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Experiments in Fluids

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01.02.2020 | Research Article

Measurement of extensional properties during free jet breakup

verfasst von: Christophe Tirel, Marie-Charlotte Renoult, Christophe Dumouchel

Erschienen in: Experiments in Fluids | Ausgabe 2/2020

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Abstract

This paper reports an experimental method for extracting the extensional properties of viscoelastic liquids during atomization. As a first approach, low-velocity free jets are considered. Such jets of viscoelastic liquids break with the formation of a beads-on-a-string pattern composed of quasi-spherical beads and quasi-cylindrical ligaments. The liquid extensional properties, i.e., the relaxation time and the terminal extensional viscosity, are measured by analyzing the ligament thinning. This analysis uses a statistical multi-scale description tool whose principle is explained for an ensemble of thinning cylinders. The tool is applied to free jets of dilute polymer solutions for several polymer concentrations, liquid flow rates and nozzle dimensions. Results show a correlation between the terminal extensional viscosity and the relaxation time in good agreement with the literature. The relaxation time is found to depend on an equivalent nozzle deformation rate. This behavior is due to polymer mechanical degradation in the nozzle. Because of its statistical nature, the method also returns the diameter distribution of the ligaments seen at each position along the jet. Ligament diameter distributions observed in more energetic atomization processes can thus be measured. The extensional properties can also be inferred from a temporal monitoring of these ligaments.

Graphic abstract

Measurement of the relaxation time and the terminal extensional viscosity of viscoelastic liquids using a statistical and multi-scale analysis of their free jet behavior-from left to right: jet images produced by a backlight imaging setup, normalized images, segmented images, Euclidian Distance Map images used for the analysis.

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Bird RB, Armstrong RC, Hassager O (1987) Dynamics of polymeric liquids. Fluid mechanics, vol 1. John Wiley and Sons Inc, Hoboken

Blaisot JB (2012) Drop size and drop size distribution measurements by image analysis. Springer, Heidelberg

Blaisot JB, Yon J (2005) Droplet size and morphology characterization for dense sprays by image processing: application to the diesel spray. Exp Fluids 39(6):977–994

Bousfield DW, Keunings R, Marrucci G, Denn MM (1986) Nonlinear analysis of the surface tension driven breakup of viscoelastic filaments. J Non-Newtonian Fluid Mech 21(1):79–97

Campo-Deano L, Clasen C (2010) The slow retraction method (srm) for the determination of ultra-short relaxation times in capillary breakup extensional rheometry experiments. J Non-Newtonian Fluid Mech 165(23–24):1688–1699

Chao KK, Child CA, Grens EA, Williams MC (1984) Antimisting action of polymeric additives in jet fuels. AIChE J 30(1):111–120

Charpentier JB, Renoult MC, Crumeyrolle O, Mutabazi I (2017) Growth rate measurement in free jet experiments. Exp Fluids 58(7):89

Christanti Y, Walker LM (2002) Effect of fluid relaxation time of dilute polymer solutions on jet breakup due to a forced disturbance. J Rheol 46(3):733–748

Clasen C, Phillips PM, Palangetic L, Vermant J (2012) Dispensing of rheologically complex fluids: the map of misery. AIChE J 58(10):3242–3255

Dumouchel C (2017) Liquid atomization and spray: a multi-scale description. Keynote Lecture ASME-FEDSM, FEDSM2017-69590:1–12, July 30–Aug. 3, Waikoloa, Hawaii, USA

Dumouchel C (2006) A new formulation of the maximum entropy formalism to model liquid spray drop-size distribution. Part Part Syst Charact 23(6):468–479

Dumouchel C, Aniszewski W, Vu TT, Ménard T (2017) Multi-scale analysis of simulated capillary instability. Int J Multiph Flow 92:181–192MathSciNet

Entov VM, Hinch EJ (1997) Effect of a spectrum of relaxation times on the capillary thinning of a filament of elastic liquid. J Non-Newtonian Fluid Mech 72(1):31–53

Entov VM, Yarin AL (1984) Influence of elastic stresses on the capillary breakup of jets of dilute polymer solutions. Fluid Dyn 19(1):21–29MATH

Fdida N, Blaisot JB (2009) Drop size distribution measured by imaging: determination of the measurement volume by the calibration of the point spread function. Meas Sci Technol 21(2):025501

Goldin M, Yerushalmi J, Pfeffer R, Shinnar R (1969) Breakup of a laminar capillary jet of a viscoelastic fluid. J Fluid Mech 38(4):689–711

Goldin M, Pfeffer R, Shinnar R (1972) Break-up of a capillary jet of a non-newtonian fluid having a yield stress. Chem Eng J 4(1):8–20

Gordon M, Yerushalmi J, Shinnar R (1973) Instability of jets of non-newtonian fluids. Trans Soc Rheol 17(2):303–324

Han T, Yarin AL, Reneker DH (2008) Viscoelastic electrospun jets: initial stresses and elongational rheometry. Polymer 49(6):1651–1658

James DF, Walter K (1993) A critical appraisal of available methods for the measurement of extensional properties of mobile systems. Techniques in rheological measurement. Springer, Berlin, pp 33–53

Keshavarz B, Sharma V, Houze EC, Koerner MR, Moore JR, Cotts PM, Threlfall-Holmes P, McKinley GH (2015) Studying the effects of elongational properties on atomization of weakly viscoelastic solutions using rayleigh ohnesorge jetting extensional rheometry (rojer). J Non-Newtonian Fluid Mech 222:171–189MathSciNet

Larson RG (2005) The rheology of dilute solutions of flexible polymers: Progress and problems. J Rheol 49(1):1–70

Lefebvre AH, McDonell VG (2017) Atomization and sprays. CRC Press, Boca Raton

Mathues W, Formenti S, McIlroy C, Harlen OG, Clasen C (2018) Caber vs rojer–different time scales for the thinning of a weakly elastic jet. J Rheol 62(5):1135–1153

McKinley GH (2005) Visco-elasto-capillary thinning and break-up of complex fluids. In: Binding DM, Walter K (eds) Rheology annual. The British Society of Rheology, Edinburgh, pp 1–49

Merrill EW, Leopairat P (1980) Scission of non-interpenetrating macromolecules in transient extensional flows. Polym Eng Sci 20(7):505–511

Middleman S (1965) Stability of a viscoelastic jet. Chem Eng Sci 20(12):1037–1040

Mugele RA, Evans HD (1951) Droplet size distribution in sprays. Ind Eng Chem 43(6):1317–1324

Mun RP, Byars JA, Boger DV (1998) The effects of polymer concentration and molecular weight on the breakup of laminar capillary jets. J Non-Newtonian Fluid Mech 74(1–3):285–297

Nguyen TQ, Kausch HH (1988) Chain scission in transient extensional flow kinetics and molecular weight dependence. J Non-Newtonian Fluid Mech 30(2–3):125–140

Rayleigh L (1878) On the instability of jets. Proc Lond Math Soc 1(1):4–13MathSciNetMATH

Reneker DH, Yarin AL, Zussman E, Xu H (2007) Electrospinning of nanofibers from polymer solutions and melts. Adv Appl Mech 41:43–346

Rodd LE, Scott TP, Cooper-White JJ, McKinley GH (2005) Capillary break-up rheometry of low-viscosity elastic fluids. Appl Rheol 15(1):12–27

Schneider CA, Rasband WS, Eliceiri KW (2012) Nih image to imagej: 25 years of image analysis. Nat Method 9(7):671

Schümmer P, Tebel KH (1983) A new elongational rheometer for polymer solutions. J Non-Newtonian Fluid Mech 12(3):331–347

Sharma V, Haward SJ, Serdy J, Keshavarz B, Soderlund A, Threlfall-Holmes P, McKinley GH (2015) The rheology of aqueous solutions of ethyl hydroxy-ethyl cellulose (ehec) and its hydrophobically modified analogue (hmehec): extensional flow response in capillary break-up, jetting (rojer) and in a cross-slot extensional rheometer. Soft Matter 11(16):3251–3270

Sowa WA (1992) Interpreting mean drop diameters using distribution moments. At Sprays 2(1):1–15

Stelter M, Brenn G, Yarin AL, Singh RP, Durst F (2000) Validation and application of a novel elongational device for polymer solutions. J Rheol 44(3):595–616

Stelter M, Brenn G, Durst F (2002a) The influence of viscoelastic fluid properties on spray formation from flat-fan and pressure-swirl atomizers. Atomization Sprays 12(1–3):299–327

Stelter M, Brenn G, Yarin AL, Singh RP, Durst F (2002b) Investigation of the elongational behavior of polymer solutions by means of an elongational rheometer. J Rheol 46(2):507–527

Thiesset F, Dumouchel C, Ménard T, Aniszewski W, Vaudor G, Berlemont A (2019) Probing liquid atomization using probability density functions, the volume-based scale distribution and differential geometry. Ilass Europe 29th European Conference on Liquid Atomization and Spray Systems

Tirel C, Renoult MC, Dumouchel C, Lisiecki D, Crumeyrolle O, Mutabazi I (2017) Multi-scale analysis of a viscoelastic liquid jet. J Non-Newtonian Fluid Mech 245:1–10MathSciNet

Tirtaatmadja V, McKinley GH, Cooper-White JJ (2006) Drop formation and breakup of low viscosity elastic fluids: effects of molecular weight and concentration. Phys Fluids 18(4):043101–043118

Yarin AL (1991) Strong flows of polymeric liquids part 2. Mechanical degradation of macromolecules. J Non-Newtonian Fluid Mech 38(2–3):127–136MATH

Yarin AL (1993) Free liquid jets and films: hydrodynamics and rheology. Longman Scientific and Technical and Wiley and Sons, New YorkMATH

Yon J (2003) Jet diesel haute presssion en champ proche et lointain: Etude par imagerie. PhD Thesis, Université de Rouen

Titel: Measurement of extensional properties during free jet breakup
verfasst von: Christophe Tirel
Marie-Charlotte Renoult
Christophe Dumouchel
Publikationsdatum: 01.02.2020
Verlag: Springer Berlin Heidelberg
Erschienen in: Experiments in Fluids / Ausgabe 2/2020
Print ISSN: 0723-4864
Elektronische ISSN: 1432-1114
DOI: https://doi.org/10.1007/s00348-019-2845-8

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