Top

Experiments in Fluids

Published in:

01-08-2014 | Research Article

Experimental study of flash boiling spray vaporization through quantitative vapor concentration and liquid temperature measurements

Published in: Experiments in Fluids | Issue 8/2014

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

Flash boiling sprays of liquid injection under superheated conditions provide the novel solutions of fast vaporization and better air–fuel mixture formation for internal combustion engines. However, the physical mechanisms of flash boiling spray vaporization are more complicated than the droplet surface vaporization due to the unique bubble generation and boiling process inside a superheated bulk liquid, which are not well understood. In this study, the vaporization of flash boiling sprays was investigated experimentally through the quantitative measurements of vapor concentration and liquid temperature. Specifically, the laser-induced exciplex fluorescence technique was applied to distinguish the liquid and vapor distributions. Quantitative vapor concentration was obtained by correlating the intensity of vapor-phase fluorescence with vapor concentration through systematic corrections and calibrations. The intensities of two wavelengths were captured simultaneously from the liquid-phase fluorescence spectra, and their intensity ratios were correlated with liquid temperature. The results show that both liquid and vapor phase of multi-hole sprays collapse toward the centerline of the spray with different mass distributions under the flash boiling conditions. Large amount of vapor aggregates along the centerline of the spray to form a “gas jet” structure, whereas the liquid distributes more uniformly with large vortexes formed in the vicinity of the spray tip. The vaporization process under the flash boiling condition is greatly enhanced due to the intense bubble generation and burst. The liquid temperature measurements show strong temperature variations inside the flash boiling sprays with hot zones present in the “gas jet” structure and vortex region. In addition, high vapor concentration and closed vortex motion seem to have inhibited the heat and mass transfer in these regions. In summary, the vapor concentration and liquid temperature provide detailed information concerning the heat and mass transfer inside flash boiling sprays, which is important for the understanding of its unique vaporization process.

previous article Flow separation control over a Gö 387 airfoil by nanosecond pulse-periodic discharge

next article Dynamics of flow control in an emulated boundary layer-ingesting offset diffuser

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Abu-Gharbieh R, Persson JL, Försth M et al (2000) Compensation method for attenuated planar laser images of optically dense sprays. Appl Opt 39:1260–1267CrossRef

Castanet G, Lavieille P, Lebouché M, Lemoine F (2003) Measurement of the temperature distribution within monodisperse combusting droplets in linear streams using two-color laser-induced fluorescence. Exp Fluids 35:563–571CrossRef

Drake MC, Fansler TD, Solomon AS, Szekely GA (2003) Piston fuel films as a source of smoke and hydrocarbon emissions from a wall-controlled spark-ignited direct-injection engine, SAE technical papers 2003-01-0547

Drake MC, Fansler TD, Lippert AM (2005) Stratified-charge combustion: modeling and imaging of a spray-guided direct-injection spark-ignition engine. Proc Combust Inst 30:2683–2691CrossRef

Düwel I, Koban W, Zimmermann FP, Zimmermann FP, Dreier T, Schulz C (2009) Spectroscopic characterization of the fluorobenzene/DEMA tracer system for laser-induced exciplex fluorescence for the quantitative study of evaporating fuel sprays. Appl Phys B 97:909–918CrossRef

Gemci T, Yakut K, Chigier N, Ho TC (2004) Experimental study of flash atomization of binary hydrocarbon liquids. Int J Multiph Flow 30:395–417CrossRefMATH

Ghandhi J, Felton P, Gajdeczko B, Bracco F (1994) Investigation of the fuel distribution in a two-stroke engine with an air-assisted injector. SAE technical papers 940394

Kamoun H, Lamanna G, Weigand B, Steelant J (2010), High-speed shadowgraphy investigations of superheated liquid jet atomisation. In: ILASS Americas 2010, Cincinnati, Ohio, May, 2010

Kamoun H, Lamanna G, Weigand B, Saengkaew S, Gréhan G, Steelant J (2013) Temperature and droplet size measurements in a flashing ethanol jet using the global rainbow thermometry. In: ILASS Europe 2013, Chania, Greece, Sept 1–4, 2013

Lavieille P, Lemoine F, Lavergne G, Lebouche M (2001) Evaporating and combusting droplet temperature measurements using two-color laser-induced fluorescence. Exp Fluids 31:45–55CrossRef

Lee J, Madabhushi R, Fotache C, Gopalakrishnan S, Schmidt D (2009) Flashing flow of superheated jet fuel. Proc Combust Inst 32:3215–3222CrossRef

Lefebvre A (1988) Atomization and sprays. Taylor & Francis, New York

Liu Z, Reitz RD (1997) An analysis of the distortion and breakup mechanisms of high speed liquid drops. Int J Multiph Flow 23:631–650CrossRefMATH

Melton LA (1983) Spectrally separated fluorescence for diesel fuel droplets and vapor. Appl Opt 22:2224–2226CrossRef

Parigger C, Plemmons DH, Litchford RJ, Jeng SM (1998) Exciplex liquid-phase thermometer using time-resolved laser-induced fluorescence. Opt Lett 23:76–78CrossRef

Preussner C, Doring C, Fehler S, Kampmann S (1998) GDI: interaction between mixture preparation, combustion system and injector performance. SAE technical papers 980498

Schmitz I, Ipp W, Leipertz A (2002) Flash boiling effects on the development of gasoline direct-injection engine sprays. SAE technical papers 2002-01-2661

Serras-Pereira J, Aleiferis PG, Richardson D (2012) Imaging and heat flux measurements of wall impinging sprays of hydrocarbons and alcohols in a direct-injection spark-ignition engine. Fuel 91:264–297CrossRef

She J (2010) Experimental study on improvement of diesel combustion and emissions using flash boiling injection. SAE technical papers 2010-01-0341

Vanderwege BA, Hochgreb S (1998) The effect of fuel volatility on sprays from high-pressure swirl injectors. Symp Combust 27:1865–1871CrossRef

Vetrano MR, Simonini A, Steelant J, Rambaud P (2013) Thermal characterization of a flashing jet by planar laser-induced fluorescence. Exp Fluids 54:1573CrossRef

Wieske P, Wissel S, Grünefeld G, Pischinger S (2006) Improvement of LIEF by wavelength-resolved acquisition of multiple images using a single CCD detector—simultaneous 2D measurement of air/fuel ratio, temperature distribution of the liquid phase and qualitative distribution of the liquid phase with the M. Appl Phys B 83:323–329CrossRef

Zeng W, Xu M, Zhang M, Zhang Y, Cleary JD (2012a) Macroscopic characteristics for direct-injection multi-hole sprays using dimensionless analysis. Exp Therm Fluid Sci 40:81–92CrossRef

Zeng W, Xu M, Zhang G, Zhang Y, Cleary JD (2012b) Atomization and vaporization for flash-boiling multi-hole sprays with alcohol fuels. Fuel 95:287–297CrossRef

Zhang G, Xu M, Zhang Y et al (2012) Macroscopic characterization of flash-boiling multi-hole sprays using planar laser induced exciplex fluorescence technique, part I: on-axis spray structure. Atom Sprays 22:861–878CrossRef

Zhang M, Xu M, Zhang Y et al (2013a) Flow-field Investigation of multihole superheated sprays using high-speed PIV. Part I. Cross-sectional direction. Atom Sprays 22:983–995CrossRef

Zhang Y, Zhang G, Xu M, Wang J (2013b) Droplet temperature measurement based on 2-color laser-induced exciplex fluorescence. Exp Fluids 54:1583CrossRef

Zhao F, Lai M-C, Harrington D (1999) Automotive spark-ignited direct-injection gasoline engines. Prog Energy Combust Sci 25:437–562CrossRef

Title: Experimental study of flash boiling spray vaporization through quantitative vapor concentration and liquid temperature measurements
Publication date: 01-08-2014
Published in: Experiments in Fluids / Issue 8/2014
Print ISSN: 0723-4864
Electronic ISSN: 1432-1114
DOI: https://doi.org/10.1007/s00348-014-1804-7

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 8/2014

Turbulent boundary-layer control with plasma spanwise travelling waves

POD analysis of a finite-length cylinder near wake

PIV-based load investigation in dynamic stall for different reduced frequencies

Flow separation control over a Gö 387 airfoil by nanosecond pulse-periodic discharge

POD-based reduced-order hybrid simulation using the data-driven transfer function with time-resolved PTV feedback

A benchmark experiment on gas cavitation

Premium Partners