Studying the effects of manifold pressure boosting and EGR on combustion and NOx emission of hydrogen-fueled SI engine

被引:5
作者
Pandey, Jayashish Kumar [1 ,2 ,3 ]
Kumar, G. N. [1 ]
机构
[1] Natl Inst Technol Karnataka, Dept Mech Engn, Mangalore, India
[2] Manipal Inst Technol, Dept Aeronaut & Automobile Engn, Udupi, India
[3] Natl Inst Technol Karnataka, Dept Mech Engn, M-206, Mangalore 575025, Karnataka, India
关键词
Hydrogen; combustion; boosting MAP; EGR; NOx control; EXHAUST-GAS RECIRCULATION; COMPRESSION RATIO; IGNITION ENGINE; LEAN-BURN; DIRECT-INJECTION; THERMAL EFFICIENCY; PERFORMANCE; METHANOL; ETHANOL; FUTURE;
D O I
10.1177/14680874231153209
中图分类号
O414.1 [热力学];
学科分类号
摘要
Aiming to the global energy insecurity due to extensive dependence on fossil fuels, hydrogen is supposed to provide relief by researchers. However, employed to combustion engines, this green fuel leaves hazardous NOx and limits output due to low volumetric energy content. Hence, improving operating parameters like compression ratio and manifold pressure, and NOx mitigating technique like EGR may prove a boon. Therefore, in the present study, combustion and NOx emission behavior of the SI-engine is studied under variable manifold air pressure (MAP) (up to 130 kPa) and EGR (up to 15%) at compression ratio 14:1. The outcomes shows the flame development increased by 1.24%, while flame propagation is increased by 1.63% by MAP boosting due to increased air and fuel supply. Cylinder pressure and heat-release rate (HRR) are also surged due to the increased fuel supply to maintain excess-air ratio (lambda). However, peak cylinder pressure is retarded due to elongated combustion. The exhaust gas temperature (EGT) is increased by 19.4%, while elevated T-max is observed to shoot up NOx by 40%. Combustion in improved at low EGR due to reduced lambda, and also the specific NOx. At higher EGR rate deteriorated combustion due to increased heterogeneity by high dilution, increasing combustion duration, cooling losses and reducing cylinder pressure, T-max and EGT. A 9.33% and 5.67% increase in CA10 and CA10-90 respectively is observed for 130 kPa at 15% EGR than no EGR. The rapid reduction in oxygen and higher heterogeneity reducing residence time, resulted in rapid drop (33% at N/A to 42.68% at 130 kPa for 15% EGR) in NOx by EGR. The coefficient variation is reduced by boosting MAP but increased severely at higher EGR, which restricts operating EGR rate.
引用
收藏
页码:3492 / 3504
页数:13
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