Direct numerical simulation of DME auto-ignition with temperature and composition stratification under HCCI engine conditions (PDF)
发布时间:2025-04-30
点击次数:
- 发布时间:
- 2025-04-30
- 论文名称:
- Direct numerical simulation of DME auto-ignition with temperature and composition stratification under HCCI engine conditions (PDF)
- 发表刊物:
- Fuel
- 摘要:
- Two-dimensional (2D) direct numerical simulation (DNS) was used to reveal the effect of temperature and composition stratifications on the ignition characteristics of dimethyl-ether (DME)/air mixture at three initial mean temperatures. The simulation was conducted within a constant volume with an isotropic turbulence condition under 40 bar. Nine 2-D cases with temperature stratification (T′), composition stratification (Ф′) and different T-Ф correlations (negative-correlated, uncorrelated, positive-correlated) were performed under the mean initial temperature of T0 = 780 K, 840 K and 1037 K. The results show that the mean heat release rate (HRR) distribution largely depends on T0 when temperature stratification was applied. When T0 = 780 K, T′ can obviously reduce the maximum of mean HRR and prolong combustion duration compared with 0D case. However, the HRR profile is barely changed for T0 = 940 K and 1037 K. Whereas, it was found that composition stratification can reduce the peak value of mean HRR and spread out HRR distribution regardless of initial mean temperature. For first ignition stage, the temperature stratification has larger effect on reducing HRR than composition stratification. Three cases with different T-Ф correlations all reduce the peak value of HRR at first ignition stage. However, for high temperature stage, UC and PC T-Ф field can largely reduce the peak value of HRR and prolong combustion duration while NC T-Ф field shows no visible effect on HRR. In addition, two different combustion modes i.e. flame propagation mode and volumetric auto-ignition mode were distinguished according to HRR contours, budget term and volume averaged temperature gradient. And the mass fraction of YOH+HO2 and YH are the more reasonable choice to track the flame front.
- 合写作者:
- Su LY, Zhang M, Wang JH, Huang ZH
- 卷号:
- 2021, 285, 119073
- 页面范围:
- 119073
- 是否译文:
- 否
- 发表时间:
- 2021-02-01