Impact of Active Control Turbocharging on the Fuel Economy and Emissions of a Light-Duty Reactivity Controlled Compression Ignition Engine: A Simulation Study

Bharath, Anand Nageswaran; Reitz, Rolf D.; Rutland, Christopher J.

doi:10.3389/fmech.2021.610891

Cited by 3 publications

(2 citation statements)

References 32 publications

(50 reference statements)

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“…For further studies on the precise control of the air-fuel ratio, collaborative control of the multiple air-path systems is necessary for faster and more robustness adjustments under various conditions, as discussed in [121,122]. Advanced controls such as the model-based method and data-based method are required to be coupled with the developing turbochargers [123][124][125].…”

Section: Air Path System Developmentmentioning

confidence: 99%

Transient Performance of Gas-Engine-Based Power System on Ships: An Overview of Modeling, Optimization, and Applications

Wu,

Li,

Chen

et al. 2023

JMSE

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Liquefied natural gas (LNG) is widely regarded as the midterm solution toward zero-carbon transportation at sea. However, further applications of gas engines are challenging due to their weak dynamic load performance. Therefore, the comprehension of and improvements in the dynamic performance of gas-engine-based power systems are necessary and urgent. A detailed review of research on mechanisms, modeling, and optimization is indispensable to summarize current studies and solutions. Developments in engine air-path systems and power system load control have been summarized and compared. Mechanism studies and modeling methods for engine dynamic performance were investigated and concluded considering the trade-off between precision and simulation cost. Beyond existing studies, this review provides insights into the challenges and potential pathways for future applications in decarbonization and energy diversification. For further utilization of clean fuels, like ammonia and hydrogen, the need for advanced air–fuel ratio control becomes apparent. These measures should be grounded in a deep understanding of current gas engines and the combustion characteristics of new fuels. Additionally, the inherent low inertia feature of electric power systems, and consequently the weak dynamic performance when adopting renewable energies, must be considered and studied to ensure system reliability and safety during transient conditions.

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Section: Air Path System Developmentmentioning

confidence: 99%

Transient Performance of Gas-Engine-Based Power System on Ships: An Overview of Modeling, Optimization, and Applications

Wu,

Li,

Chen

et al. 2023

JMSE

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“…The lack of experimental data can be overcome by assuming the fictitious compressor map [16]. Some researchers include a 1D engine model with an active control turbocharging for a VTG turbocharger [17]. Nowadays, technologies allow performing 1D simulations of a VTG turbocharger with machine learning algorithms such as deep reinforcement learning [18,19].…”

Section: Introductionmentioning

confidence: 99%

Numerical Simulation of Two-Stage Variable Geometry Turbine

2021

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The modern internal combustion engine (ICE) has to meet several requirements. It has to be reliable with the reduced emission of pollutant gasses and low maintenance requirements. What is more, it has to be efficient both at low-load and high-load operating conditions. For this purpose, a variable turbine geometry (VTG) turbocharger is used to provide proper engine acceleration of exhaust gases at low-load operating conditions. Such a solution is also efficient at high-load engine operating conditions. In this paper, the result of an unsteady, three-dimensional (3D) simulation of the variable two-stage turbine system is discussed. Three different VTG positions were considered for those simulations, along with three different turbine speeds. The turbine inlet was modeled as six equally placed exhaust pipes for each cylinder to eliminate the interference of pressure waves. The flow field at the outlet of the 1st stage nozzle vane and 2nd stage rotor was investigated. The simulations showed that the variable technologies significantly improve the efficiency of the two-stage turbine system. The highest overall efficiency of the two-stage system was achieved at 60,000 rpm and 11o VTG position.

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Theoretical investigation the effect of Low-Temperature reformed products of gasoline on engine combustion and emission at variable loads

Liu

Cao

Wang

2022

Fuel

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Impact of Active Control Turbocharging on the Fuel Economy and Emissions of a Light-Duty Reactivity Controlled Compression Ignition Engine: A Simulation Study

Cited by 3 publications

References 32 publications

Transient Performance of Gas-Engine-Based Power System on Ships: An Overview of Modeling, Optimization, and Applications

Transient Performance of Gas-Engine-Based Power System on Ships: An Overview of Modeling, Optimization, and Applications

Numerical Simulation of Two-Stage Variable Geometry Turbine

Theoretical investigation the effect of Low-Temperature reformed products of gasoline on engine combustion and emission at variable loads

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