Comparison of inversed-delta-injected and rectangle-injected diesel spray flame using a novel rate shaping TAIZAC injector from simultaneous high-speed imaging

Mohd Fareez Edzuan Bin Abdullah*, Akiyama Shinobu, Kinoshita Tomoki, Yuzaki Kanta, Shimada Taizo, Aizawa Tetsuya

*Corresponding author for this work

Research output: Contribution to conferencePaperpeer-review

Abstract

In order to reduce the spray tip rich mixture observed in conventional “rectangle” injection, “inversed-delta” injection rate shaping (i.e., progressive reduction of injection rate during injection period) diesel spray flame is investigated using simultaneous high-speed imaging technique. The experiments are conducted in a constant volume combustion chamber CVCC at 17% O2 concentration, 1050 K and 23.8 kg/m3, equivalent to a modern diesel engine conditions using a novel injection rate shaping TAIZAC - TAndem Injectors Zapping ACtivation injector. In 175 MPa inversed-delta injection, optically thinner spray tip mixture, shorter spray tip penetration and more even UV emissions spatial distribution compared to than that of 175 MPa rectangle injection profiles likely due to less following spray catch-up motion. Meanwhile, the differences are less apparent in 120 MPa rectangle injection. For 135 MPa inversed-delta injection profile, broad and thick rich mixture, intense UV emissions and long soot luminosity residence are observed, suggesting poor atomization and mixing likely caused by excessive near-zero injection pressure reduction. Hypothesized inversed-delta injection trend such as the spray tip rich mixture suppression and even fuel distribution are well captured from the high-speed images however, exact combustion duration timing cannot be pinpointed.

Original languageEnglish
Publication statusPublished - 2019
Event12th Asia-Pacific Conference on Combustion 2019 - Fukuoka, Japan
Duration: 1 Jul 20195 Jul 2019

Conference

Conference12th Asia-Pacific Conference on Combustion 2019
Abbreviated titleASPACC 2019
Country/TerritoryJapan
CityFukuoka
Period1/07/195/07/19

ASJC Scopus subject areas

  • General Chemical Engineering
  • Energy Engineering and Power Technology
  • Fuel Technology
  • Condensed Matter Physics

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