INTERNAL FLOW MODELING OF VORTEX THROTTLES

被引:7
|
作者
YANG, ZY
PRIESTMAN, GH
BOYSAN, HF
机构
[1] QUEEN MARY & WESTFIELD COLL,DEPT AERONAUT ENGN,LONDON,ENGLAND
[2] UNIV SHEFFIELD,DEPT MECH & PROC ENGN,SHEFFIELD S10 2TN,S YORKSHIRE,ENGLAND
来源
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART C-JOURNAL OF MECHANICAL ENGINEERING SCIENCE | 1991年 / 205卷 / 06期
关键词
D O I
10.1243/PIME_PROC_1991_205_138_02
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
A finite difference computer code has been used to predict highly swirling confined incompressible turbulent flow in vortex throttles. As turbulence can become highly anistropic in such flow cases, both the widely used two-equation k-epsilon model and a Reynolds stress model have been used. The results have been compared with basic experimental data and the predicted flow structure within the throttles is related to the main design parameters. It has been found that the pressure drop across the vortex throttles occurs mainly through the axial port by dissipation of the high tangential velocity. Energy loss in the vortex chamber tends to reduce the vortex strength, lowering the tangential velocity and consequently reducing the pressure drop.
引用
收藏
页码:405 / 413
页数:9
相关论文
共 50 条
  • [41] NUMERICAL MODELING OF A VORTEX BREAKDOWN IN A LAMINAR-FLOW OF REVOLUTION
    BENAY, R
    RECHERCHE AEROSPATIALE, 1984, (04): : 251 - 263
  • [42] An Experience with Simulation Modeling for Vortex Flow in Micro Hydropower Systems
    Abel, A.
    Tamiri, F. M.
    Ismail, M. A.
    Bohari, Nuramalina
    2022 INTERNATIONAL CONFERENCE ON GREEN ENERGY, COMPUTING AND SUSTAINABLE TECHNOLOGY (GECOST), 2022, : 365 - 370
  • [43] Modeling the free shear flow by method of continuous vortex layer
    Izv Akad Nauk Mekh Zhidk Gaza, 1600, 1 (42-51):
  • [44] STATISTICAL FLOW-OSCILLATOR MODELING OF VORTEX-SHEDDING
    BENAROYA, H
    LEPORE, JA
    JOURNAL OF SOUND AND VIBRATION, 1983, 86 (02) : 159 - 179
  • [45] On numerical errors and turbulence modeling in tip vortex flow prediction
    Dacles-Mariani, J
    Kwak, D
    Zilliac, G
    INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN FLUIDS, 1999, 30 (01) : 65 - 82
  • [46] Physical and numerical modeling of swirling flow in a scroll vortex intake
    Chan, S. N.
    Guo, Jiuhao
    Lee, Joseph H. W.
    JOURNAL OF HYDRO-ENVIRONMENT RESEARCH, 2022, 40 : 64 - 76
  • [47] VORTEX MODELING OF GASEOUS JETS IN A COMPRESSIBLE CROSS-FLOW
    HEISTER, SD
    KARAGOZIAN, AR
    JOURNAL OF PROPULSION AND POWER, 1990, 6 (01) : 85 - 92
  • [48] Mathematical Modeling of the Dynamics of Inertial Polydisperse Particles in a Vortex Flow
    Gilfanov, A. K.
    Salakhov, R. R.
    Zaripov, T. S.
    UCHENYE ZAPISKI KAZANSKOGO UNIVERSITETA-SERIYA FIZIKO-MATEMATICHESKIE NAUKI, 2020, 162 (02): : 120 - 136
  • [49] USING VARIOUS FUNCTIONAL RELATIONSHIPS TO DESCRIBE FLOW CHARACTERISTICS OF TURBULANT-THROTTLES
    TEPLYUKH, ZN
    PISTUN, EP
    MEASUREMENT TECHNIQUES, 1977, 20 (02) : 231 - 234
  • [50] On methods for automated modeling of dynamic systems with friction and their application to electro-mechanical throttles
    Ren, Zhenxing
    Kroll, Andreas
    Sofsky, Manfried
    Laubenstein, Friedhelm
    49TH IEEE CONFERENCE ON DECISION AND CONTROL (CDC), 2010, : 7637 - 7642
12345