The paper mainly introduces the technical characteristics of the high temperature air combustion(HTAC) technology.
介绍了高温空气燃烧技术的特点及在韶钢加热炉上的具体应用。
The paper mainly introduces the technical characteristics of the high temperature air combustion (HTAC) technology.
系统研究了高温空气燃烧技术改造均热炉的各种方案。
The heat recovery rate, optimal switching time and pressure drop of honeycomb regenerator used in the high temperature air combustion system were investigated.
实验研究了高温空气燃烧系统使用的蜂巢蓄热体热回收率、最佳换向时间、流动阻力等性能参数及其随几何尺寸的变化规律;
Regenerators, which recover waste heat and provide high temperature air, are key components of the regenerative high temperature air combustion system.
蓄热室是蓄热式高温空气燃烧系统实现余热回收和获得高温空气的关键部件。
High temperature air combustion (HTAC) is a new combustion technology, which can save fuel, enhance the heat efficiency, decrease emission of NOX and reduce the size of equipment.
高温空气燃烧技术是一项新型的高效低污染燃烧技术,具有节约燃料、提高热应用率、降低NOX排放和减少设备尺寸的特点。
The advantages and disadvantages of switch type regenerative combustion system are analyzed and one self-regenerative high temperature air burner which could continuous combust is developed.
分析了切换式蓄热燃烧系统的优点与不足,开发了可连续燃烧的自蓄热高温空气燃烧器。
The calculated results agree with the experimental data basically and the algorithm can be used as fundamental data for the research on the air combustion in high temperature.
计算结果与实验数据基本吻合,说明该方法是可行的.可以用它对高温低氧技术下的燃烧稳定性进行识别。
Using numerical simulation software, the paper analysis the influence of secondary air to the pollutant discharged in high temperature and low oxygen air combustion.
利用数值模拟软件分析了二次空气对高温低氧空气燃烧污染物排放的影响。
The result showed that the advantages offered by the catalytic combustor is that catalytic combustion can be carried out over a wide air: fuel ratio and at low temperature with high heat efficiency.
结果表明:燃气能在较宽的空燃比下催化燃烧,具有高的热效率,同时污染物排放量远远低于传统燃烧器。
During the simulation of the dynamic properties of regenerative high temperature air combustion system in coupled case, an industrial heating furnace model is selected as the physics model.
在对耦合工况下蓄热式燃烧系统的动力特性分析中,以一个工业用蓄热式加热炉为参考计算模型。
Research shows that the burner is based on high-temperature air combustion, zoned combustion and exhaust gas recycle.
该烧嘴综合高风温无焰燃烧、分区燃烧及烟气再循环等技术;
The high blast temperature technology by top combustion preheating furnace preheating the intensifying combusted air is used for the hot stoves of New no. 2 and no. 3 BFs in Angang.
鞍钢新2号、新3号高炉热风炉应用了顶燃式预热炉来预热助燃空气的高风温技术。
The high efficiency and low pollution characteristics of high temperature air combustion were analyzed too.
分析了高温空气燃烧技术的高效低污染特性。
The effects of nozzle structure, fuel gas injection velocity and excess air coefficient on NOx emission in high temperature air combustion were investigated.
通过两种结构烧嘴的热态燃烧试验对比,研究了烧嘴结构、燃气射流速度、过量空气系数对高温空气燃烧过程氮氧化物排放的影响特性。
This paper simulates the thermal process of a new style magnesium reduction furnace that has been developed with the technology of High Temperature Air Combustion (HTAC).
本文模拟计算了新设计开发的蓄热式金属镁还原炉的热过程。
Adopting high temperature of combustion air and relative large excess air ratio is an appropriate combustion mode for the furnace.
采用高温助燃空气和较大的过剩空气系数是一种较好的燃烧方式。
The theoretical results can also be as the foundation for the reasonable design and effective application of regenerator of high temperature air combustion system.
研究结果可以为高温空气燃烧过程中合理有效地控制蓄热体中交替换热过程提供理论依据。
This paper briefly discusses the principle and characteristic of regenerative high temperature air combustion technology and introduces the design and operating circumstances of belt heating furnace.
针对特钢加热工艺的特殊性,介绍了蓄热式燃烧技术在特钢加热炉上的设计与应用。
This paper briefly discusses the principle and characteristic of regenerative high temperature air combustion technology and introduces the design and operating circumstances of belt heating furnace.
针对特钢加热工艺的特殊性,介绍了蓄热式燃烧技术在特钢加热炉上的设计与应用。
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