Sensitivity Analysis and Modeling Research on Combustion Characteristic Parameters of Diesel LTC

Proceedings of the 2019 International Conference on Modeling, Analysis, Simulation Technologies and Applications (MASTA 2019) Pub Date : 2019-07-01 DOI:10.2991/MASTA-19.2019.1

Jiawei Li, T. Cui, Fujun Zhang, Hongli Gao, Sufei Wang, Hao Wu

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Abstract

In this paper, first, based on the principle of sensitivity analysis, the key combustion control parameters that influence the combustion characteristics index indicated mean effective pressure (IMEP)and crank angle of 50% heat release (CA50) of diesel low temperature combustion(LTC)are determined by experimental study, which lays a foundation for simplifying the combustion control of diesel LTC. Then, the regulation law of the key combustion control parameters and the influence of that on the combustion characteristics IMEP and CA50 are further analyzed by using the experimental data. Finally, based on the above analysis, the physically-based control-oriented IMEP and CA50 model are developed. The model is validated by using the transient diesel experimental data and the validation result shows that the model can predict not only the dynamic characteristics but also the IMEP and CA50 of diesel engine under LTC conditions, accurately.

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柴油机LTC燃烧特性参数敏感性分析及建模研究

本文首先基于灵敏度分析原理，通过实验研究确定了影响柴油低温燃烧(LTC)燃烧特性指标平均有效压力(IMEP)和50%放热曲柄角(CA50)的关键燃烧控制参数，为简化柴油低温燃烧(LTC)燃烧控制奠定基础。然后，利用实验数据进一步分析了关键燃烧控制参数IMEP和CA50的调节规律及其对燃烧特性的影响。最后，在上述分析的基础上，开发了基于物理的面向控制的IMEP和CA50模型。利用柴油机瞬态试验数据对模型进行了验证，验证结果表明，该模型不仅能准确预测柴油机在LTC工况下的动态特性，还能准确预测柴油机的IMEP和CA50。

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Proceedings of the 2019 International Conference on Modeling, Analysis, Simulation Technologies and Applications (MASTA 2019)

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