Y. N. Dubnishchev1, N. A. Dvornikov2, V. G. Nechaev3, O. N. Novoselova1 1 Novosibirsk State Technical University Kutateladze Institute of Thermophysics, Siberian Branch, Russian Academy of Sciences 2 Kutateladze Institute of Thermophysics, Siberian Branch, Russian Academy of Sciences 3 Novosibirsk State Technical University dubnistchev@itp.nsc.ru
Keywords: optical diagnostics of flows, Hilbert optics, colored Hilbert visualization, vortex rings
Pages: 13-21
The evolution of vortex structures induced by a pressure jump on the output hole of the chamber is experimentally studied by methods of the Hilbert diagnostics. Various types of optical filters that ensure the Hilbert and Foucault-Hilbert transforms are considered. Colored visualization of the fields of the phase optical density of the vortex structure in an air medium is performed by using a linear source of white light and a quadrature Hilbert filter.
V. M. Dulin, D. M. Markovich, M. P. Tokarev, L. M. Chikishev
Kutateladze Institute of Thermophysics, Siberian Branch, Russian Academy of Sciences Novosibirsk State University dmark@itp.nsc.ru
Keywords: anemometry based on particle images, PIV, swirled turbulent flame, large-scale vortex structures
Pages: 22-32
A number of modern optical methods used for diagnostics of reactive flows are described. Various aspects of using advanced modifications of particle image velocimetry (Stereo-PIV, Highrepetition PIV, and Tomo-PIV) for measuring instantaneous velocity fields in reactive flows are discussed in detail. Capabilities of PIV and spectroscopy of flame radiation (CH_ radical) in obtaining data on the spatial flow structure and the flame are demonstrated by an example of studying a swirled turbulent propane-air flame and an isothermal jet.
V. A. Grechikhin
National Research University (Moscow Power Engineering Institute) GrechikhinVA@mpei.ru
Keywords: laser Doppler vibrometer, quasi-optimal estimation of the vibration amplitude, estimation error
Pages: 33-38
A method of quasi-optimal processing of laser Doppler vibrometer (LDV) signals in the case of monoharmonic vibrations is considered. Under certain assumptions, the problem of quasi-optimal estimation of the information parameter of the LDV signal, related through a known constant multiplier to the relative amplitude of vibrations, is solved. A structure of the device for optimal estimation is proposed. Conditions of optimality of the method are given. Statistical characteristics of estimates of the relative vibration amplitude are investigated by a numerical modeling method. The error of these estimates is compared with the Rao-Kramer bounds.
N. V. Tcherniega1, A. D. Kudryavtseva1, M. I. Samoylovich2, A. S. Shevchuk1, S. M. Kleshcheva2 1 Lebedev Physical Institute, Russian Academy of Sciences 2 Central Scientific Technology Institute "Technomash" akudr@sci.lebedev.ru
Keywords: laser, stimulated scattering, hypersound, nanostructures, biharmonic pumping
Pages: 39-45
A new type of stimulated scattering of light (stimulated low-frequency Raman scattering (SLFRS)) is found. SLFRS appears as a result of interaction of laser pulses with acoustic vibrations of structural elements of nanostructured materials. SLFRS is shown to arise in materials with different compositions and different degrees of morphology, both ordered and random. Frequency shifts of SLFRS components are measured. A number of practical applications of the effect are proposed, in particular, biharmonic pumping with the help of SLFRS.
This study is motivated by the advent of methods for measuring particle sizes in twophase flows based on the local interaction of light with the scattering particle. Localization is easily interpreted in terms of the ray optics of a particle, which, however, does not cover all interaction effects. This paper consider effects that extend beyond the traditional concept of the total effect of the mechanisms of geometrical optics and wave diffraction by a particle as an opaque disk, in particular, surface waves and complex rays.. The results of the mathematical modeling performed in this study clarifies the contributions of the effects to the scattering and the position of the localization points of the interaction with the particle.
A method for modeling refraction patterns of structured laser radiation propagating in optically inhomogeneous media was developed. Wave models of structured beams that simultaneously account for refraction and diffraction effects were used. Results of modeling refraction in gradient inhomogeneities using the Kirchhoff method and the spectral method are presented.
V. A. Arbuzov1, E. V. Arbuzov2, N. S. Bufetov3, E. O. Shlapakova4 1 Kutateladze Institute of Thermophysics, Siberian Branch of Russian Academy of Sciences Novosibirsk State Technical University 2 Novosibirsk State Technical University Sobolev Institute of Mathematics, Siberian Branch of Russian Academy of Sciences 3 Kutateladze Institute of Thermophysics, Siberian Branch of Russian Academy of Sciences Novosibirsk National Research State University 4 Novosibirsk State Technical University arbuzov@itp.nsc.ru
Keywords: optical diagnostics of flows, Hilbert optics, Rayleigh-Benard convection, thermography of RBC structures
Pages: 61-67
An combined optical and thermal imaging experimental system was designed to investigate Rayleigh-Benard convection of a fluid in a layer with two rigid isothermal boundaries and a free upper boundary under steady and unsteady thermal boundary conditions. The fluid surface structure was visualized using methods of reflected-light Hilbert optics. Noncontact control of the fluid layer thickness was performed using a specially designed remote meter based on an MBR-1 microscope with a smooth focusing unit based on the Meyer mechanism. The evolution of the dynamic structure of the surface and temperature field of the fluid being analyzed were studied experimentally, and the existence of flows in the form of two-dimensional rolls with axes of rotation parallel to the lateral boundaries (the walls of the cavity) was confirmed. It is shown that the highly viscous fluid flow has a thermal gravitational nature. Correspondence is found between the evolution of the thermograms and Hilbert schlieren patterns of surface structures in different modes of Rayleigh-Benard convection.
A new turbidimetric method for determining the parameters of submicron aerosols was developed and implemented in hardware using a wide range of probe radiation wavelengths and highspeed video recording. The particle size distribution function is found using an original algorithm for solving the inverse problem of the optics of aerosols based on a direct search computational procedure.
A. G. Golubev, A. A. Sviridenkov, V. I. Yagodkin
Baranov Central Institute of Aviation Motors yagodkin@ciam.ru
Keywords: fluorescence, Mie scattering, liquid droplet size, fuel concentration
Pages: 75-81
A prototype of a combined measurement system (MS) based on the fluorescent and smallangle methods of determining the parameters of a fuel-air spray using a pulsed laser as a light source and a color digital video camera to record spray sections was designed and tested. The tests of the MS showed that it has good performance and is suitable for determining the characteristics of advanced atomizers in a pressure chamber. Spatial concentration distributions of aerosols generated by a centrifugal atomizer were studied. Distributions of time-averaged Sauter diameters of droplets, their concentration, and the circumferential inhomogeneity of droplet concentration in the spray cross section were obtained. A study of fuel atomization from a plate was performed showing the possibility of using this device in power plants to improve the atomization performance compared to the atomization of a free jet in crossflow.
N. A. Fomin, O. V. Meleeva
Lykov Institute of Heat and Mass Transfer, National Academy of Sciences of Belarus ollired@yandex.ru
Keywords: speckle photography, subpixel resolution, boundary layer, shock waves
Pages: 82-89
New algorithms for processing noisy specklegrams are described which allow quantitative diagnostics of the microstructure of shock-wave flows with subpixel accuracy with the use of statistical analysis of the speckle fields recorded numerically and perturbed by refraction in the studied flows. The developed software makes it possible to recover up to 10,000 vectors of deflection angles of the probing radiation in a two-dimensional region 20 × 30 mm in size in a speckle field image with a magnification M = 1.