Theses most similar to Knock limits in spark ignited direct injected engines using gasoline/ethanol blends (Kasseris, Emmanuel P; 2011) read it

Research on late-robust combustion

Wildman, Craig B. E. (Craig Bradley Edward), 1987- (2005)

  • Advisor: Wai K. Cheng
  • Department of Mechanical Engineering
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Effects of operating conditions, compression ratio, and gasoline reformate on SI engine knock limits

Gerty, Michael D (2005)

  • Advisor: John B. Heywood
  • Department of Mechanical Engineering
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Lean-burn characteristics of a gasoline engine enriched with hydrogen from a plasmatron fuel reformer

Tully, Edward J. (Edward Joseph), 1975- (2002)

  • Advisor: John B. Heywood
  • Department of Mechanical Engineering
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Knock behavior of a lean-burn hydrogen-enhanced engine concept

Topinka, Jennifer A. (Jennifer Ann), 1977- (2003)

  • Advisor: John B. Heywood
  • Department of Mechanical Engineering
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Effects of different fuels on a turbocharged, direct injection, spark ignition engine

Negrete, Justin E (2010)

  • Advisor: John B. Heywood
  • Department of Mechanical Engineering
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Effect of market fuel variation and cetane improvers on CAI combustion in a GDI engine

Cedrone, Kevin David (2010)

  • Advisor: Wai K. Cheng
  • Department of Mechanical Engineering
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Simulation of a novel electromechanical engine valve drive to quantify performance gains in fuel consumption

Miller, Justin (Justin Lee) (2011)

  • Advisors: John G. Kassakian; Wai K. Cheng
  • Department of Mechanical Engineering
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On fuel selection in controlled auto-ignition engines : the link between intake conditions, chemical kinetics, and stratification

Maria, Amir Gamal (2012)

  • Advisor: Wai K. Cheng
  • Department of Mechanical Engineering
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Translation of dilution tolerance for gasoline SI engine

Niekamp, Troy S. (Troy Steven) (2013)

  • Advisor: Wai K. Cheng
  • Department of Mechanical Engineering
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More effective use of fuel octane in a turbocharged gasoline engine : combustion, knock, vehicle impacts

Jo, Young Suk (2016)

  • Advisor: John B. Heywood
  • Department of Mechanical Engineering
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