4.7 Article

Numerical analysis of injection and spray characteristics of diesel fuel and rapeseed oil in a diesel engine

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出版社

ELSEVIER
DOI: 10.1016/j.csite.2022.102129

关键词

Diesel engine; Alternative fuel; Vegetable oil; Nozzle flow; Spray; Atomization

资金

  1. Russian Science Foundation [21-49-00012]
  2. Ministry of Science and Higher Education of the Russian Federation [075-15-2021-1028]
  3. Russian Science Foundation [21-49-00012] Funding Source: Russian Science Foundation

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Vegetable oil-based biofuels, such as DF and RO, show promise as carbon-neutral alternatives to fossil fuels. This study focuses on comparing the injection and spray characteristics of DF and RO, as well as their relationship with emission formation. The results suggest that RO has lower injection velocity and TKE compared to DF. Increasing the RO content leads to changes in spray angle, spray tip penetration, SMD, and the mass fraction of fuel injected onto the combustion chamber walls. Additionally, a correlation is found between NOx emissions and SMD.
Vegetable oil-based biofuels are promising carbon-neutral fuels to replace fossil fuels. The study focuses on a comparative analysis of injection and spray characteristics of DF and RO and the relationship between spray and emission formation. Steady nozzle flows were simulated in Ansys Fluent. Free sprays were modeled with 0D spray models, and the relationships between atomization parameters and TKE at the orifice exit were analyzed. Sprays of DF/RO blends in real combustion chamber conditions were simulated with a multi-zone spray model in DIESEL-RK. The influence of RO content on fuel atomization and fuel-air mixture formation were analyzed. Compared with DF, RO has lower injection velocity and TKE at the orifice exit. The empirical correlations of mean droplet diameters and spray angle with TKE were developed by using a complex TKE/nu(0.5) with correlation coefficients above 0.988. The increase of the RO content from 0 to 100% leads to a reduction in spray angle by 24% and an increase in spray tip penetration by 15.5%, SMD by 62.1%, and the mass fraction of fuel injected onto the combustion chamber walls from 17.1 to 42%. A correlation between NOx emissions and SMD was fitted with a correlation coefficient of 0.9968.

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