Open Access
Issue
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 71, Number 1, January–February 2016
Article Number 15
Number of page(s) 13
DOI https://doi.org/10.2516/ogst/2014033
Published online 22 January 2016
  • Teng H., McCandless J.C., Schneyer J.B. (2004) Thermodynamic properties of dimethyl ether – an alternative fuel for compression-ignition engines, SAE Tech. Paper 2004-01-0093.
  • Kim M.Y., Yoon S.H., Ryu B.W., Lee C.S. (2008) Combustion and emission characteristics of DME as an alternative fuel for compression ignition engines with a high pressure injection system, Fuel 87, 2779–2786. [CrossRef]
  • Sato Y., Nozaki S., Noda T. (2004) The Performance of Diesel Engine for Light Duty Truck Using a Jerk Type In-Line DME Injection System, SAE Tech. Paper 2004-01-1862.
  • An B., Sato Y., Lee S.W., Takayanagi T. (2004) Effects of Injection Pressure on Combustion of a Heavy Duty Diesel Engine with Common Rail DME Injection Equipment, SAE Tech. Paper 2004-01-1864.
  • Yoon H., Yeom K., Bae C. (2007) The Effects of Pilot Injection on Combustion in Dimethyl-ether (DME) Direct Injection Compression Ignition Engine, SAE Tech. Paper 2007-24-0118.
  • Song R., Li K., Feng Y., Liu S. (2009) Performance and Emission Characteristics of DME Engine with High Ratio of EGR, Energ. Fuel. 23, 5460–5466. [CrossRef]
  • Jeon J., Kwon S.I., Park Y.H., Oh Y., Park S. (2014) Visualizations of combustion and fuel/air mixture formation processes in a single cylinder engine fueled with DME, Appl. Energ. 113, 294–301. [CrossRef]
  • Amsden A.A. (1993) KIVA-3: A KIVA program with block-structured mesh for complex geometries, Los Alamos National Laboratory Report LA-12503-MS.
  • Amsden A.A. (1997) KIVA-3 V: A block-structured KIVA program for engines with vertical or canted valves, Los Alamos National Laboratory Report LA-13313-MS.
  • Kee R.J., Rumpley F.M., Miller J.A. (1989) CHEMKIN-II: A Fortran chemical kinetics package for the analysis of gas phase chemical kinetics, Sandia National Laboratory Report SAND89-8009.
  • Reitz R.D. (1987) Modeling atomization processes in high-pressure vaporizing sprays, Atomization Spray. 3, 309–337.
  • Han Z., Reitz R.D. (1995) Turbulence modeling of internal combustion engines using RNG k-ε models, Combust. Sci. Technol. 106, 267–295. [CrossRef]
  • Teng H., McCandless J.C., Schneyer J.B. (2001) Thermochemical characteristics of dimethyl ether – an alternative fuel for compression-ignition engines, SAE Tech. Paper 2001-01-0154.
  • Teng H., McCandless J.C., Schneyer J.B. (2002) Viscosity and lubricity of (liquid) dimethyl ether – an alternative fuel for compression-ignition engines, SAE Tech. Paper 2002-01-0862.
  • Teng H., McCandless J.C., Schneyer J.B. (2003) Compression ignition delay (physical + chemical) of dimethyl ether – an alternative fuel for compression-ignition engines, SAE Tech. Paper 2003-01-0759.
  • Teng H., McCandless J.C. (2005) Comparative study of characteristics of Diesel-fuel and dimethyl-ether sprays in the engines, SAE Tech. Paper 2005-01-1723.
  • Patel A., Kong S.C., Reitz R.D. (2004) Development and validation of a reduced reaction mechanism for HCCI engine simulation, SAE Tech. Paper 2004-01-0558.
  • Kong S.C., Sun Y., Reitz R.D. (2007) Modeling Diesel spray flame liftoff, sooting tendency, and NOX emissions using detailed chemistry with phenomenological soot model, J. Eng. Gas Turb. Power 129, 245–251. [CrossRef]
  • Patterson M.A., Kong S.C., Hampson G.J., Reitz R.D. (1994) Modeling the effects of fuel injection characteristics on Diesel engine soot and NOX emissions, SAE Tech. Paper 940523
  • Schmidradler D., Werlberger P. (1999) Engine Videoscope Thermovision: Vision Based Temperature Measurement for Diesel Engine, ISATA 99ME039.
  • Gill D., Ofner H. (1999) DiMethyl Ether – a clean Fuel for Transportation, SAE Tech. Paper 990059.
  • Kmimoto T., Bae M. (1988) High Combustion Temperature for the Reduction of Particulate in Diesel Engines, SAE Tech. Paper 880423.
  • Neely G.D., Sasaki S., Huang Y., Leet J.A., Stewart D.W. (2005) New Diesel Emission Control Strategy to Meet US Tier 2 Emissions Regulations, SAE Tech. Paper 2005-01-1091.
  • Akihama K., Takatori Y., Inagaki K., Sasaki S., Dean A.M. (2001) Mechanism of the Smokeless Rich Diesel Combustion by Reducing Temperature, SAE Tech. Paper 2001-01-0655.

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