Yuchao Yan, Ruomiao Yang, Zhen-tao Liu, Jinlong Liu
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引用次数: 0
摘要
在现有的文献中,关于船用发动机的信息是有限的一般研究人员。本研究的目的是提供高质量的船用柴油机信息,有利于发动机界。本文收集了6L MAN L21/31船用柴油机的相关研究资料,建立了能够表征该船用柴油机缸内活动的三维计算流体动力学模型。实验测量值与模型预测值吻合较好,表明数值模型校正较好。模拟结果表明,当排气阀打开时,燃烧室内仍有足够的氧气,这表明通过增加多余空气的利用,可以进一步减少不完全燃烧产物。此外,模型预测有助于表明,在燃油经济性和清洁燃烧之间的平衡方面,喷射设置已经根据额定功率条件进行了很好的校准。因此,建议通过优化腔室形状来实现未来的效率提高和减排,这有可能进一步提高空气利用率。
Three-Dimensional Computational Fluid Dynamics Modeling of the Combustion Process of a MAN L21/31 Marine Diesel Engine
In the available literature, information on marine engines is limited for the general researcher. The goal of this study is to provide high quality information on a marine diesel engine that is beneficial to the engine community. Information on a 6L MAN L21/31 marine diesel engine is collected from existing studies and a three dimensional computational fluid dynamics model is built in this paper that can characterize the in-cylinder activities occurring in this marine engine. The good agreement between experimentally measured and model predicted cylinder pressure and heat release rate indicates a good calibration of the numerical model. Simulation results show that sufficient oxygen is still available in the chamber when the exhaust valve is open, suggesting the possibility of further reducing incomplete combustion products by increasing the utilization of excess air. Moreover, the model predictions help to show that the injection settings are already well calibrated for the rated power condition in terms of the balance between fuel economy and clean combustion. Accordingly, future efficiency improvements and emission reductions are suggested to be achieved by the optimization of the chamber shape, which has the potential to further improve the air utilization.
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