在技术、能耗、经济方面显示广泛的应用前景。
The effective coupling of exothermic methanol conversion with endothermic hydrocarbon cracking will undoubtedly lead to a practical application since its energetic and economic advantages.
采用新型注汽技术改造,降低结焦先兆物,使裂解炉开工率提高到96.8%以上。
The paper describes that new type inject steam technology can reduce coke precursor, resulting in operation rate of cracking furnace over 96.8 % .
采用新型注汽技术改造,降低结焦先兆物,使裂解炉开工率提高到96.8%以上。
The paper describes that new type inject steam technology can reduce coke precursor, resulting in operation rate of cracking furnace over 96.8 % .
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