燃烧
点火系统
喷射(流体)
材料科学
氢
机械
火焰速度
圆柱
扩散火焰
内燃机
均质压燃
发动机爆震
燃油喷射
绝热火焰温度
火焰结构
气缸盖
燃烧室
点火正时
压缩比
喷气发动机
自燃
复合材料
化学
职位(财务)
汽车工程
作者
Zhe Ma,C. P. Wang,Jun Deng,Quanbo Shang,Yongjian Tang,Haie Chen,Yi Huang,Liguang Li
摘要
<div class="section abstract"><div class="htmlview paragraph">Both ammonia and hydrogen, as zero-carbon fuels for internal combustion engines, are received growing attention. However, ammonia faces a challenge of low flame propagation velocity. Through injecting hydrogen into active pre-chamber, its jet flame ignition can accelerate the flame propagation velocity of ammonia. The influence of different pre-chamber structures on engine combustion characteristics is significant. In this paper, numerical studies were conducted to assess the impact of various pre-chamber structures and hydrogen injection strategy on the combustion characteristics of ammonia/hydrogen engines while maintaining the equivalent ratio of 1.0. The results indicate that the jet angle significantly affects the position of jet flame and the followed main combustion. The in-cylinder combustion pressure peaks at jet angle of 150°. Meanwhile, the combustion duration of 150° is shortened by 74.3% compared with that of 60°. When the jet angle is 160°, the flame jet is positioned too far up into the slit between the cylinder head and the piston, resulting in a deteriorated combustion. Among the different numbers of pre-chamber jets, the combustion characteristics of the structure with 6 jets is the best. The diameter of the pre-chamber jet has less influence on the combustion. The effect of hydrogen injection on combustion was studied by employing the optimized pre-chamber structure. Misfire occurs when the hydrogen injection timing is -30 °CA ATDC. Advancing the injection timing can avoid the misfire, and is favorable for hydrogen to form the mixture, thus accelerating the combustion speed in the main combustion chamber. When the hydrogen ratio increases from 5.0% to 20.0%, the combustion duration is shortened from 19.2°CA to 5.1°CA.</div></div>
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