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Atomization and Sprays
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ISSN Печать: 1044-5110

ISSN Онлайн: 1936-2684

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INSIGHT OF AWATER-IN-OIL EMULSION DROP UNDER LEIDENFROST HEATING USING LASER-INDUCED FLUORESCENCE OPTICAL DIAGNOSTICS

Том 29, Выпуск 1, 2019, pp. 1-17
DOI: 10.1615/AtomizSpr.2019029233
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Краткое описание

A water-in-oil emulsion droplet may undergo a phenomenon called microexplosion when under strong heating. A microexplosion can be defined as the atomization of the continuous phase (i.e., oil) by the dispersed droplets (i.e., water) phase change and the volume expansion that is induced. It is established that microexplosion occurrence is favored by the (partial) coalescence of water droplets before phase change. This process has direct influence on the time evolution of water droplet size. For this purpose, an experimental method based on laser-induced fluorescence is set up. It basically consists of adding a fluorescent dye, fluorescein, which is soluble only in water, and exciting the emulsion drop by a laser sheet during its heating. The goal is to gain a better understanding of microexplosion by measuring the size evolution of dispersed droplets and targeting the water droplet that triggers the atomization of the emulsion drop. The sizing procedure showed promising results. Manual and automatic measurements of the size were compared in order to quantify the average error, which happens to be < 10%. Results show that the size of this trigger droplet is not sufficient in order to determine whether an emulsion drop will undergo optimal atomization.

ЛИТЕРАТУРА
  1. Armas, O., Ballesteros, R., Martos, F.J., and Agudelo, J.R., Characterization of Light Duty Diesel Engine Pollutant Emissions usingWater-Emulsified Fuel, Fuel, vol. 84, no. 8, pp. 1011–1018, 2005.

  2. Avidisian, C.T. and Fatehi, M., An Experimental Study of the Leidenfrost Evaporation Characteristics of Emulsified Liquid Droplets, Int. J. Heat Mass Transf., vol. 31, no. 8, pp. 689–692, 1988.

  3. Barker, T., Bashmakov, I., Bernstein, L., Bogner, J., Bosch, P., Dave, R., Davidson, O., Fisher, B., Grubb, M., Gupta, S., and Halsnæs, K., Climate Change 2007-Summary for Policymakers: Working Group III Contribution to the Fourth Assessment Report of the IPCC, vol. 4, Cambridge University Press, 2007.

  4. Belkadi, A., Etude Experimentale du Fractionnement Liquide-Liquide en Micro-Canaux pour la Production en Continu de Biodiesels Emulsionnes, PhD, University of Nantes, 2015.

  5. Califano, V., Calabria, R., and Massoli, P., Experimental Evaluation of the Effect of Emulsion Stability on Micro-Explosion Phenomena for Water-in-Oil Emulsions, Fuel, vol. 117, no. A, pp. 87–94, 2014.

  6. Crookes, R.J., Kiannejad, F., and Nazha, M.A.A., Systematic Assessment of Combustion Characteristics of Biofuels and Emulsions with Water for Use as Diesel Engine Fuels, Energy Conversion Manage., vol. 38, nos. 15-17, pp. 1785–1795, 1997.

  7. Fuchihata,M., Takeda, S., and Ida, T., The Effect ofWater Content Diameter on the Structure of Light Oil- Water Emulsion Spray Flames, ASME-JSME Thermal Eng. Summer Heat Transf. Conf., vol. 1, pp. 601– 604, 2007.

  8. Geng, P., Cao, E., Tan, Q., and Wei, L., Effects of Alternative Fuels on the Combustion Characteristics and Emission Products from Diesel Engines: A Review, Renewable Sustainable Energy Rev., vol. 71, pp. 523–534, 2017.

  9. Hagos, F.Y., Aziz, A.R.A., and Tan, I.M, Water-in-Diesel Emulsion and ItsMicro-Explosion Phenomenon- Review, IEEE 3rd Int. Conf. on Communication Software and Networks, pp. 314–318, 2011.

  10. Hagos, Y., Ali, O.M., Mamat, R., and Abdullah, A.A., Effect of Emulsification and Blending on the Oxygenation and Substitution of Diesel Fuel for Compression Ignition Engine, Renewable Sustainable Energy Rev., vol. 75, pp. 1281–1294, 2017.

  11. Jarvis, T.J., Donohue, M.D., and Katz, J.L., Bubble Nucleation Mechanisms of Liquid Droplets Superheated in Other Liquids, J. Colloid Interface Sci., vol. 50, pp. 359–368, 1975.

  12. Kadota, T. and Yamasaki, H., Recent Advances in the Combustion of Water Fuel Emulsion, Prog. Energy Combustion Sci., vol. 28, no. 5, pp. 385–404, 2002.

  13. Khan, Y.M., Abdul Karim, Z.A., Hagos, F.Y., Aziz, A.R.A., and Tan, I.M., Current Trends in Water-in- Diesel Emulsion as a Fuel, Sci. World J., vol. 17, Article ID 527472, 2014.

  14. Khan, Y.M., Rashid, A.A., Abdul Karim, Z.A., and Tan, I.M., Experimental Investigation of Micro- ExplosionOccurrence inWater in Diesel EmulsionDroplets during the Leidenfrost Effect, Energy Fuels, vol. 28, no. 11, pp. 7079–7084, 2014.

  15. Khan, Y.M., Abdul Karim, Z.A., Rashid, A.A., Heikal, M., and Crua, C., Puffing and Micro-Explosion Behavior of Water-in-Pure Diesel Emulsion Droplets during Leidenfrost Effect, Combustion Sci. Technol., vol. 187, no. 7, pp. 1186–1197, 2016.

  16. Khan, Y.M., Abdul Karim, Z.A., Rashid, A.A., and Tan, I.M., A Case Study on the Influence of Selected Parameters onMicro-Explosion Behavior ofWater in Biodiesel Emulsion Droplets, J. Energy Resources Technol., vol. 139, pp. 1–10, 2017.

  17. Marchitto, L., Calabria, R., Tornatore, C., Bellettre, J., Massoli, P.,Montillet, A., and Valentino, G., Optical Investigations in a CI Engine Fueled with Water in Diesel Emulsion Produced through Microchannels, Experimental Thermal Fluid Sci., vol. 95, pp. 96–103, 2018.

  18. Matiello, M., Cosmai, L., Beretta, F., Pistone, L., and Massoli, P., Experimental Evidences for Micro- Explosion in Water/Fuel Oil Emulsion Flames Inferred by Laser Light Scattering, 24th Symposium on Combustion, The Combustion Institute, pp. 1573–1578, 1992.

  19. Mizutani, Y., Fucchihata, M., and Murakoa, M., In Situ Observation of Micro-Explosion of Emulsion Droplets in Spray Flames, Atomization Sprays, vol. 11, no. 5, pp. 521–532, 2001.

  20. Morozumi, Y. and Saito, Y., Characteristics of Auto-Ignition and Micro-Explosion Behavior of a Single Droplet of Water-in-Fuel, Energy Fuels, vol. 24, pp. 1854–1859, 2010.

  21. Moussa, O., Tarlet, D., Massoli, P., and Bellettre, J., Parametric Study of the Micro-Explosion Occurrence of W/O Emulsions, Int. J. Thermal Sci., vol. 133, pp. 90–97, 2018.

  22. Mura, E., Josset, C., Loubar, K., Huchet, G., and Bellettre, J., Effect of Dispersed Water Droplet Size in Micro-Explosion Phenomenon for Water in Oil Emulsion, Atomization Sprays, vol. 20, no. 9, pp. 791– 799, 2010.

  23. Mura, E., Contribution a l’etude de la Micro-Explosion d’une Goutte d’emulsion d’eau dans l’huile: Impact de la Granulometrie de la Phase Dispersee, PhD, University of Nantes, 2011.

  24. Mura, E.,Massoli, P., Josset, C., Loubar, K., and Bellettre, J., Study of theMicro-Explosion Temperature of Water in Oil Emulsion Droplets during the Leidenfrost Effect, Experimental Thermal Fluid Sci., vol. 43, pp. 63–70, 2012.

  25. Nam, H., An Experimental Investigation of Micro-Explosion in Emulsified Vegetable-Methanol Blend, PhD, University of Texas, 2012.

  26. Nazha, M.A.A. and Crookes, R.J., Effect of Water Content on Pollutant Formation in a Burning Spray of Water-in-Diesel Fuel Emulsion, Int. Symposium Combustion, vol. 20, no. 1, pp. 2001–2010, 1985.

  27. Palermo, T., Le Phenomene de Coalescence. Etude Bibliographique, Revue de l’Institut Francais du Petrole, vol. 46, pp. 325–360, 1991.

  28. Rashid, A.A., Tan, I.M., Abdul Karim, Z.A., and Khan, Y.M., Experimental Study on Influence of Surfactant Dosage on Micro Explosion Occurrence inWater in Diesel Emulsion, Appl. Mech. Mater., vol. 819, pp. 287–291, 2016.

  29. Shinjo, J., Xia, J., Ganippa, L.C., and Megaritis, A., Physics of Puffing and Micro-Explosion of Emulsion Fuel Droplets, Physics Fluids, vol. 26, no. 10, pp. 103–302, 2014.

  30. Solomon, S., Qin, D., Manning, M., Averyt, K., and Marquis, M., Climate Change 2007—The Physical Science Basis: Working Group I Contribution to the Fourth Assessment Report of the IPCC (Vol. 4), Cambridge University Press, 2007.

  31. Suzuki, Y., Harada, T., Watanabe, H., Shoji, M., Matsushita, Y., Aoki, H., and Miura, T., Visualization of Aggregation Process of Dispersed Water Droplets and the Effect of Aggregation on Secondary Atomization of Emulsified Fuel Droplets, Proc. Combustion Institute, vol. 33, no. 2, pp. 2063–2070, 2011.

  32. Tarlet, D., Contribution a la Combustion des Emulsions de l’eau dans le Fioul Lourd, PhD, Ecole Nationale Superieure des Mines de Paris, 2008.

  33. Tarlet, D., Josset, C., and Bellettre, J., Comparison between Unique and Coalesced Water Drops in Micro- Explosions Scanned by Differential Calorimetry, Int. J. Heat Mass Transf., vol. 95, pp. 689–692, 2016.

  34. Volkov, R.S. and Strizhak, P.A., Using Planar Laser Induced Fluorescence to Explore the Mechanism of the Explosive Disintegration of Water Emulsion Droplets Exposed to Intense Heating, Int. J. Thermal Sci., vol. 127, pp. 126–141, 2018.

  35. Watanabe, H., Harada, T., Matsushita, Y., Aoki, H., and Miura, T., The Characteristics of Puffing of the Carbonated Emulsified Fuels, Int. J. Heat Mass Transf., vol. 52, pp. 3676–3684, 2009.

ЦИТИРОВАНО В
  1. Shen Shiquan, Sun Kai, Che Zhizhao, Wang Tianyou, Jia Ming, Puffing and micro-explosion of heated droplets for homogeneous ethanol-propanol-hexadecane fuel and micro-emulsified ethanol-biodiesel-hexadecane fuel, Applied Thermal Engineering, 165, 2020. Crossref

  2. Fostiropoulos Stavros, Strotos George, Nikolopoulos Nikolaos, Gavaises Manolis, Numerical investigation of heavy fuel oil droplet breakup enhancement with water emulsions, Fuel, 278, 2020. Crossref

  3. Moussa Omar, Tarlet Dominique, Massoli Patrizio, Bellettre Jérôme, Investigation on the conditions leading to the micro-explosion of emulsified fuel droplet using two colors LIF method, Experimental Thermal and Fluid Science, 116, 2020. Crossref

  4. Antonov D.V., Fedorenko R.M., Strizhak P.A., Micro-explosion and puffing of a group of two-component droplets, Applied Thermal Engineering, 181, 2020. Crossref

  5. Strizhak Pavel, Volkov Roman, Moussa Omar, Tarlet Dominique, Bellettre Jérôme, Child droplets from micro-explosion of emulsion and immiscible two-component droplets, International Journal of Heat and Mass Transfer, 169, 2021. Crossref

  6. Strizhak Pavel, Volkov Roman, Moussa Omar, Tarlet Dominique, Bellettre Jérôme, Convection velocities in gas and liquid phases during fragmentation of droplets, Experimental Thermal and Fluid Science, 129, 2021. Crossref

  7. Strizhak Pavel, Volkov Roman, Moussa Omar, Tarlet Dominique, Bellettre Jérôme, Measuring temperature of emulsion and immiscible two-component drops until micro-explosion using two-color LIF, International Journal of Heat and Mass Transfer, 163, 2020. Crossref

  8. Jüngst N., Smallwood G. J., Kaiser S. A., Visualization and image analysis of droplet puffing and micro-explosion in spray-flame synthesis of iron oxide nanoparticles, Experiments in Fluids, 63, 3, 2022. Crossref

  9. Kumar Amrit, Mandal Deepak Kumar, Impact of emulsion drops on a plane solid: Effect of composition and wall temperature, Heat and Mass Transfer, 58, 3, 2022. Crossref

  10. Gao Jingjing, Xu Xiaobin, Li Tao, Zhang Hongyu, Xu Jun, Cao Fahai, Breakup Characteristics of Water-in-Oil Emulsion Droplets Influenced by a Rigid Interfacial Film in the Presence of a Polymer Surfactant, Energy & Fuels, 36, 8, 2022. Crossref

  11. Wang Zhaowen, Yuan Bo, Cao Junhui, Huang Yuhan, Cheng Xiaobei, Wang Yuzhou, Zhang Xinhua, Liu Hao, A new shift mechanism for micro-explosion of water-diesel emulsion droplets at different ambient temperatures, Applied Energy, 323, 2022. Crossref

  12. Antonov Dmitrii V., Fedorenko Roman M., Strizhak Pavel A., Micro-Explosion Phenomenon: Conditions and Benefits, Energies, 15, 20, 2022. Crossref

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