Exergy analysis of combustion in VGT-modified diesel engine with detailed chemical kinetics mechanism

Altogether eight different configurations were considered regarding the bowl geometry to analyze the exergy terms as well as soot mass fraction distribution. Bowl configuration modification was detected to alter exergy and irreversibility by virtue of (1) spray-wall impingement, (2) HRR (heat release rate) delay and combustion initiation postponement (3) squish pressure flow and air-fuel mixing process. The highest total exergy peak and the second law efficiency are attributed to D4 configuration equal to 342.69 J, 49.93%, respectively. The general trend shows that increasing the bowl displacement led to 17.2% and 39.7% increase in the first and second law efficiency, respectively. Results show that only 6.15% exergy efficiency gain is expected with bowl radius modification. An irreversibility rate correlation was proposed based on the most effective parameters with the coefficient determination factor of 0.993, indicating the total completion of the equation. Based on the modeling equation, the highest impact on irreversibility rate is of heat release rate with impact coefficient of 0.471, while soot mass fraction showed inverse proportion (0.004379) with irreversibility rate. Higher boost and pressure monitoring of the VGT-modified diesel engine can deliver optimized air/fuel mixing mechanism, which gives way to efficient combustion and exergetic performance
 

مقالات
حجم فایل 1696 کیلوبایت
زبان مقاله ENGLISH
سال انتشار 2015
محل انتشار Energy
مشخصات کلی
تعداد صفحات 9
تعداد صفحات محصول 1-20

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Exergy analysis of combustion in VGT-modified diesel engine with detailed chemical kinetics mechanism

  • تولید کننده: Hadi Taghavifar
  • شناسنامه: MC2-1154-paper4
  • موجودی: در انبار
  • تاریخ چاپ: 2016-10-23
  • نویسنده: Hadi Taghavifar, Shahram Khalilarya, Samad Jafarmadar
  • ژورنال: Energy
  • رایگان
  • قیمت بدون مالیات: رایگان

برچسب ها: Bowl configurations, Chemical kinetics, Exergy, Irreversibility, Wall heat flux, heat release rate