车用发动机
車用髮動機
차용발동궤
Vehicle Engine
2015年
5期
37-43
,共7页
杨靖%陈小强%刘凯敏%马凯%邓华%马孝勇
楊靖%陳小彊%劉凱敏%馬凱%鄧華%馬孝勇
양정%진소강%류개민%마개%산화%마효용
柴油机%液压驱动气门%配气相位%废气再循环
柴油機%液壓驅動氣門%配氣相位%廢氣再循環
시유궤%액압구동기문%배기상위%폐기재순배
diesel engine%hydraulic driven valve%valve timing%EGR
在某柴油机上将传统凸轮驱动气门机构改进设计为液压驱动气门机构 ,利用仿真软件GT-Power建立液压驱动气门柴油机模型 ,分析进气滞后角、排气提前角和气门重叠角对柴油机动力性的影响 ,然后以扭矩最大为目标对配气正时进行联合仿真优化 ,最后对比两种内部 EGR实现方法在不同负荷下的EGR率和对 NOx 排放量的改善效果.研究结果表明 ,在外特性下 ,液压驱动气门柴油机在中低转速时的动力性和经济性有了明显改善 ,扭矩比原机提高了5.6% ,燃油消耗率降低了5.1% ;但由于液压气门响应滞后 ,随着转速的升高 ,改善效果逐渐降低.在转速2 000 r/min时 ,排气门晚关比排气门早关可以获得更大的EGR率 ,NOx 排放量降幅也比排气门早关的大 ,在50% 负荷时 ,N O x 排放量降幅最大为23 .8% .
在某柴油機上將傳統凸輪驅動氣門機構改進設計為液壓驅動氣門機構 ,利用倣真軟件GT-Power建立液壓驅動氣門柴油機模型 ,分析進氣滯後角、排氣提前角和氣門重疊角對柴油機動力性的影響 ,然後以扭矩最大為目標對配氣正時進行聯閤倣真優化 ,最後對比兩種內部 EGR實現方法在不同負荷下的EGR率和對 NOx 排放量的改善效果.研究結果錶明 ,在外特性下 ,液壓驅動氣門柴油機在中低轉速時的動力性和經濟性有瞭明顯改善 ,扭矩比原機提高瞭5.6% ,燃油消耗率降低瞭5.1% ;但由于液壓氣門響應滯後 ,隨著轉速的升高 ,改善效果逐漸降低.在轉速2 000 r/min時 ,排氣門晚關比排氣門早關可以穫得更大的EGR率 ,NOx 排放量降幅也比排氣門早關的大 ,在50% 負荷時 ,N O x 排放量降幅最大為23 .8% .
재모시유궤상장전통철륜구동기문궤구개진설계위액압구동기문궤구 ,이용방진연건GT-Power건립액압구동기문시유궤모형 ,분석진기체후각、배기제전각화기문중첩각대시유궤동력성적영향 ,연후이뉴구최대위목표대배기정시진행연합방진우화 ,최후대비량충내부 EGR실현방법재불동부하하적EGR솔화대 NOx 배방량적개선효과.연구결과표명 ,재외특성하 ,액압구동기문시유궤재중저전속시적동력성화경제성유료명현개선 ,뉴구비원궤제고료5.6% ,연유소모솔강저료5.1% ;단유우액압기문향응체후 ,수착전속적승고 ,개선효과축점강저.재전속2 000 r/min시 ,배기문만관비배기문조관가이획득경대적EGR솔 ,NOx 배방량강폭야비배기문조관적대 ,재50% 부하시 ,N O x 배방량강폭최대위23 .8% .
The original cam driven valve system was replaced by a hydraulic driven valve system and the model of diesel engine was built with GT-Power .With the model ,the influences of intake retarded angle ,exhaust advance angle and valve overlap an-gle on diesel engine power performance were analyzed ,the valve timing was optimized aiming at the maximum output torque , and EGR rate and NOx emission under different loads for two kinds of internal EGR were compared .The results showed that diesel engine with a hydraulic driven valve system had better power performance and fuel economy in low and medium speed with full load .The torque increased by 5 .6% and the specific fuel consumption rate decreased by 5 .1% .However ,the im-proved effects would become less obvious with the increase of speed .Compared with the exhaust valve early closing ,the ex-haust late closing was more likely to promote the increase of EGR rate and the reduction of NOx emission at 2 000 r/min .Under the operating condition of 50% load ,the maximum reduction of NOx emission was 23 .8% .
