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Title: Knock Mitigation Effectiveness of EGR across the Pressure-Temperature Domain

Journal Article · · SAE International Journal of Advances and Current Practices in Mobility (Online)
ORCiD logo [1]
  1. Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
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Exhaust gas recirculation (EGR) has been shown to enable efficiency improvements in SI engines through multiple different mechanisms, including decreasing the knock propensity at high load, which allows higher compression ratio. While many of the benefits of EGR are applicable to both low and high power density engines, including reductions in pumping work and improved specific heat ratio, the knock benefits and corresponding compression ratio increases have been limited to low power density naturally aspirated engines primarily intended for hybrid vehicle architectures. An earlier study [1] indicated that there may be a kinetic limitation for the ability of EGR to mitigate knock under these conditions, but that study only considered a small number of conditions. In this investigation, we expand on that study while also providing data for model validation for the new light-duty combustion consortium from the U.S. Department of Energy: Partnership for Advancing Combustion Engines (PACE). In this investigation, the effectiveness of EGR to mitigate knock is studied with regards to the effect of engine speed (1,500 and 3,000 rpm), changing trajectory in the pressure-temperature domain by varying the intake manifold temperature (35, 60, and 90 deg C), and by considering the effect of minor species by studying the effect of untreated EGR vs. EGR that has been treated by an automotive three-way catalyst. Additionally, to increase the relevance of these data for future modeling studies, the performance of the full boiling range gasoline was compared relative to a surrogate formulation. The study found that the fuel surrogate performs well, confirmed the kinetic limitations of EGR to mitigate knock under boost, and showed improvements in EGR performance with catalyzed EGR.

Research Organization:
Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States)
Sponsoring Organization:
USDOE Office of Energy Efficiency and Renewable Energy (EERE), Transportation Office. Vehicle Technologies Office
Grant/Contract Number:
AC05-00OR22725
OSTI ID:
1659613
Journal Information:
SAE International Journal of Advances and Current Practices in Mobility (Online), Journal Name: SAE International Journal of Advances and Current Practices in Mobility (Online) Journal Issue: 1 Vol. 1; ISSN 2641-9645
Publisher:
SAE InternationalCopyright Statement
Country of Publication:
United States
Language:
English

References (29)

Pressure and temperature effects on fuels with varying octane sensitivity at high load in SI engines journal March 2017
Pressure and temperature effects on fuels with varying octane sensitivity at high load in SI engines journal March 2017
Impact of nitric oxide (NO) on n-heptane autoignition in a rapid compression machine journal December 2017
Understanding chemistry-specific fuel differences at a constant RON in a boosted SI engine journal April 2018
The impact of nitric oxide on knock in the octane rating engine journal January 2019
Experimental Investigation of Spark-Ignited Combustion with High-Octane Biofuels and EGR. 2. Fuel and EGR Effects on Knock-Limited Load and Speed journal January 2014
Estimating Heat-Release and Mass-of-Mixture Burned from Spark-Ignition Engine Pressure Data journal August 1987
Replacing Fuel Enrichment in a Turbo Charged SI Engine: Lean Burn or Cooled EGR conference October 1999
Fuel Anti-Knock Quality - Part I. Engine Studies conference September 2001
Dilution Interest on Turbocharged SI Engine Combustion conference March 2003
EGR Effects on Boosted SI Engine Operation and Knock Integral Correlation journal January 2012
The Interaction of Fuel Anti-Knock Index and Cooled EGR on Engine Performance and Efficiency journal January 2012
The Effect of Acetylene on Iso-octane Combustion in an HCCI Engine with NVO journal January 2012
A Comparison of Lean Operation and Exhaust Gas Recirculation: Thermodynamic Reasons for the Increases of Efficiency conference April 2013
Ultra Boost for Economy: Extending the Limits of Extreme Engine Downsizing journal April 2014
Observations on the Measurement and Performance Impact of Catalyzed vs. Non Catalyzed EGR on a Heavily Downsized DISI Engine journal April 2014
Ammonia Generation over TWC for Passive SCR NO X Control for Lean Gasoline Engines journal April 2014
The Impact of Cooled EGR on Peak Cylinder Pressure in a Turbocharged, Spark Ignited Engine journal April 2015
Development of New High-Efficiency Kappa 1.6L GDI Engine conference April 2016
The New Toyota Inline 4 Cylinder 1.8L ESTEC 2ZR-FXE Gasoline Engine for Hybrid Car conference April 2016
Effects of Fuel Composition on EGR Dilution Tolerance in Spark Ignited Engines journal April 2016
Clean EGR for Gasoline Engines – Innovative Approach to Efficiency Improvement and Emissions Reduction Simultaneously conference March 2017
The New Toyota Inline 4-Cylinder 2.5L Gasoline Engine conference March 2017
Development of High Efficiency Gasoline Engine with Thermal Efficiency over 42% conference October 2017
The Reduced Effectiveness of EGR to Mitigate Knock at High Loads in Boosted SI Engines journal February 2017
Benchmarking a 2018 Toyota Camry 2.5-Liter Atkinson Cycle Engine with Cooled-EGR conference April 2019
Schlieren-Streak Measurements of Instantaneous Exhaust Gas Velocities from a Spark-Ignition Engine conference October 1974
Knock Suppression in a Turbocharged SI Engine by Using Cooled EGR
  • Grandin, Börje; Ångström, Hans-Erik; Stålhammar, Per
  • International Fall Fuels and Lubricants Meeting and Exposition, SAE Technical Paper Series https://doi.org/10.4271/982476
conference October 1998
Evaluation of the Effect of EGR on Engine Knock
  • Diana, S.; Giglio, V.; Iorio, B.
  • International Fall Fuels and Lubricants Meeting and Exposition, SAE Technical Paper Series https://doi.org/10.4271/982479
conference October 1998

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