An experimental investigation into the characteristics of a fast-response flame ionization detector for in-cylinder sampling

机译：用于缸内采样的快速响应火焰电离检测器特性的实验研究

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The combustion fast-response flame ionization detector (FFID) has been successfully used for instantaneous exhaust port hydrocarbon (HC) concentration measurement in IC engines for a decade. Measurements of in-cylinder HC concentration have also been made, but these present greater challenge. As the sample transit time and the time constant of the system always change when the sampling pressure is changed, it is necessary to investigate the characteristics of the system before it was used for in-cylinder sampling. A unique method was designed to study the influence of the diameter and length of the transfer sample line and the operating parameters of the FFID on the transit time and time constant. A database of transit time and time constant was built up for different simulated in-cylinder pressures. The database can be used for correcting eventual in-cylinder HC concentration measurement.

机译：燃烧快速响应火焰离子化检测器（FFID）已成功用于IC发动机中的瞬时排气口烃（HC）浓度测量十年。还制造了缸内缸内HC浓度的测量，但这些具有更大的挑战。当样品过渡时间和系统的时间常数随着采样压力改变时总是改变，需要研究系统的特性，然后在其用于缸内采样之前。设计了一种独特的方法，用于研究转移样品线的直径和长度的影响以及FFID的操作参数在运输时间和时间常数上。建立了运输时间和时间常数的数据库，用于不同的模拟缸内压力。数据库可用于校正最终缸内HC浓度测量。

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《SAE International Fuels and Lubricants Meeting and Exposition》|2000年||共9页
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作者
Haifeng Liu; James S. Wallace;
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中图分类 U46-53;
关键词
Combustion chambers; Detector; Exhaust emissions measurement; Hydrocarbon emissions; Sampling; Spark Ignition engines;

机译：燃烧室;探测器;尾气排放测量;碳氢化合物排放;采样;火花点火发动机;

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4. An experimental investigation into the characteristics of a fast-response flame ionization detector for in-cylinder sampling [C] . Haifeng Liu, James S. Wallace SAE International Fuels and Lubricants Meeting and Exposition . 2000

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An experimental investigation into the characteristics of a fast-response flame ionization detector for in-cylinder sampling

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