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Study of Reformer Gas Effects on n-Heptane HCCI Combustion Using a Chemical Kinetic Mechanism Optimized by Genetic Algorithm

机译：使用遗传算法优化的化学动力学机制研究了对正庚烷HCCI燃烧的重整器气体影响

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Because of the potential for low NO{sub}x emissions with high efficiency, HCCI engines could develop a significant niche in the engine world. However, HCCI engines suffer from a narrow operating range between knock and misfire boundaries because the ignition timing is only controlled by mixture chemistry and compression conditions. Varying combinations of operating parameters are required to obtain good combustion under different conditions and chemical kinetic models are widely used as an engine research tool. The performance of such models depends critically on the accuracy of the chemical mechanisms which are still under development and require some optimization, particularly for larger hydrocarbon molecules.

机译：由于低{Sub} X的潜力高效率，HCCI发动机可以在发动机世界中开发一个重要的利基。然而，HCCI发动机在敲击和失火边界之间遭受窄的操作范围，因为点火正时仅被混合化学和压缩条件控制。在不同的条件下，需要不同的操作参数的组合来获得良好的燃烧，并且化学动力学模型被广泛用作发动机研究工具。这种模型的性能均批判性地依赖于仍在开发的化学机制的准确性，并且需要一些优化，特别是对于较大的烃分子。

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《SAE World Congress》|2008年||共17页
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作者
P. Kongsereeparp; M. David Checkel;
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中图分类 U46-53;
关键词
Alternative fuels; Autoignition; Chemical kinetics; Combustion processes; Diesel engines; Diesel fuels; Engine controls; Fuel blends; Mathematical models; Mixture formation; Synthetic fuels;

机译：替代燃料;自燃;化学动力学;燃烧过程;柴油发动机;柴油燃料;发动机控制;燃料混合;数学模型;混合物形成;合成燃料;合成燃料;合成燃料;

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专利

1. Development of an optimized chemical kinetic mechanism for homogeneous charge compression ignition combustion of a fuel blend of n-heptane and natural gas using a genetic algorithm [J] . A Rahimi, E Fatehifar, R Khoshbakhti Saray Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering . 2010,第9期

机译：使用遗传算法开发正庚烷和天然气混合燃料均质充量压缩点火燃烧的优化化学动力学机理
2. Development of an optimized chemical kinetic mechanism for homogeneous charge compression ignition combustion of a fuel blend of n-heptane and natural gas using a genetic algorithm [J] . A. Rahimi, E. Fatehifar, R. Khoshbakhti Saray Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering . 2010,第9期

机译：利用遗传算法开发正庚烷和天然气混合燃料均质充量压缩点火燃烧的优化化学动力学机理
3. An optimized chemical kinetic mechanism for HCCI combustion of PRFs using multi-zone model and genetic algorithm [J] . Elaheh Neshat, Rahim Khoshbakhti Saray Energy Conversion & Management . 2015,第mara期

机译：多区域模型和遗传算法优化的PRF HCCI燃烧化学动力学机理
4. Study of Reformer Gas Effects on n-Heptane HCCI Combustion Using a Chemical Kinetic Mechanism Optimized by Genetic Algorithm [C] . P. Kongsereeparp, M. David Checkel SAE World Congress . 2008

机译：使用遗传算法优化的化学动力学机制研究了对正庚烷HCCI燃烧的重整器气体影响
5. Enabling HCCI combustion of n-heptane through thermo-chemical recuperation. [D] . Posada Sanchez, Francisco. 2010

机译：通过热化学回收使HCCI燃烧正庚烷。
6. Chemical Kinetic Model of Multicomponent Gasoline Surrogate Fuel with Nitric Oxide in HCCI Combustion [O] . Chao Yang, Zhaolei Zheng 2020

机译：HCCI燃烧中一氧化氮的多组分汽油替代燃料的化学动力学模型
7. Numerical and experimental engine study of HCCI combustion. Validation of a reduced n-heptane/iso-octane chemical kinetic mechanism [O] . Machrafi, Hatim, Lombaert, K., Guibert, P., 2005

机译：HCCI燃烧的数值和实验发动机研究。验证正庚烷/异辛烷还原的化学动力学机理
8. Computer Generated Reduced Iso-Octane Chemical Kinetic Mechanism Applied to Simulation of HCCI Combustion [R] . Aceves, S. M., Martineez-Frias, J., Flowers, D. 2002

机译：计算机生成的还原异辛烷化学动力学机理在HCCI燃烧模拟中的应用

Study of Reformer Gas Effects on n-Heptane HCCI Combustion Using a Chemical Kinetic Mechanism Optimized by Genetic Algorithm

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