Operating range extension of RCCI combustion concept from low to full load in a heavy-duty engine

Molina, Santiago; García, Antonio; Pastor, J.M.; Belarte, Eduardo; Balloul, Iyad

doi:10.1016/j.apenergy.2015.01.035

Cited by 106 publications

(43 citation statements)

References 32 publications

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“…The results of their study showed that active plasma particles and transportation characteristics of charged particles were affected by airflow. 7,8 These methods have been shown to demonstrate the shape of ECR plasma, the effect of plasma generation parameters of magnetic field and radio frequency on plasma shape, and the effect of microwave pumping frequency on plasma's structural properties. Their study also demonstrated that the vibrational temperature can effectively be used to explain the electron and ionization energy mechanism of DBD plasma.…”

Section: Characterization Of Plasmamentioning

confidence: 99%

“…2 The technology of using only fuel alone in the operation of engines is inadequate due to factors ranging from low thermal efficiency, poor atomization or volatization, 3,4 low vapour pressure leading to rapid evaporation, 5 and high cost of operation due to more fuel consumption. 7 Molina et al 8 suggested the extension of fuel reactivity controlled compression ignition combustion concept from low to full load. 7 Molina et al 8 suggested the extension of fuel reactivity controlled compression ignition combustion concept from low to full load.…”

Section: Introductionmentioning

confidence: 99%

“…6 Several research studies have been carried out to enhance the fossil fuel combustion processes in gas turbines (GTs). 7 Molina et al 8 suggested the extension of fuel reactivity controlled compression ignition combustion concept from low to full load. They observed that the concept was able to regulate combustion and ignition and was able to minimize the formation of soot and NO x .…”

Section: Introductionmentioning

confidence: 99%

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A review on plasma combustion of fuel in internal combustion engines

et al. 2017

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Summary In recent years, new ways of improving the combustion efficiency of fuel during gas turbine operations have been developed. The most significant has been the application of plasma technology for the combustion of fuel in gas turbine operations. Plasma is formed when gas is exposed to either high temperature or high‐voltage electricity. This technology is very promising and has proven to enhance the performance of gas turbines and reduce toxic emissions. Recent studies have shown the use of different types of plasma applications in gas turbine operations such as plasma torch, filamentary discharge, and nanosecond pulse discharge, whose results show that plasma technology has great potential in improving flame stabilization, the fuel/air mixing ratio, and flash point values of these fuels. These findings and advances have further provided new opportunities in the development of efficient plasma discharges for practical uses in plasma combustion of fuel for gas turbine operations. This article is a comprehensive overview of the advances and blind spots in the knowledge of plasma combustion of fuel during internal combustion engine operations. This review also focuses on applications, methods, and experimental results in plasma combustion of fuel in gas turbines.

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Section: Characterization Of Plasmamentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A review on plasma combustion of fuel in internal combustion engines

et al. 2017

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“…Study carried out by Kokjohn et al [4] has illustrated that the engine loads of RCCI could be operated over a wide range from 4.6 to 14.6 bar IMEP (indicated mean effective pressure) by adjusting the fuel ratio of gasoline to diesel because of the different auto-ignition characteristics of these two kinds of fuels. Molina et al [5] combined both engine test and 3-D (3-dimentional) simulation to explore suitable strategies of extending RCCI loads. It was found that double injection strategy is suitable for low to medium load, and single injection strategy is better for high load.…”

Section: Introductionmentioning

confidence: 99%

Effects of fuel ratio and injection timing on gasoline/biodiesel fueled RCCI engine: A modeling study

Yang

et al. 2015

Applied Energy

124

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“…Thus, previous studies in a heavyduty engine at fixed engine speed of 1300 rpm and 1200 rpm, evaluated RCCI concept from low to high load concluding that RCCI provides very low NOx and soot compared to the reference CDC cases. In addition, a benefit in fuel consumption from low to medium load compared to CDC was also appreciated [28]. In this sense, it was confirmed that RCCI combustion process converts greater percentage of the recovered heat transfer energy into useful work than in CDC operation [29].…”

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confidence: 50%

The potential of RCCI concept to meet EURO VI NOx limitation and ultra-low soot emissions in a heavy-duty engine over the whole engine map

Benajes

Pastor

García

et al. 2015

Fuel

129

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ElsevierBenajes Calvo, JV.; Pastor Soriano, JV.; García Martínez, A.;. The potential of RCCI concept to meet EURO VI NOx limitation and ultra-low soot emissions in a heavy-duty engine over the whole engine map. Fuel. 159:952-961. doi:10.1016Fuel. 159:952-961. doi:10. /j.fuel.2015.064.The potential of RCCI concept to meet EURO VI NOx limitation and ultra-low soot emissions in a heavy-duty engine over the whole engine map Fuel, Volume 159, 1 November 2015, Pages 952-961. http://dx.doi.org/10.1016/j.fuel.2015 Jesús Benajes, José V. Pastor, Antonio García* and Javier Monsalve-Serrano CMT -Motores Térmicos, Universitat Politècnica de València, Camino de Vera s/n, 46022 Valencia, Spain (*) Corresponding author: angarma8@mot.upv.es (Antonio García Martínez) AbstractThis work investigates the potential of RCCI concept to achieve ultra-low NOx and soot emissions over a wide range of engine speed and loads. For this purpose, a detailed experimental methodology has been defined and applied in a heavy-duty single-cylinder engine fueled with diesel and gasoline. In addition, to assess the influence of the engine compression ratio on RCCI capabilities two different compression ratios, 14.4:1 and 11:1, have been tested.Results suggest that a low compression ratio allows to fulfill all the self-imposed constraints (maximum cylinder pressure rise rate of 25 bar/CAD, NOx< 0.4 g/kWh and soot*< 0.01 g/kWh) from idle to full load and engine speeds from 900 to 1800 rpm. However, the use of higher compression ratio requires a delayed injection strategy to avoid excessive knocking levels, which results in unacceptable soot emissions at loads higher than 50%, even when gasoline fractions around 90% are used.

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Operating range extension of RCCI combustion concept from low to full load in a heavy-duty engine

Cited by 106 publications

References 32 publications

A review on plasma combustion of fuel in internal combustion engines

A review on plasma combustion of fuel in internal combustion engines

Effects of fuel ratio and injection timing on gasoline/biodiesel fueled RCCI engine: A modeling study

The potential of RCCI concept to meet EURO VI NOx limitation and ultra-low soot emissions in a heavy-duty engine over the whole engine map

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