Abstract
Results on the experimental investigation of a novel open-type mixing device with a twophase bubble structure working fluid for gas-droplet jet formation are presented. We study the effect of mode parameters upon velocity fields and droplet atomization obtained at the mixing device outlet.
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Lund, M.T., Sojka, P.E., Lefebvre, A.H., and Gosselin, P.G., Effervescent Atomization at Low Mass Flow Rates. Part 1: The Influence of Surface Tension, Atomization Sprays, 1993, vol. 3, no. 1, pp. 77–89.
Sovani, S.D., Sojka, P.E., and Sivathanu, Y.R., Predictions of Drop Size Distributions from First Principles: Joint-PDF Effects, Atomization Sprays, 2000, vol. 10, no. 6, pp. 587–602.
Lin, J., Qian, L., and Xiong, H., Relationship Between Deposition Properties and Operating Parameters for Droplet onto Surface in the Atomization Impinging Spray, Powder Technology, 2009, vol. 191, no. 3, pp. 340–348.
Kim, H.G., Yano, T., Song, K.K., and Shuichi, T., Microscopic Spray Characteristics in the Effervescent Atomizer with Two Aerator Tubes, KSME Int. J., 2004, vol. 18, no. 9, pp. 1661–1667.
Lepeshinskii, I.A., Zuev, Yu.V., Reshetnikov, V.A, and Antonovskii, I.V., Mixers Based on a Variable Geometry Ejector, Izv. Vuz. Av. Tekhnika, 2014, vol. 57, no. 3, pp. 33–36 [Russian Aeronautics (Engl. Transl.), vol. 57, no. 3, pp. 260–265].
Sipatov, A.M., Karabasov, S.A., Gomzikov, L.Yu., Abramchuk, T.V., and Semakov, G.N., Structural Optimization of the Air-Blast Atomizer Based on Three-Dimensional Simulation Techniques, Izv. Vuz. Av. Tekhnika, 2014, vol. 57, no. 1, pp. 57–62 [Russian Aeronautics (Engl. Transl.), vol. 57, no. 1, pp. 75–83].
Gubaidullin, D.A. and Tukmakov, D.A., Numerical Study of Shock Wave Dynamics in a Gas Suspension, Izv. Vuz. Av. Tekhnika, 2013, vol. 56, no. 2, pp. 38–42 [Russian Aeronautics (Engl. Transl.), vol. 56, no. 2, pp. 154–159].
Lepeshinskii, I.A., RU Patent, no. 2243036, Byul. Izobr., 2004
Wallis, G., Single-Dimension Two-Phase Flows, Moscow: Mir, 1972.
Raffel, M., Willert, C.E., Wereley, S.T., and Kompenhans, J., Particle Image Velocimetry, Berlin: Springer, 1998.
Zimin, E.P., Krugerskii, A.M., and Pozharnov, V.A., Gazotermodinamika mnogofaznykh potokov v energoustanovkakh (Gas Thermodynamics of Multiphase Flows in Power Plants), Kharkiv: KhAI, 1979, issue 2, pp. 125–130.
Zuev, Yu.V., Istomin, E.A., and Chabanov, V.A., Laser Measurement Complex for Two-Phase Flow Atomization Diagnosis, Materialy 10 mezhdunarodnoi konferentsii po neravnovesnym protsessam v soplakh i struyakh NPNJ-2014 (Proc. 10th Int. Conf. on Unsteady Processes in the Nozzles and Jets NPNJ-2014), Moscow: MAI, 2014, pp. 93–95.
Lopatochnye mashiny i struinye apparaty (Vaned Machines and Atomizers), Moscow: Mashinostroenie, 1971, issue 5, pp. 262–306.
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Original Russian Text © I.A. Lepeshinskii, E.A. Istomin, I.A. Zarankevich, V.A. Reshetnikov, 2016, published in Izvestiya Vysshikh Uchebnykh Zavedenii, Aviatsionnaya Tekhnika, 2016, No. 3, pp. 71–75.
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Lepeshinskii, I.A., Istomin, E.A., Zarankevich, I.A. et al. Open-type mixing device of a bubble structure. Russ. Aeronaut. 59, 371–375 (2016). https://doi.org/10.3103/S1068799816030120
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DOI: https://doi.org/10.3103/S1068799816030120