Investigation of the Flow Structure on a Small-Scale Gas-Dynamic Setup: Identification of the Secondary Flow in the Case of Exhaustion of a Clustered Supersonic Jet into a Rarefied Space

This paper considers the issues of numerical modeling of nonstationary spatial gas dynamics in the pre-nozzle volume of the combustion chamber of a power plant with a cylindrical slot channel at the power plant of the mass supply surface. The numerical simulation for spatial objects is based on the solution conjugate problem of heat exchange by the control volume method in the open integrated platform for numerical simulation of continuum mechanics problems (openFoam). The calculation results for gas-dynamic and thermal processes in the power plant with a four-nozzle cover are presented. The analysis of gas-dynamic parameters and thermal flows near the nozzle cover, depending on the canal geometry, is given. The topological features of the flow structure and thermophysical parameters near the nozzle cap were studied. For the first time, the transformation of topological features of the flow structure in the pre-nozzle volume at changes in the mass channel’s geometry is revealed, described, and analyzed. The dependence of the Nusselt number in the central point of stagnation on the time of the power plants operation is revealed.

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Effect of electric-discharge plasma on gas-dynamic flow modes of a supersonic jet impinging on a barrier

Doklady Physics ◽

10.1134/s1028335815040102 ◽

2015 ◽

Vol 60 (4) ◽

pp. 160-163

Author(s):

V. M. Fomin ◽

K. A. Lomanovich ◽

B. V. Postnikov

Keyword(s):

Electric Discharge ◽

Discharge Plasma ◽

Supersonic Jet ◽

Dynamic Flow ◽

Gas Dynamic

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Secondary flow structure and thermal behaviour of immiscible two-phase fluid flow in curved channels

International Journal of Thermal Sciences ◽

10.1016/j.ijthermalsci.2014.03.011 ◽

2014 ◽

Vol 82 ◽

pp. 9-22 ◽

Cited By ~ 4

Author(s):

Nima Nadim ◽

Tilak T. Chandratilleke

Keyword(s):

Fluid Flow ◽

Secondary Flow ◽

Flow Structure ◽

Thermal Behaviour ◽

Two Phase ◽

Curved Channels ◽

Secondary Flow Structure ◽

Phase Fluid

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Flow structure at the initial section of a supersonic jet exhausting from a nozzle with chevrons

Journal of Applied Mechanics and Technical Physics ◽

10.1007/s10808-010-0029-7 ◽

2010 ◽

Vol 51 (2) ◽

pp. 202-210 ◽

Cited By ~ 8

Author(s):

V. I. Zapryagaev ◽

I. N. Kavun ◽

N. P. Kiselev

Keyword(s):

Flow Structure ◽

Supersonic Jet ◽

Initial Section

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Акустические характеристики автоколебательного процесса, возникающего при взаимодействии сверхзвуковой недорасширенной струи с цилиндрической полостью

Журнал технической физики ◽

10.21883/jtf.2020.05.49172.345-19 ◽

2020 ◽

Vol 90 (5) ◽

pp. 733

Author(s):

К.Н. Волков ◽

В.Н. Емельянов ◽

А.В. Ефремов ◽

А.И. Цветков

Keyword(s):

Atmospheric Pressure ◽

Acoustic Waves ◽

Supersonic Jet ◽

Cavity Resonator ◽

Dynamic Structure ◽

Gas Jet ◽

Working Pressure ◽

Gas Dynamic ◽

Physical Pattern ◽

Cylindrical Cavities

In high-pressure gas-jet emitters, the source of sound energy is kinetic energy of gas jet at supercritical pressure ratios between the working pressure and the atmospheric pressure. Under certain conditions, interaction of a supersonic jet with the resonator is accompanied by powerful self-excited oscillating process with the generation of acoustic waves into the environment and cavity resonator. A model of a self-excited oscillating process arising from the interaction of non-isobaric jet with semi-closed cylindrical cavities, allowing to distinguish typical elements of gas-dynamic structure of the forming flow, is considered. The physical pattern of the flow in the cavity of gas-jet emitter is discussed, and a study of the dependence of the characteristics of the self-excited oscillating process on the gas-dynamic and geometric parameters is performed.

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Flow Stucture of Supersonic Underexpanded Jet With Microjets Injection

Siberian Journal of Physics ◽

10.54362/1818-7919-2013-8-1-44-55 ◽

2013 ◽

Vol 8 (1) ◽

pp. 44-55

Author(s):

Dmitriy Gubanov ◽

Valeriy Zapryagaev ◽

Nikolay Kiselev

Keyword(s):

Flow Structure ◽

Numerical Study ◽

Mixing Layer ◽

Supersonic Jet ◽

Wave Structure ◽

Streamwise Vortices ◽

Jet Mixing ◽

Underexpanded Jet ◽

Supersonic Underexpanded Jet ◽

The Impact

Experimental and numerical study of transversal microjets injection influence on the supersonic underexpanded jet flow structure has been performed. Data of measurements and calculation have acceptable agreement. Interaction of microjets with main supersonic jet sets to a decrease of an initial gasdynamic region. Microjets lead to a longitudinal streamwise vortices generation and a mushroom-like flow structures create on an external jet mixing layer. Dissipation of longitudinal streamwise vortices was observed at the second jet cell. Complex gasdynamic flow structure of the supersonic underexpanded jet interacting with supersonic microjets has been studied for the first time. This structure contains system of complex chock waves and expansion waves spreading from the position of the impact microjets/main jet localization place. Future of interaction process a chock-wave structure of main jet with additional shock waves has been studied

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PIV study of small-scale flow structure around a Rushton turbine

AIChE Journal ◽

10.1002/aic.690470403 ◽

2001 ◽

Vol 47 (4) ◽

pp. 766-778 ◽

Cited By ~ 134

Author(s):

K. V. Sharp ◽

R. J. Adrian

Keyword(s):

Flow Structure ◽

Small Scale ◽

Rushton Turbine

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Numerical Investigation of Heat Transfer Enhancement on a Small Scale Vortex Generator

ASME 2009 Second International Conference on Micro/Nanoscale Heat and Mass Transfer, Volume 3 ◽

10.1115/mnhmt2009-18231 ◽

2009 ◽

Author(s):

Jiansheng Wang ◽

Zhiqin Yang

Keyword(s):

Heat Transfer ◽

Heat Transfer Enhancement ◽

Flow Structure ◽

Rectangular Channel ◽

Vortex Generator ◽

Local Heat Transfer ◽

Local Heat ◽

Vortex Generators ◽

Small Scale ◽

Transfer Enhancement

The heat transfer characteristic and flow structure of fluid in the rectangular channel with different height vortex generators in small scale are investigated with numerical simulation. Meantime, the properties of heat transfer and flow of fluid in the rectangular channel are compared with the channel which located small scale vortex generator. The variation law of local heat transfer and flow structure in channel is obtained. The mechanism of heat transfer enhancement of small scale vortex generators is discussed in detail. It is found that the influence of vortex generator on heat transfer is not in proportion to the size of vortex generator. What is more, turbulent flow structure near the wall, which influences the temperature distribution near the wall, induces the variety of local heat transfer. The fluid movement towards to the wall causes the heat transfer enhanced. On the contrary, the fluid movement away from the wall decreases the local heat transfer.

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