Numerical Analysis of Diesel Combustion With High EGR and High Boost Pressure Using a Multi-Dimensional CFD Code Coupled With Complex Chemistry Analysis

机译：利用多维CFD码与复合化学分析耦合高EGR和高升压压力的柴油燃烧数值分析

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In this study, fuel ignition timing parameters, in-cylinder pressure and heat release rates, and quantities of major exhaust gas emissions from a diesel engine were calculated using multi-dimensional CFD codes coupled with complex chemistry analysis. In addition, a sensitivity analysis of parameters was conducted to identify the major variables affecting these diesel combustion parameters. Firstly, diesel combustion analysis under typical operating conditions was carried out to validate the analytical methods used in the study, and then the effects of intake gas variables (e.g., temperature, and pressure) were investigated in detail in the sensitivity analysis. The results show that the main determinant of ignition timing in the engine is the spatial density of oxygen in the cylinder. This finding indicates that diesel combustion with high EGR and high boost pressure can provide both high thermal efficiency and low emissions.

机译：在该研究中，使用与复化学分析相结合的多维CFD码来计算燃料点火正时参数，缸内压力和热释放速率以及来自柴油发动机的主要废气排放量。此外，进行了参数的灵敏度分析，以识别影响这些柴油燃烧参数的主要变量。首先，进行典型操作条件下的柴油燃烧分析以验证研究中使用的分析方法，然后在敏感性分析中详细研究进气变量（例如，温度和压力）的影响。结果表明，发动机中点火正时的主要决定因素是气缸中氧的空间密度。该发现表明，具有高EGR和高压升压压力的柴油燃烧可以提供高热效率和低排放量。

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《SAE International Powertrains, Fuels and Lubricants Congress》|2008年||共14页
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作者
Keishi Takada; Jin Kusaka;
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中图分类 U46-53;
关键词
Combustion processes; Computational fluid dynamics; Computer simulation; Diesel engines; Diesel exhaust emissions; Engine tests; Exhaust gas recirculation; Ignition timing; Turbocharging;

机译：燃烧过程;计算流体动力学;计算机仿真;柴油发动机;柴油排气;发动机测试;废气再循环;点火正时;涡轮增压;

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4. Numerical Analysis of Diesel Combustion With High EGR and High Boost Pressure Using a Multi-Dimensional CFD Code Coupled With Complex Chemistry Analysis [C] . Keishi Takada, Jin Kusaka SAE International Powertrains, Fuels and Lubricants Congress . 2008

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Numerical Analysis of Diesel Combustion With High EGR and High Boost Pressure Using a Multi-Dimensional CFD Code Coupled With Complex Chemistry Analysis

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