Experimental analysis and 1D simulation of an advanced hybrid boosting system for automotive applications in transient operation

Marelli, Silvia; Usai, Vittorio

doi:10.1177/14680874211060173

Cited by 8 publications

(3 citation statements)

References 21 publications

(25 reference statements)

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“…Such electric turbochargers can be equipped to replace the conventional turbocharger or to couple with it as the assignment way. Most of them service with the conventional turbocharger as the 'hybrid boosting' concept, as discussed in [103]. Their effects on the faster load response and improved transient performance have been demonstrated in [104][105][106][107].…”

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 experimental campaign was developed on the test rig for components of propulsion systems of the University of Genoa (fully described in [15]) which allows the experimental characterization of single devices or subsystems of propulsion systems circuit. This test bench, schematically shown in Figure 1, allows investigations to be performed under steady, unsteady and transient flow conditions [16][17][18]. The experimental activity was developed on the turbocharger IHI RHF3 adopted for downsized spark ignition engines.…”

Section: Experimental Facilitymentioning

confidence: 99%

Experimental investigation on the vibrational and fluid dynamics behaviour of a turbocharger compressor in the transition to surge operation

Silvestri,

Marelli,

Usai

2023

E3S Web Conf.

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High-speed dynamic centrifugal compressors are widely used both in the modern internal combustion engine design and in advanced pressurized cycles and innovative plant layouts as fuel cell systems. Surge strongly limits the stable operating region of centrifugal compressors in low mass flow rate conditions especially during fast transients. Therefore, it is of great importance to investigate transient system dynamic response of compressor surge evolution and early detection of incipient compressor surge. A specific experimental investigation on compressor surge was carried out at the University of Genoa turbocharger test facility and results are presented and analysed in this paper. The activity consists of steady state and transient measurements used to characterize and identify compressor behaviour in correspondence of surge inception conditions. The frequency and time frequency data analysis have been applied on inflow pressure, anemometric and vibrational signals to identify their contents and so to be able to classify compressor operation as stable or unstable. Synchronous averages performed in the time domain have been identified as a suitable algorithmic tool to detect incipient surge conditions. Anemometric signal analysis allowed to identify intermitting phenomena in deep surge conditions may be related to the rise of a rotation stall condition. The obtained results provide original diagnostic and predictive methods to be integrated in a monitoring system capable of preventing surge and extending compressor operating range, performance and reliability to allow the integration with the other plant components.

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“…The OEMs (Original Equipment Manufacturers) are working in order to reduce the pollutant emission; the main strategy, in a short term, is provided by the engine hybridization [2]. In this scenario the performance of the internal combustion engine is still fundamental to reach the required target in terms of both emission and drivability [3]. In order to have more sustainable engines and reduce the dependence on fossil fuel, thus the CO2 production, an important solution can be provided by bio-fuels [4] and synthetic fuels [5].…”

Section: Introductionmentioning

confidence: 99%

Experimental evaluation of isentropic efficiency in turbocharger twin-entry turbines

Usai

Cordalonga

Marelli

2022

J. Phys.: Conf. Ser.

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Turbocharging plays a fundamental role not only in improving the performance of automotive engines, but also in reducing the fuel consumption and exhaust emissions of spark-ignited biofuel, diesel, liquid, and gaseous engines. Dedicated experimental investigations on turbochargers are therefore needed to evaluate a better understanding of its performance. The availability of experimental information on the steady flow performance of the turbocharger is an essential requirement to optimize the matching calculation. It is interesting to know the isentropic efficiency of the turbine in order to improve the coupling with the engine, in particular it is difficult to identify the definition of the turbine efficiency through a direct evaluation. In a radial turbine, the isentropic efficiency, evaluated directly starting from the measurement of the thermodynamic quantities at the inlet and outlet sections, can be affected by significant errors. This inaccuracy is mainly related to the incorrect evaluation of the turbine outlet temperature, due to the non-uniform distribution of the flow field in the measurement section. For this purpose, a flow conditioner was installed downstream the turbine. Tests were performed at different values of the rotational speed, and in quasi-adiabatic conditions. The flow field downstream the de-coupler was analysed through a hand-made three-hole probe with an exposed junction thermocouple inserted in the pipe with different protrusions. Thanks to this experimental campaign, it was possible to measure pressure, velocity, mass flow and temperature profiles necessary to examine the homogeneity of the flow field. As the turbocharger is fitted with a twin entry turbine, the thermodynamic quantities have been properly taken into account referring to each sector.

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Experimental analysis and 1D simulation of an advanced hybrid boosting system for automotive applications in transient operation

Cited by 8 publications

References 21 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

Experimental investigation on the vibrational and fluid dynamics behaviour of a turbocharger compressor in the transition to surge operation

Experimental evaluation of isentropic efficiency in turbocharger twin-entry turbines

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