2011
DOI: 10.3390/en4030517
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CFD Investigation into Diesel PCCI Combustion with Optimized Fuel Injection

Abstract: A multi-pulse injection strategy for premixed charge compression ignition (PCCI) combustion was investigated in a four-valve, direct-injection diesel engine by a computational fluid dynamics (CFD) simulation using KIVA-3V code coupled with detailed chemistry. The effects of fuel splitting proportion, injection timing, spray angles, and injection velocity were examined. The mixing process and formation of soot and nitrogen oxide (NO x ) emissions were investigated as the focus of the research. The results show … Show more

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Cited by 26 publications
(14 citation statements)
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“…Similar effects were observed in research [9] when a small pilot fuel dose was applied. The investigations presented in [10,11] also indicate a reduction of the emission of particulate matter; (b) The results of the investigations presented in [12,13] indicate an improvement in the fuel combustion and consequently a reduction of the fuel consumption through fuel dose division (as compared to a single fuel dose injection); (c) From the investigations presented in [9] results the dependence of the NO x emission from the size of the first fuel dose: a large pilot fuel dose increases the homogeneity of the charge and a reduction of the NO x emission can be obtained through a delay of the injection of the main fuel dose. In a situation when the injection angle of the first fuel dose was increased by 20°-25°a lower emission of HC and CO was observed; (d) Literature analysis [8,13] is related to an engine fitted with an exhaust recirculation system.…”
Section: Introductionsupporting
confidence: 82%
“…Similar effects were observed in research [9] when a small pilot fuel dose was applied. The investigations presented in [10,11] also indicate a reduction of the emission of particulate matter; (b) The results of the investigations presented in [12,13] indicate an improvement in the fuel combustion and consequently a reduction of the fuel consumption through fuel dose division (as compared to a single fuel dose injection); (c) From the investigations presented in [9] results the dependence of the NO x emission from the size of the first fuel dose: a large pilot fuel dose increases the homogeneity of the charge and a reduction of the NO x emission can be obtained through a delay of the injection of the main fuel dose. In a situation when the injection angle of the first fuel dose was increased by 20°-25°a lower emission of HC and CO was observed; (d) Literature analysis [8,13] is related to an engine fitted with an exhaust recirculation system.…”
Section: Introductionsupporting
confidence: 82%
“…Because of the flexibility of the common rail injection, it was possible to introduce new kinds of combustion processes, such as Premixed Charge Compression Ignition-based combustion (PCCI [1,2] in diesel engines. Recently, modified PCCI process with dual-fuels was reported by different engine researchers [3,4].…”
Section: Introductionmentioning
confidence: 99%
“…To cope with the emission problem and improve the performance of diesel engines, the common rail technology has flourished around the world. The advanced fuel injection technologies in a common rail system, such as the ultrahigh injection pressure [1][2][3][4] and the multiple-injection strategy [5][6][7] as well as the high control accuracy [8], have greatly improved the performance of diesel engines. Under the action of ultrahigh injection pressures, the fuel can be injected into the cylinder in a short time, while the multiple-injection strategy divides the whole injection duration into many parts, creating shorter injection durations.…”
Section: Introductionmentioning
confidence: 99%