Home

Thermophysics and Aeromechanics

Publisher:
SP MAIK Nauka/Interperiodica
Springer Journals
ISSN:
0869-8643
Scimago Journal Rank:
23
journal article
LitStream Collection
Role of ambient gas in heating of metal samples by femtosecond pulses of laser radiation

Zhukov, V. P.;Bulgakova, N. M.

2009 Thermophysics and Aeromechanics

doi: 10.1134/S0869864309020012

Abstract In this work we consider an experimentally observed effect of significant increasing of the residual heat in metal targets at their irradiation with femtosecond laser pulses in an ambient gas in respect to the vacuum conditions. Numerical modelling of heating of a platinum target by femtosecond laser pulses in argon under normal conditions has been performed taking into account gas breakdown in the focussing region of the laser beam in front of the target. The applied model is based on a combination of a thermal model describing heating and phase transitions in irradiated samples and a hydrodynamic model to describe motion of the ambient gas perturbed by laser irradiation as a result of multiphoton ionization. The hot ambient gas is shown to heat efficiently the irradiated sample. The hydrodynamic processes in the ambient gas play an important role in heating.
journal article
LitStream Collection
Modelling of condensation at spherical expansion of water vapor into vacuum

Bykov, N. Yu.

2009 Thermophysics and Aeromechanics

doi: 10.1134/S0869864309020024

Abstract The mathematical model of water vapor condensation was developed for the direct simulation Monte Carlo method. This model describes a chain of reactions providing formation and decay of water clusters with consideration of accompanying energy transfer processes. One-dimensional expansion of water vapor into vacuum from an evaporating spherical surface was studied numerically within the range of parameters, corresponding to the flows transitional by the Knudsen number. The influence of condensation on the gas-dynamic pattern of the flow, including the parameters of the Knudsen layer, is discussed.
journal article
LitStream Collection
Gas-dynamic mechanism of the effect of pulsed-periodic energy supply on shock-wave structure of transonic flow around airfoils

Aulchenko, S. M.;Zamuraev, V. P.;Kalinina, A. P.

2009 Thermophysics and Aeromechanics

doi: 10.1134/S0869864309020036

Abstract Gas-dynamic mechanisms of the shock-wave structure restructuring is investigated in a transonic flow around an airfoil at a pulsed-periodic energy supply. It is shown that it does not reduce only to the effects of the low-density wake forming behind the energy source on the shock wave but represents a combination of several factors, of which the “explosion” character of the disturbance development is determining.
journal article
LitStream Collection
Determination of heat losses and their influence on the performance characteristics of high-enthalpy hot-shot tubes

Ganimedov, V. L.;Shumsky, V. V.;Yaroslavtsev, M. I.

2009 Thermophysics and Aeromechanics

doi: 10.1134/S0869864309020048

Abstract An analysis of the losses of heat into the walls of settling chamber in a hypersonic hot-shot tube has been performed. Tests without diaphragm rupture showed that the fall of settling-chamber pressure during the operating flow regime in the tube was the consequence of the transfer of heat from working body to wall; this has allowed us to evaluate the heat-transfer coefficient α and the inner-surface temperature of the wall T w. An empirical formula relating the coefficient α with the pressure and working-body temperature in the settling chamber in the range of pressures and temperatures 160 to 540 bar and 700 to 3400 K was obtained. Using the gained dependences of α and T w on pressure and temperature, we have developed a physical model for calculating the working-body characteristics in the tube with allowance for enthalpy losses. We found that by the hundredth millisecond of the operating regime the disregard, in such calculations, of the wall heat flux in the first settling chamber resulted in overestimation of the stagnation temperature in the test section in comparison with similar calculations made without allowance for the heat losses by 6–18 % in terms of the full-scale temperature for aircraft flight in Mach number range 5 to 8. The developed calculation procedure has been tested in experiments without diaphragm rupture.
journal article
LitStream Collection
Spectral characteristics of unstable flow in the mixing layer of supersonic underexpanded jet over its initial region

Zapryagaev, V. I.;Solotchin, A. V.

2009 Thermophysics and Aeromechanics

doi: 10.1134/S086986430902005X

Abstract An experimental study of spectral characteristics of unstable flow in the mixing layer of supersonic axisymmetric underexpanded jets with Mach number Ma = 1 is reported. The destabilization of the flow is related to the formation, in the mixing layer of the jets, of disturbances in the form of streamwise vortical structures of the Taylor — Goertler type. As a result, in the mixing layer there forms an azimuthally non-uniform stationary distribution of total pressure. The Fourier transform of azimuthal sweeps of non-uniformity in pressure distributions was used to calculate the amplitude-wave spectra. An analysis of the spectral characteristics has allowed us to evaluate the longitudinal increment of amplitude growth of the disturbances and their dependence on the wavenumber and on the nozzle pressure ratio. The range of wavenumbers in which the streamwise vortical structures grow in amplitude is identified.
journal article
LitStream Collection
Study of turbulent swirling flow in a rotating separation element of variable cross section

Zyatikov, P. N.;Roslyak, A. T.;Kuznetsov, G. V.

2009 Thermophysics and Aeromechanics

doi: 10.1134/S0869864309020073

Abstract In the present study, the distribution of circumferential velocity components of carrier flow in separation elements of air-centrifugal classifiers of powder materials has been experimentally examined. The study was carried out for variously contoured separation channels, and also for various conditions of a carrying agent (air) input in a separation zone. Optimal conditions for particle separation throughout the whole volume of the separation element can be organized by making the channel contour diverging towards the center of rotation. The experimental data gained in this study supplement the mathematical model for the aerodynamics of turbulent carrier flow in the shaped rotating separation elements of air-centrifugal classifiers and make an analysis of the separation-zone flow possible.
journal article
LitStream Collection
Adiabatic evaporation of binary liquid mixtures on the porous ball surface

Terekhov, V. I.;Shishkin, N. E.

2009 Thermophysics and Aeromechanics

doi: 10.1134/S0869864309020085

Abstract Measured data for the temperature of a porous spherical surface to which an evaporating binary liquid mixture was supplied are reported. In the experiments, solutions of ethyl and methyl alcohols in water, and also solutions of acetone in water, were used. The concentration of mixture components was varied throughout the widest possible range of X L = 0–1, and the temperature of dry air flow past the sphere was in the range t 0 = 15–300 °C. In the present study, a strong influence of the composition of the mixtures on their adiabatic evaporation temperature was established. In the heat- and mass-transfer process, the air temperature is also of paramount importance. An experimental correlation is obtained which generalizes data on adiabatic evaporation temperature in a broad range of component concentrations and temperatures for the experimentally examined binary liquid mixtures.
journal article
LitStream Collection
Modelling of change of the classifier separation characteristics by water injection into the apparatus

Dueck, J. G.;Pikushchak, E. V.;Minkov, L. L.

2009 Thermophysics and Aeromechanics

doi: 10.1134/S0869864309020097

Abstract The investigation of the influence of additional water injection in a classifier on the particle separation process characteristics has been performed on the basis of numerical modelling. It has been shown that the increase in water injection velocity leads to the increase of both the cut size and the minimal value of separation curve. The change of the injector opening size influences only the minimum value of the separation function not altering the cut size at the specified water injection velocity.
journal article
LitStream Collection
Detonation waves in bubble-drop media

Sychev, A. I.

2009 Thermophysics and Aeromechanics

doi: 10.1134/S0869864309020103

Abstract Wave processes in chemically active multicomponent media: liquid — gas bubbles — liquid drops have been studied experimentally. Existence of detonation waves in multicomponent (bubble-drop) media has been proved. Structure of detonation waves in bubble-drop and bubble media is qualitatively identical: detonation waves are solitary waves with pulsation profile the pressure behind which is close in value to the one in unperturbed medium. Propagation velocity of detonation waves in bubble and bubble-drop media drops with the increase in medium gas phase concentration and with the decrease in carrier liquid viscosity. Presence of liquid drops decreases detonation wave velocity compared with bubble medium that does not contain liquid drops. Detonation wave propagation in multicomponent media causes gas bubbles fragmentation as well as fragmentation of individual liquid drops.
Articles per page
Browse All Journals

Related Journals: