Three-Dimensional Vortex Method for Gas-Particle Two-Phase Compound Round Jet
Author:
Uchiyama Tomomi1, Fukase Akihito2
Affiliation:
1. EcoTopia Research Institute, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8603, Japan Phone/Fax +81-52-789-5187 2. Ebara Corporation, Haneda Asahi-cho, Ohta-ku, Tokyo 144-8510, Japan
Abstract
This paper proposes a three-dimensional vortex method for a gas-particle two-phase compound round jet. The method can take account of the interaction between the two phases by calculating the motion of particles and the behavior of gas vortex elements through the Lagrangian approach. In order to discuss the validity of the method, an air jet, loaded with small glass particles, issuing from a round nozzle into the co-flowing air stream is simulated. The simulation demonstrates that the air turbulence modulations due to the particles, such as the relaxation of velocity decay, the decrement of momentum diffusion in the radial direction at the fully developed region, and the reduction of turbulent intensity and Reynolds shear stress, are successfully captured by the method.
Publisher
ASME International
Subject
Mechanical Engineering
Reference35 articles.
1. Shuen, J-S., Solomon, A. S. P., Zhang, Q-F., and Faeth, G. M., 1983, “A theoretical and experimental study of turbulent particle-laden jets,” NASA, CR-168293. 2. Modarress, D., Tan, H., and Elghobashi, S., 1984, “Two-component LDA measurement in a two-phase turbulent jet,” AIAA J., 22(5), pp. 624–630. 3. Fleckhaus, D., Hishida, K., and Maeda, M., 1987, “Effect of laden solid particles on the turbulent flow structure of a round free jet,” Exp. Fluids, 5, pp. 323–333. 4. Elghobashi, S., Abou-Arab, T., Rizk, M., and Mostafa, A., 1984, “Prediction of the particle-laden jet with a two-equation turbulence model,” Int. J. Multiphase Flow, 10(6), pp. 697–710. 5. Shuen, J-S., Solomon, A. S. P., Zhang, Q-F., and Faeth, G. M., 1985, “Structure of particle-laden jets: measurements and predictions,” AIAA J., 23(3), pp. 396–404.
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