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Humid Air NO_x Reduction Effect on Liquid Fuel Combustion

机译：潮湿的空气NO_X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 percent reduction of NO_x through 10 percent 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：使用液体燃料在潮湿的空气燃烧过程中进行了实验研究，以确定湿度对污染物排放和火焰稳定性的影响。在高达100psia（690kPa）的压力下进行试验，典型的入口空气温度为860‰（733 k）。记录排放和RMS压力对于具有2440-3090‰（1610 -1970 k）的相对宽范围的火焰温度，而无需添加湿度。结果显示，与相同火焰温度的干燥箱相比，在压缩空气相比，在压缩空气相比，10％的湿度降低了90％以上。 NO_X的大幅减少是由于化学机制的换档，并且由于对相同的火焰温度进行了比较，因此不能通过增加水分而通过火焰温度降低来解释。

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《ASME turbo expo conference》|2002年||共9页
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Alexander G. Chen; Daniel J. Maloney; William H. Day; American Society of Mechanical Engineers; null;
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中图分类气体透平（涡轮机）;
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1. Humid Air NO_x Reduction Effect on Liquid Fuel Combustion [J] . A. G. Chen, Daniel J. Maloney, William H. Day Journal of Engineering for Gas Turbines and Power . 2004,第1期

机译：湿空气NO_x减少对液体燃料燃烧的影响
2. NO_X emission reduction by staged combustion in grate combustion of biomass fuels and fuel mixtures [J] . Ehsan Houshfar, Øyvind Skreiberg, Dusan Todorovic, Fuel . 2012,第期

机译：在生物质燃料和燃料混合物的炉排燃烧中通过分步燃烧减少NO_X排放
3. PARAMETRIC COMPUTATIONAL STUDIES OF NO_x EMISSION REDUCTION IN STAGED COMBUSTION OF IDEAL FUEL-AIR MIXTURES [J] . L. A. Bulysova, A. L. Berne, K. S. Pugach Power Technology and Engineering . 2018,第2期

机译：理想燃料-空气混合物分级燃烧中NO_x排放降低的参数计算研究
4. Humid Air NO_x Reduction Effect on Liquid Fuel Combustion [C] . Alexander G. Chen, Daniel J. Maloney, William H. Day 2002 ASME (American Society of Mechanical Engineers) Turbo Expo, Jun 3-6, 2002, Amsterdam, the Netherlands . 2002

机译：湿空气NO_x减少对液体燃料燃烧的影响
5. Air/fuel mixing enhancement and emission reduction through intake port design and various fuel emulsions for diesel combustion. [D] . Huo, Ming. 2014

机译：通过进气口设计和用于柴油机燃烧的各种燃料乳化剂来增强和减少空气/燃料混合。
6. Numerical Analysis of the Activated Combustion High-Velocity Air-Fuel Spraying Process: A Three-Dimensional Simulation with Improved Gas Mixing and Combustion Mode [O] . Fuqiang Liu, Zhiyong Li, Min Fang, 2021

机译：活性燃烧高速空气燃料喷涂工艺的数值分析：具有改进的气体混合和燃烧模式的三维模拟
7. Soot Formation in Combustion of Single Fuel Droplets in Humid Air Flow(Thermal Engineering) [O] . Shinji NAKAYA, Yuji SHIRAISHI, Toshikazu KADOTA, 2009

机译：潮湿空气流动中的单燃料液滴燃烧烟灰形成（热工程）
8. Injection, Atomization, Ignition and Combustion of Liquid Fuels in High-Speed Air Streams [R] . Schetz, J. A. 1984

机译：高速气流中液体燃料的注入，雾化，着火和燃烧

Humid Air NO_x Reduction Effect on Liquid Fuel Combustion

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