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Technical Paper

Vehicle Drive Cycle Fuel Economy Prediction Using Single Cylinder Engine Data

2019-04-02
2019-01-0628
The confluence of fuel economy improvement requirements and increased use of ethanol as a gasoline blend component has led to various studies into the efficiency and performance benefits to be had when using high octane number, high ethanol content fuels in modern engines. As part of a comprehensive study of the autoignition of fuels in both the CFR octane rating engine and a modern, direct injection, turbocharged spark ignited engine, a series of fuel blends were prepared with market relevant ranges of octane numbers and ethanol blends levels. The paper reports on the first part of this study where fuel flow measurements were done on a single cylinder research engine, utilizing a GM LHU combustion system, and then used to predict drive cycle fuel economy. For a range of engine speeds and manifold air pressures, spark timing was adjusted to achieve either the maximum brake torque (MBT) or a matched 50 % mass fraction burnt location.
Technical Paper

Effects of Dual Port Injection and Direct-Injection Technology on Combustion Emissions from Light-Duty Gasoline Vehicles

2019-04-02
2019-01-0999
Dual injection fuel systems combine the knock and fuel economy benefits of gasoline direct injection (GDI) technology with the lower particulate emissions of port fuel injection (PFI) systems. For many years, this technology was limited to smaller-volume, high-end, vehicle models, but these technologies are now becoming main stream. The combination of two fuel injection systems has an impact on the combustion emission composition as well as the consistency of control strategy and emissions. Understanding the impact of these changes is essential for fuel and fuel additive companies, automotive companies, and aftertreatment developers. This paper describes the effects of dual injection technology on both regulated and non-regulated combustion emissions from a 2018 Toyota Camry during several cold-start, 4-bag United States Federal Test Procedure (FTP) cycle.
Journal Article

Combined Effects of Engine and Oil Age on Low Speed Pre-Ignition

2019-01-15
2019-01-0033
Low-speed pre-ignition (LSPI) is a well-established phenomenon that occurs in boosted, direct injection, spark ignition engines. The impact of lubricant formulation has arguably received the most attention, leading to the introduction of the Sequence IX test for LSPI as part of the API SN PLUS lubricant service category. This test, as with most other LSPI evaluations, considers the performance of the fresh oil. A handful of papers have started addressing the effect of both engine and oil age on LSPI during both test-stand and in-vehicle studies. The current paper adds to this body of knowledge by analyzing results from multiple test-bench installations of the GM LHU engine platform. For each engine, multiple tests, each comprising of multiple segments of a high-load, low-speed test point, known to amplify the occurrence of LSPI, were analyzed to investigate the combined effect of oil and engine age on LSPI activity.
Technical Paper

Impact of Engine Age and Engine Hardware on Low-Speed Pre-Ignition

2018-09-10
2018-01-1663
Low-speed pre-ignition (LSPI) is a well-studied phenomenon in boosted, spark ignition engines. The impact of lubricant formulation has received a lot of attention in recent years, yet the impact of engine hardware and engine wear on LSPI is still not fully understood. This paper addresses some of these questions using results from multiple installations of the GM 2.0 L LHU engine platform. In the first part of the study, the effect of engine life on LSPI activity was observed, and it was found that engines were susceptible to variations in LSPI activity during the initial LSPI tests with the activity eventually reaching a “stabilized” level. It was further observed that the LSPI activity generally continued to decline at a steady rate as the engine aged. For engines used in LSPI testing, the life of the engine is often limited as LSPI activity decays with age.
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