SU1244595A1 - Method of determining velocity fields of non-stationary liquid flows - Google Patents

Abstract

The invention relates to a measurement technique and can be used to determine the structure of currents with complex geometries. The aim of the invention is to improve the accuracy of field definitions. The photochromic absorption of substances selected by the absorption spectra is dissolved in the solvent. In these spectra, for each of the substances, there are working bands in which the optical density of one substance is twice the optical density of the sum of other substances. The boundaries of the working bands are at least 10 nm apart from each other. The photochromic liquid is set in motion and, in a single Cross-section of the flow, three color marks at different angles are simultaneously formed by laser beams at different angles, the movement of which is fixed by the camera to a color film. The frequencies of the laser radiation are set equal to the frequencies of the absorption bands. 2 Il. i (L s

Description

The invention relates to a measurement technique and can be used to determine the structure of flows with a complex geometry.

The aim of the invention is to improve the accuracy.

Figure 1 shows the absorption spectra of photochromic substances according to the proposed method; 2 shows the absorption spectra of spiropiron and digononate of mercury in alcohol.

The method is carried out in the following manner.

Several photochromic substances selected by the absorption spectra are dissolved in the solvent, in an amount of, for example, substances whose absorption spectra are shown in Fig. 1. In these spectra there are working bands for each of the substances: Ab ,, CO and EF. In these bands, the optical density of one substance is twice the optical density of the sum of other substances. The boundaries of these bands are spaced apart by a distance of more than 10 nm. The photochromone liquid is set in motion, c. three color marks are applied simultaneously to the same cross section of the stream at times NITL1 angles to each other (or at different times, different marks are created in one place or simultaneously in different places by laser rays having wavelengths of L, D and / tj respectively is depicted in Fig. 1. The movement of the color marks is captured with the help of photo-registration.

Example. 10 g / l of spiropyran and dithiz nata mercury were dissolved in alcohol. The absorption spectra of these substances are shown in FIG. The selected bands are spaced apart by more than 10 nm. The photochromic liquid is set in motion in a closed hydro circuit, the flow is turbulent. In two sections, two colors are simultaneously created in the flow. marks from two laser beams, one with wavelength

Yae 347 nm, and the other with

,

 280 nm. Labels are blue and magenta respectively. Moving tags is captured on a color film with a movie camera.

The distance of marks of the same color at a known shooting speed is measured by measuring the velocity field at. fluid flow.

The presence of tags of different colors makes it possible to identify tags in the presence of complex three-dimensional flows, which leads to an increase in the accuracy and reliability of information about the flow structure.

Claims (1)

Invention Formula 25 The method of determining the velocity fields of unsteady fluid flows by dissolving a photochromic substance in it, forming color marks with the help of induced laser radiation, and a subsequent photo 0 of recording motion of color marks, characterized in that additional photochromic substances dissolve in the fluid The absorption spectra of which contain absorption bands with an intensity more than twice the continuum of the absorption spectra of various photochromic substances, with pac There is not less than 10 NM near the nearest 40 absorption bands of various photochromic substances, and the frequencies of the induced laser radiation are equal to the frequencies of the bands that absorb 45 a photo registration of color marks is carried out on a color film. / g one. 7T T I X  250 j (4QQ500 F1 {g.1 600 300 / if Editor Yu, Sereda Compiled by Y.Vlasov Tehred L.Oleynik Proofreader S.Shekmar Order 3910/48 Circulation 778. Subscription VNIIPI USSR State Committee lio cases of inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., d.4 / 5 Production and printing company, Uzhgorod, Projecto st., 4 FIG. 2