Comparative Study on the Macroscopic Characteristics of Gasoline and Ethanol Spray from a GDI Injector under Injection Pressures of 10 and 60 MPa

Li, Xiang; Li, Dayou; Liu, Jingyin; Ajmal, Tahmina; Aïtouche, Abdel; Mobasheri, Raouf; Rybdylova, Oyuna; Pei, Yiqiang; Peng, Zhijun

doi:10.1021/acsomega.1c07188

Cited by 8 publications

(5 citation statements)

References 49 publications

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“…(Jenny et al 2012;Banerjee and Rutland 2015;Linne 2013;Bravo and Kweon 2014;Berni et al 2022). This region is characterized by strong droplet-gas fluid dynamic interactions, which promote air/fuel mixing and the onset and growth of turbulent structures in the gas phase (Mitroglou et al 2007;Ghasemi et al 2014;Lee and Park 2014;Li et al 2022). This would translate into the observed trend of the extinction coefficient.…”

Section: D Tomographic Reconstructionmentioning

confidence: 99%

“…Recent decades have seen the development and growing diffusion of gasoline direct injection (GDI) engines, by reason of improved fuel efficiency, power output, and reduced emissions (Zhao 2010;Van Basshuysen and Spicher 2009;Kalwar and Agarwal 2020;Duronio et al 2020). Their development and advancement, as with diesel, have relied significantly on the optimization of the fuel injection process (Hoffmann et al 2014;Pauer et al 2017;Hassdenteufel et al 2022;Li et al 2022;Lee et al 2020), driven by a strong synergy between experimental and numerical investigations (Drake and Haworth 2007;Shost et al 2014;Postrioti et al 2018;Shahangian et al 2020;Arienti et al 2021;Lien et al 2024), in which optical diagnostics played a fundamental role and still does (Drake and Haworth 2007;Hargrave et al 2000;Zhao 2012;Fansler and Parrish 2014;Linne 2013;Berrocal et al 2022). In this context, the usual high-speed imaging techniques for the characterization of the macroscopic parameters of sprays, based on line-of-sight optical extinction techniques, are increasingly applied in computed tomography investigations (Parrish et al 2010; Kristensson et al 2012;Weiss et al 2020;Hwang et al 2020;Lehnert et al2022;Hwang et al 2024;Oh et al 2022;Karathanassis et al 2021).…”

Section: Introductionmentioning

confidence: 99%

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Shadowgraph Tomography of a High Pressure GDI Spray

Lazzaro,

Alfuso,

Ianniello

2024

Preprint

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An isooctane spray from a high-pressure multi-hole GDI injector (Bosch HDEV6) was characterized by means of optical extinction tomography, relying on parallel illumination by a focused-shadowgraph setup. The tests were carried out in air at ambient conditions at an injection pressure of 300 bar. Extinction images of the spray were acquired over a 180-degree angular range in 1-degree increments. The critical issues of optical extinction tomography of sprays, related to the strong light extinction by the dense liquid core of fuel jets, were addressed. To mitigate artifacts arising from the reconstruction process, the extinction data were subjected to spatially-variant filtering steps of both the raw and post-log data, before being analytically inverted through the inverse Radon transform. This made it possible to process extinction data for very large optical depths. A nearly complete three-dimensional reconstruction of the spray was obtained, providing significant details of the spray morphology and the internal structure of the jets throughout the spray development. The different phases of the atomization process from the near-field to far-field regions of the spray were observed.

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Section: D Tomographic Reconstructionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Shadowgraph Tomography of a High Pressure GDI Spray

Lazzaro,

Alfuso,

Ianniello

2024

Preprint

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“…11 The currently available Coriolis flowmeters can be applied for the measurement of a flowrate characterized by a pressure of up to around 400 bar, 12 although modern diesel injection systems can reach pressure levels of up to 3000 bar, 13 while the 500 bar level is the target for next-generation GDI systems. 14 However, the invasiveness of this family of devices may represent a limit to their application. 15 In this context, a flowrate estimation, based on the measurement of instantaneous pressure traces, represents a very attractive opportunity, due to the characteristics of the pressure sensors, in terms of miniaturization and dynamic response.…”

Section: Introductionmentioning

confidence: 99%

“…The currently available Coriolis flowmeters can be applied for the measurement of a flowrate characterized by a pressure of up to around 400 bar, 12 although modern diesel injection systems can reach pressure levels of up to 3000 bar, 13 while the 500 bar level is the target for next-generation GDI systems. 14 However, the invasiveness of this family of devices may represent a limit to their application. 15…”

Section: Introductionmentioning

confidence: 99%

Investigation of a GDI injector with an innovative flowmeter for high-pressure transient flows

Ferrari

Pizzo²,

Vento

2023

International Journal of Engine Research

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A new flowmeter for high pressure flows, characterized by intense dynamic events, is presented. The flowmeter algorithm is based on the measurement of two pressure signals along the investigated pipe, and the flowrate is obtained through an ordinary differential equation given by the combination of the continuity and the momentum partial differential equations. This flowmeter has been applied to a GDI injector to monitor the flowrate that enters the injector during an injection event. A 1D numerical model of the GDI injector has been set up and validated, and the numerical outcomes have been used to confirm the consistency of the experimental results obtained from the new flowmeter, for both single and pilot-main injections. The internal dynamics of the injector has also been investigated, using both the 1D numerical tool and the innovative flowmeter. A possible feedback-control strategy has been set up to compensate for any inaccuracy of the injected mass by applying the flowmeter to the hydraulic high-pressure circuit.

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“…Presently existing Coriolis flowmeters can detect flow rates with pressures up to roughly 400 bar [12], however, actual diesel injection systems can achieve pressure levels of up to 3000 bar [13], while the 500 bar target represents the objective of next generation GDI systems [14]. Besides this, the invasiveness of this class of devices may restrict its applicability [15].…”

Section: Introductionmentioning

confidence: 99%

Instantaneous flowrate measurements in high-pressure liquid flows

Ferrari,

Pizzo,

Rundo

et al. 2023

J. Phys.: Conf. Ser.

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A new flowmeter suitable for high-pressure flows and with a prompt dynamic response is presented. It is constituted by two pressure transducers installed on the monitored high-pressure pipe at a fixed distance one from the other, together with a low-pressure flowmeter that provides a time-averaged flowrate. The measurement algorithm consists of an ordinary differential equation obtained by combining the mass conservation partial differential equation and the momentum balance one applied to the considered piece of pipe comprised between the two pressure transducers. Due to the absence of a master instrument that can be employed as reference to verify the consistency of the measured flowrate, the flowmeter accuracy has been demonstrated by means of numerical models of various hydraulic components, rigorously validated through pressure measurements. The flow ripple of gear pumps has been measured, as well as the flowrate entering a Common Rail injector. For all these cases, the measured flowrate and the one obtained by means of the numerical model are in very good agreement, leading to a robust validation of the presented measurement device.

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Comparative Study on the Macroscopic Characteristics of Gasoline and Ethanol Spray from a GDI Injector under Injection Pressures of 10 and 60 MPa

Cited by 8 publications

References 49 publications

Shadowgraph Tomography of a High Pressure GDI Spray

Shadowgraph Tomography of a High Pressure GDI Spray

Investigation of a GDI injector with an innovative flowmeter for high-pressure transient flows

Instantaneous flowrate measurements in high-pressure liquid flows

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