Managing controlled auto-ignition combustion by injection on a direct-injection gasoline engine

Li, Y; Zhao, Hua; Brouzos, Nikolaos; Leach, Ben

doi:10.1243/09544070jauto372

Cited by 4 publications

(5 citation statements)

References 6 publications

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“…These fuel properties may provide a fundamental effect in mixture formation and therefore demonstrate differences in self-ignition and CAI combustion processes. Fig.12 shows distribution of liquid and vapor phases during gasoline/air mixing in the upper part of the cylinder at the SOI of 120°CA [19]. These LIF (laser induced fluorescence) images were taken on the same engine with original SI operating setup (using original cam in Fig.2) and fuelled with gasoline.…”

Section: Summary and Future Workmentioning

confidence: 99%

“…Injection timing is another important factor to be able to significantly affect CAI combustion of methanol and ethanol. Injection in the exhaust process may exhibit different CAI combustion characteristics with injection in (b) 180°CA (c) 270°CA Fig.12 Distribution of liquid and vapour phases of gasoline fuel in upper part of the cylinder at SOI of 120°CA [19] the intake process because fuels have been greatly vaporized and mixed with air and residuals, or in other words, re-conditioned or reformed, during the recompression process. This investigation in the future also helps to understand CAI combustion differences of methanol and ethanol on port injection SI engines and on direct injection SI engines.…”

Section: Summary and Future Workmentioning

confidence: 99%

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CAI Combustion with Methanol and Ethanol in an Air-Assisted Direct Injection SI Engine

Li¹,

Zhao²,

Brouzos³

2008

SAE Technical Paper Series

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CAI combustion has the potential to be the most clean combustion technology in internal combustion engines and is being intensively researched. Following the previous research on CAI combustion of gasoline fuel, systematic investigation is being carried out on the application of bio-fuels in CAI combustion. As part of an ongoing research project, CAI combustion of methanol and ethanol was studied on a single-cylinder direct gasoline engine with an air-assisted injector. The CAI combustion was achieved by trapping part of burnt gas within the cylinder through using short-duration camshafts and early closure of the exhaust valves. During the experiment the engine speed was varied from 1200rpm to 2100rpm and the air/fuel ratio was altered from the stoichiometry to the misfire limit. Their combustion characteristics were obtained by analysing cylinder pressure trace. The experimental results show that both oxygenate fuels, methanol and ethanol, can lead to CAI combustion as well as gasoline fuel. The load of CAI combustion was increased and emissions were lower with the two oxygenate fuels. Methanol was found to have highest output and lowest energy consumption among the three fuels tested. CAI combustion characteristics of the oxygenate fuels were more affected by the amount of burnt residuals trapped than that of gasoline fuel.

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Section: Summary and Future Workmentioning

confidence: 99%

Section: Summary and Future Workmentioning

confidence: 99%

CAI Combustion with Methanol and Ethanol in an Air-Assisted Direct Injection SI Engine

Li¹,

Zhao²,

Brouzos³

2008

SAE Technical Paper Series

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“…Some of these approaches are well known, like EGR introduction, 12,13 charge stratification, 14 whereas others more specialized for CAI combustion, as for instance: fuel injection adapted strategies, valve train modifications or fuel composition adaptations. [15][16][17][18][19] In this work, the selected approach to overcome these limitations is based on the introduction of reaction suppressors within the charge in order to get a better control of the charge reactivity, thus optimizing the combustion process.…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Study of the engine configuration effect on the maximum achievable load in CAI using water injection

Valero-Marco

Lehrheuer

López

et al. 2020

International Journal of Engine Research

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The approach of this research is to enlarge the knowledge about the methodologies to increase the maximum achievable load degree in the context of gasoline CAI engines. This work is the continuation of a previous work related to the study of the water injection effect on combustion, where this strategy was approached. The operating strategies to introduce the water and the interconnected settings were deeply analyzed in order to optimize combustion and to evaluate its potential to increase the maximum load degree when operating in CAI. During these initial tests, the engine was configured to enhance the mixture autoignition. The compression ratio was high compared to a standard gasoline engine, and suitable fuel injection strategies were selected based on previous studies from the authors to maximize the reactivity of the mixture, and get a stable CAI operation. Once water injection proved to provide encouraging results, the next step dealt in this work, was to go deeper and explore its effects when the engine configuration is more similar to a conventional gasoline engine, trying to get CAI combustion closer to production engines. This means, mainly, lower compression ratios and different fuel injection strategies, which hinders CAI operation. Finally, since all the previous works were performed at constant engine speed, the engine speed was also modified in order to see the applicability of the defined strategies to operate under CAI conditions at other operating conditions. The results obtained show that all these modifications are compatible with CAI operation: the required compression ratio can be reduced, in some cases the injection strategies can be simplified, and the increase of the engine speed leads to better conditions for CAI combustion. Thanks to the analysis of all this data, the different key parameters to manage this combustion mode are identified and shown in the paper.

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“…The GCAI (Gasoline-CAI) combustion process is currently under extensive research to overcome these limitations. Several works develop different strategies to achieve CAI operation on 4-stroke engines, such as: intake air heating, higher compression ratios, residual gas trapping and exhaust gas rebreathing [8][9][10][11]. These strategies have been proved most effective in achieving CAI combustion, and the corresponding works have demonstrated their potential to be incorporated in production gasoline engines.…”

Section: Introductionmentioning

confidence: 99%

Potential of water direct injection in a CAI/HCCI gasoline engine to extend the operating range towards higher loads

Valero-Marco

Lehrheuer

López

et al. 2018

Fuel

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CAI (Controlled AutoIgnition) systems, also named HCCI (Homogeneous Charge Compression Ignition), are a promising way to improve gasoline engines. This combustion mode is more efficient than the standard SI (Spark Ignition) combustion and, additionally, it has very low emissions, especially NOx emissions, which represent a source of problems nowadays. The main problem of this combustion mode is the constrained operating range, caused, on the one hand, by the difficulty to ignite the fuel since it has to be autoignited by the control of the mixture reactivity, and, on the other hand, by its high heat release rates, causing high pressure gradients and, in some circumstances, knocking combustion. In this paper, the possibility to use directly injected water into the combustion chamber as a reactivity suppressor in order to extend the constrained load range of CAI operation is evaluated. For

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Managing controlled auto-ignition combustion by injection on a direct-injection gasoline engine

Cited by 4 publications

References 6 publications

CAI Combustion with Methanol and Ethanol in an Air-Assisted Direct Injection SI Engine

CAI Combustion with Methanol and Ethanol in an Air-Assisted Direct Injection SI Engine

Study of the engine configuration effect on the maximum achievable load in CAI using water injection

Potential of water direct injection in a CAI/HCCI gasoline engine to extend the operating range towards higher loads

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