| 제목 |
Multi-zone 모델링을 통한 온도성층화와 농도성층화가 존재하는 DME HCCI 엔진의 운전영역에 관한 수치해석연구 |
| 분야 |
전기동력자동차 |
| 언어 |
Korean |
| 저자 |
정동원(울산대학교), 임옥택(울산대학교) |
| Key Words |
Thermal stratification(온도 성층화), Fuel stratification(농도 성층화), Pressure-rise rate(압력상승률), Dimethyl-ether(DME; 디메틸에테르), Homogeneous charge compression ignition(HCCI; 예혼합압축착화), Numerical analysis(수치 |
| 초록 |
This work investigates the potential of in-cylinder thermal stratification and fuel stratification for extending the operating ranges in HCCI engines, and the coupling between thermal stratification and fuel stratification. Computational results areemployed. The computations were conducted using both a custom multi-zone version and the standard single-zone version of the Senkin application of the CHEMKINII kinetics rate code, and kinetic mechanism for di-methyl ether (DME). This study shows that the potential of thermal stratification and fuels stratification for extending the high-load operating limit by a staged combustion event with reduced pressure-rise rates is very large. It was also found that those stratification offers good potential to extend low-load limit by a same mechanism in high-load. However, a combination of thermal stratification and fuel stratification is not more effective than above stratification techniques for extending the operating ranges showing similar results of fuel stratification. Sufficient condition for combustion (enough temperature for) turns misfire in low-load limit to operate engines, which also leads to knock in high-load limit abruptly due to the too high temperature with high. DME shows a potential for maximizing effect of stratification to lower pressure-rise rate due to the characteristics of low-temperature heat release. |
| 원문(PDF) |
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