Paper Title

Gasohol Sprays Simulations of a Multi-Hole GDI Injector in Engine-Like Conditions

Authors

Profile picture of Avinash Kumar Agarwal
Avinash Kumar Agarwal
Profile picture of Ankur Kalwar
Ankur Kalwar

Keywords

  • Gasoline Direct Injection (GDI)
  • Mixture Formation
  • Combustion Characteristics
  • Emissions
  • Fuel Spray Quality
  • Spray Characteristics
  • Fuel Injection Parameters
  • Injection Strategy
  • Engine Operating Conditions
  • Fuel Properties
  • Methanol Additive
  • Gasohol
  • Spray Morphology
  • Droplet Evaporation
  • Fuel Mixing
  • M15
  • M85
  • Iso-Octane
  • Early Injection
  • Late Injection
  • Computational Fluid Dynamics (CFD)
  • Multi-Hole Injector
  • Constant Volume Spray Chamber (CVSC)
  • Converge Software
  • Numerical Modeling
  • Spray Penetration
  • Sauter Mean Diameter (SMD)
  • Droplet Volatility
  • Equivalence Ratio Distribution
  • Stoichiometric Conditions
  • Methanol Blends
  • Fuel Oxygen Content

Journal

SAE Technical Paper Series External link

Research Impact Tools

DOI

DOI Icon 10.4271/2021-01-0549

Publication Info

| Issue: 2021-01-0549 | Pages: 1-11

Published On

April, 2021

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Abstract

Mixture formation in GDI engine is considered crucial in determining combustion and emissions characteristics, which mainly depend on fuel spray quality. However, spray characteristics change with variations in control parameters such as fuel injection parameters, fuel injection strategy, engine operating conditions, and fuel properties. Growing research interest in the use of methanol as an additive with gasoline has motivated the need for deeper investigations of spray characteristics of these fuels. Although, it can be noted that sufficient literature is available in the area of spray characterization under several independent influencing factors, however, comparative analysis of gasohol spray behavior under different ambient conditions is hardly studied. This study is aimed at investigating the spray morphology, and evaporation and mixing characteristics of M15 (15% v/v methanol in iso-octane) and M85 (85% v/v methanol in iso-octane) in comparison to iso-octane at early injection and late injection conditions. CFD simulation studies were performed using multi-hole GDI injector in a constant volume spray chamber (CVSC) using Converge software. Numerical model used for the analysis was validated using experimental spray penetration measurements, available at the ECN. The results highlighted that effect of methanol properties on spray penetration and SMD of fuel droplets diminished under high temperature-high pressure conditions. Although, substantial difference in droplets evaporation was found among the test fuels due to inferior volatility of methanol, which definitely demands optimization of fuel injection parameters for adapting methanol blends in the engine. However, despite lower droplet evaporation, equivalence ratio distribution for methanol blends was more shifted towards stoichiometric conditions due to inherent fuel oxygen content. 88 total citations on Dimensions.

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