采用高温低氧燃烧方法可解决污染问题,并且还可以用燃料不换向技术来进一步简化燃烧系统。
This paper introduces that it can resolve the problem of pollution that using high temperature low oxygen combustion so it can be used in some kinds of furnace.
但如果经过高温分解—在低氧环境下有控制的燃烧—它将会形成木炭,其大部分是永久碳。
If, however, they are subjected instead to pyrolysis-a process of controlled burning in a low-oxygen atmosphere-the result is charcoal, a substance that is mostly elemental carbon.
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。
Using numerical simulation software, the paper analysis the influence of secondary air to the pollutant discharged in high temperature and low oxygen air combustion.
对丙烷的高温低氧空气燃烧及其火焰特性进行实验研究,并对其工业应用进行探讨。
An experimental study was conducted of the high temperature and low oxygen air burning of propane and its flame characteristics along with a discussion of its possible industrial applications.
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。
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.
高温低氧条件下的火焰特性与传统燃烧火焰特性迥然不同。
Flame properties in high temperature and low oxygen condition are different from those in traditional condition.
介绍一种基于高温低氧空气燃烧的低热值燃料气化炉,其主要部件为高温空气发生器、气化器、余热锅炉和湿式气体净化装置。
A new low-BTU-fuel gasifier based on high-temperature air combustion is proposed. it is made up of high-temperature air generator, gasifier, heat recovery boiler, and wet type gas cleaning equipment.
介绍一种基于高温低氧空气燃烧的低热值燃料气化炉,其主要部件为高温空气发生器、气化器、余热锅炉和湿式气体净化装置。
A new low-BTU-fuel gasifier based on high-temperature air combustion is proposed. it is made up of high-temperature air generator, gasifier, heat recovery boiler, and wet type gas cleaning equipment.
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