燃烧科学与技术
燃燒科學與技術
연소과학여기술
JOURNAL OF COMBUSTION SCIENCE AND TECHNOLOGY
2013年
4期
323-330
,共8页
司鹏鹍%王浒%尧命发%郑尊清
司鵬鹍%王滸%堯命髮%鄭尊清
사붕곤%왕호%요명발%정존청
柴油机%后喷射%正丁醇%燃烧%碳烟%计算流体力学%排放
柴油機%後噴射%正丁醇%燃燒%碳煙%計算流體力學%排放
시유궤%후분사%정정순%연소%탄연%계산류체역학%배방
diesel engine%post injection%n-butanol%combustion%soot%computational fluid dynamics,CFD%emission
采用 CFD 计算程序耦合正庚烷-正丁醇-多环芳烃简化动力学模型,并结合多步现象学碳烟生成模型,研究了在将 NOx控制在2.0,g/(kW·h)情况下后喷射和含氧燃料正丁醇对碳烟生成过程和排放的影响.结果表明,后喷射提高燃烧后期温度、增强碳烟氧化和增强燃烧后期缸内充量运动,是其降低碳烟排放的主要原因;正丁醇降低碳烟排放主要是通过降低碳烟前驱物多环芳烃浓度和增强油气混合过程即降低当量比实现的.在后喷射基础上应用含氧燃料正丁醇,可以在 NOx排放保持不变的前提下大幅度将碳烟排放(0.032,g/(kW·h)降低至0.007,3,g/(kW·h)).因此采用多次喷射耦合 EGR 结合含氧燃料正丁醇,是降低柴油机排放的有效技术途径,可以显著改善柴油机碳烟排放.
採用 CFD 計算程序耦閤正庚烷-正丁醇-多環芳烴簡化動力學模型,併結閤多步現象學碳煙生成模型,研究瞭在將 NOx控製在2.0,g/(kW·h)情況下後噴射和含氧燃料正丁醇對碳煙生成過程和排放的影響.結果錶明,後噴射提高燃燒後期溫度、增彊碳煙氧化和增彊燃燒後期缸內充量運動,是其降低碳煙排放的主要原因;正丁醇降低碳煙排放主要是通過降低碳煙前驅物多環芳烴濃度和增彊油氣混閤過程即降低噹量比實現的.在後噴射基礎上應用含氧燃料正丁醇,可以在 NOx排放保持不變的前提下大幅度將碳煙排放(0.032,g/(kW·h)降低至0.007,3,g/(kW·h)).因此採用多次噴射耦閤 EGR 結閤含氧燃料正丁醇,是降低柴油機排放的有效技術途徑,可以顯著改善柴油機碳煙排放.
채용 CFD 계산정서우합정경완-정정순-다배방경간화동역학모형,병결합다보현상학탄연생성모형,연구료재장 NOx공제재2.0,g/(kW·h)정황하후분사화함양연료정정순대탄연생성과정화배방적영향.결과표명,후분사제고연소후기온도、증강탄연양화화증강연소후기항내충량운동,시기강저탄연배방적주요원인;정정순강저탄연배방주요시통과강저탄연전구물다배방경농도화증강유기혼합과정즉강저당량비실현적.재후분사기출상응용함양연료정정순,가이재 NOx배방보지불변적전제하대폭도장탄연배방(0.032,g/(kW·h)강저지0.007,3,g/(kW·h)).인차채용다차분사우합 EGR 결합함양연료정정순,시강저시유궤배방적유효기술도경,가이현저개선시유궤탄연배방.
Numerical simulation have been conducted to explore the effects of post injection and n-butanol on the combustion process and soot emissions of diesel engine with NOx kept at 2.0,g/(kW·h). A reduced n-heptane-n-butanol-polycyclic aromatic hydrocarbon(PAH) mechanism was coupled with the computational fluid dynamics (CFD)code,and the soot emissions were predicted by a multi-step phenomenological soot model. The results show that soot emission can be greatly reduced by applying post injection,which can be attributed to the higher tempera-ture,accelerated soot oxidation process,and enhanced in-cylinder air motion brought by post injection;that the soot precursor PAH and the equivalence ratio can be effectively reduced by n-butanol through the oxygen in the mole-cule and the enhanced fuel-air mixing process,thus soot emission reduction can be achieved. By applying post injec-tion coupling exhaust gas recirculation(EGR),combined with n-butanol,the soot emission can be reduced from 0.032,g/(kW·h) to 0.007,3,g/(kW·h) when NOx is kept at 2.0,g/(kW·h). Therefore,it is one of the competitive control strategies to realize high efficiency and clean diesel combustion.
