Sage Journals: Discover world-class research

Abstract

Get full access to this article

View all access options for this article.

References

Reitz

. Directions in internal combustion engine research. Combust Flame 2013; 160: 1–8.

Special Issue on Fuel Efficiency: Part I. Int J Engine Res 2011; 12(3).

Special Issue on Fuel Efficiency: Part II. Int J Engine Res 2012; 13(3).

. Effects of mixing and chemical parameters on thermal efficiency in a partly premixed combustion diesel engine with near-zero emissions. Int J Engine Res 2012; 13: 188–198.

Kokjohn

Hanson

Splitter

Reitz

. Fuel reactivity controlled compression ignition (RCCI): a pathway to controlled high-efficiency clean combustion (Special Issue on Fuel Efficiency). Int J Engine Res 2011; 12: 209–226.

Curran

Hanson

Wagner

. Reactivity controlled compression ignition combustion on a multi-cylinder light-duty diesel engine. Int J Engine Res 2012; 13: 216–225.

Johnson

. Review of diesel emissions and control. Int J Engine Res 2009; 10(5): 275–285.

Manente

Johansson

Cannella

. Gasoline partially premixed combustion, the future of internal combustion engines? (Special Issue on Fuel Efficiency). Int J Engine Res 2011; 12: 194–208.

Wyszynski

Megaritis

Yap

Wilson

Qiao

. Research on expansion of operating windows of controlled homogeneous auto-ignition engines. Int J Engine Res 2007; 8(1): 29–40.

10.

Nakata

Sasaki

Ota

Kawatake

. The effect of fuel properties on thermal efficiency of advanced spark-ignition engines (Special Issue on Fuel Efficiency). Int J Engine Res 2011; 12: 274–281.

11.

Shi

H-W

Reitz

. Computational optimization of internal combustion engines. London: Springer, 2011.

12.

Reitz

. A reduced chemical kinetic model for IC engine combustion simulations with primary reference fuels. Combust Flame 2008; 155: 713–738.

13.

Anand

Reitz

Bunting

. Combustion simulations of the FACE fuels in an HCCI engine. Int J Engine Res 2012; 14(2): 191–208.

14.

Gallant

Franz

Alnajjar

Storey

JME

Lewis

Scott Slunder

. Fuels for advanced combustion engines research diesel fuels: analysis of physical and chemical properties. SAE paper 2009-01-2769, 2009.

15.

Law

. A directed relation graph method for mechanism reduction. P Combust Inst 2005; 30(1): 1333–1341.

16.

Shi

Brakora

Reitz

. Automatic chemistry mechanism reduction of hydrocarbon fuels for HCCI engines based on DRGEP and PCA methods with error control. Energ Fuel 2010; 24(3): 1646–1654.

17.

Brakora

Reitz

. A comprehensive combustion model for biodiesel-fueled engine simulations. SAE paper 2013-01-1099, 2013.

18.

Puduppakkam

Liang

Naik

Meeks

Kokjohn

Reitz

. Use of detailed kinetics and advanced chemistry-solution techniques in CFD to investigate dual-fuel engine concepts. SAE paper 2011-01-0895; SAE Int J Engines 2011; 4: 1127–1149.

19.

Kodavasal

McNenly

Babajimopoulos

Aceves

Assanis

Havstad

. An accelerated multi-zone model for engine cycle simulation of homogeneous charge compression ignition combustion (Special Issue on Combustion and Ignition in Advanced Low Temperature Combustion Engines). Int J Engine Res 2013; 14(5): 416–433.

20.

Reitz

Wang

Jiao

Yao

Yang

Qiu

. Development of an n-heptane/toluene/polyaromatic hydrocarbon mechanism and its application for combustion and soot prediction (Special Issue on Combustion and Ignition in Advanced Low Temperature Combustion Engines). Int J Engine Res 2013; 14(5): 434–451.

21.

Kokjohn

Reitz

. Reactivity controlled compression ignition and conventional diesel combustion: A comparison of methods to meet light-duty NOx and fuel economy targets (Special Issue on Combustion and Ignition in Advanced Low Temperature Combustion Engines). Int J Engine Res 2013; 14(5): 452–468.

22.

Splitter

Wissink

DelVescovo

Reitz

. RCCI engine operation towards 60% thermal efficiency. SAE paper 2013-01-0279, 2013.

23.

Splitter

. High efficiency RCCI combustion. PhD Thesis, Department of Mechanical Engineering, University of Wisconsin-Madison, Madison, WI, 2012.

24.

Dempsey

Walker

Reitz

. Effect of cetane improvers on gasoline, ethanol, and methanol reactivity and the implications for RCCI combustion. SAE paper 2013-01-1678, 2013.

25.

Dempsey

Walker

Reitz

. Effect of piston bowl geometry on dual fuel reactivity controlled compression ignition (RCCI) in a light-duty engine operated with gasoline/diesel and methanol/diesel. SAE paper 2013-01-0264, 2013.

26.

Yang

Shuai

Wang

. Performance of straight-run naphtha single-and two-stage combustion modes from low to high load (Special Issue on Combustion and Ignition in Advanced Low Temperature Combustion Engines). Int J Engine Res 2013; 14(5): 469–478.

27.

Svrcek

Edwards

. Homogeneous charge compression ignition with nondilute stoichiometric methane–air at extreme compression ratios (Special Issue on Combustion and Ignition in Advanced Low Temperature Combustion Engines). Int J Engine Res 2013; 14(5): 479–495.

28.

Yang

Zhao

. Naturally aspirated and boosted controlled auto-ignition combustion with positive valve overlap in a four-stroke gasoline engine (Special Issue on Combustion and Ignition in Advanced Low Temperature Combustion Engines). Int J Engine Res 2013; 14(5): 496–511.

29.

Yun

Guralp

Grover

Najt

. The effect of temperature and oxygen concentration on auto-ignition at low-load operating conditions in a gasoline homogeneous charge compression ignition engine (Special Issue on Combustion and Ignition in Advanced Low Temperature Combustion Engines). Int J Engine Res 2013; 14(5): 512–524.

30.

Dahl

Andersson

Denbratt

. The role of charge stratification for reducing ringing in gasoline engine homogeneous charge compression ignition combustion investigated by optical imaging (Special Issue on Combustion and Ignition in Advanced Low Temperature Combustion Engines). Int J Engine Res 2013; 14(5): 525–536.

Combustion and ignition chemistry in internal combustion engines

Abstract

Get full access to this article

References