Humid Air NO_x Reduction Effect on Liquid Fuel Combustion

A. G. Chen; Daniel J. Maloney; William H. Day

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Humid Air NO_x Reduction Effect on Liquid Fuel Combustion

机译：湿空气NO_x减少对液体燃料燃烧的影响

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An experimental investigation was carried out at DOE NETL on the humid air combustion process using liquid fuel to determine the effects of humidity on pollutant emissions and flame stability. Tests were conducted at pressures of up to 100 psia (690 kPa), and a typical inlet air temperature of 860℉ (733 K). The emissions and RMS pressures were documented for a relatively wide range of flame temperature from 2440-3090℉ (1610-1970 K) with and without added humidity. The results show more than 90% reduction of NO_x through 10% humidity addition to the compressed air compared with the dry case at the same flame temperature. The substantial reduction of NO_x is due to a shift in the chemical mechanisms and cannot be explained by flame temperature reduction due to added moisture since the comparison was made for the same flame temperature.

机译：在DOE NETL进行了使用液体燃料的湿空气燃烧过程的实验研究，以确定湿度对污染物排放和火焰稳定性的影响。在最高100 psia（690 kPa）的压力和860℉（733 K）的典型进气温度下进行了测试。记录的排放和RMS压力是火焰温度从2440-3090℉（1610-1970 K）的相对宽范围，有或没有增加湿度。结果表明，与在相同火焰温度下的干燥情况相比，通过向压缩空气中添加10％的湿度，NO_x减少了90％以上。 NO_x的大量减少是由于化学机理的改变，不能用由于增加的水分导致的火焰温度降低来解释，因为比较是针对相同的火焰温度进行的。

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《Journal of Engineering for Gas Turbines and Power 》 |2004年第1期| p.69-74| 共6页
作者
A. G. Chen; Daniel J. Maloney; William H. Day;
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United Technologies Research Center, 411 Silver Lane, MS 129-16, East Hartford, CT 06108;

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正文语种 eng
中图分类燃气轮机（燃气透平） ; 热力工程、热机 ;
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Humid Air NO_x Reduction Effect on Liquid Fuel Combustion

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