1) air combustion
空气燃烧
1.
Compared with air combustions,pure oxygen combustions increase the concentration of carbon dioxide.
纯氧燃烧较空气燃烧提高了CO2的浓度,有利于CO2的回收利用,减少了对环境的污染。
2.
The application principle and basic theory of the high temperature air combustion was briefly described by metallurgical reaction engineering theory, and the feature of reaction engineering was analyzed.
为了使高温低氧空气燃烧技术得到更好的应用,从反应工程学角度论述了高温低氧空气燃烧的技术原理及基础理论,重点讨论了烟气余热回收和低NOx含量排放等技术措施中的重要传输现象及过程的反应动力学特征。
3) humid air combustion
湿空气燃烧
1.
The characteristic flame modes and velocity field structures in the humid air combustion were experimentally investigated and detailed stabilization regimes diagrams were proposed.
利用粒子图像测速技术对钝体后的湿空气回流非预混燃烧火焰流场进行了测量,研究湿空气燃烧火焰的结构特性,以及水蒸气的加入对火焰稳定性的影响,得到湿空气燃烧火焰的稳定性区域图。
2.
The two-dimensional velocity fields of methane/air diffusion flame wear measured successfully using 2D particle image velocimetry (PIV) in a disc bluff-body burner, and the characteristics of flame structures and flow fields were investigated in both humid air combustion and non-humid air combustion.
通过对湿空气燃烧流场与普通燃烧流场的对比分析表明,湿空气燃烧情况下,两种燃烧状态的火焰(回流燃烧火焰和中心射流主导火焰)相互转换的燃空速度比(γ)值要比普通燃烧的小;湿空气燃烧使得喷嘴后的同流空气的速度降低,空气的回流作用减弱,燃料更容易冲出回流区,火焰的稳定性能变差。
4) combustion air valve
燃烧空气阀
5) fuel-air burner
燃料空气燃烧器
6) H2/air combustion
氢气/空气燃烧
1.
The optimisation of reaction rate parameters for H2/Air combustion using genetic algorithms
应用遗传算法优化氢气/空气燃烧反应系数
补充资料:沸腾床燃烧(见流化床燃烧)
沸腾床燃烧(见流化床燃烧)
boiling-bed combustion:see fluidized-bed combustion
沸腾床燃烧(boiling一bed eombustion)见流化床燃烧。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条