RU2003120424A - METHOD FOR DETERMINING GAS COMPOSITION AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (2)

1. A method for determining the composition of a gas, including transmitting a light beam from a light source through a gas cuvette with a gas to be analyzed, spectrometric selection of sections of the spectral range of light radiation in which molecular absorption of the detected gases is observed, photometric measurement of light intensities in selected sections of the spectral range with subsequent determination of concentrations defined gases, characterized in that the gas cell is performed in such a way that one of its sides, it is a plano-convex lens, on the opposite side of the gas cell, a light source is used as a semiconductor laser with a diverging beam of light, the convex surface of the plano-convex lens is placed in the direction of the light source, an optical wedge is attached to the flat surface of the plano-convex lens with a thin partially transmitting layer located on its surface and a reflecting mirror partially transmitting light radiation from the side of the thin partially transmitting layer, and from the side of the reflecting mirror to the optical wedge attach a periodic system with photocells, the selection of the spectral range of the light emission is carried out by recording on the photocells of the periodic system of the system of interference fringes of a standing light wave which are formed when the said wave acts on thin partially transmissive layer and registration system interference fringes in the form of a spatial frequency signal when changing the wavelength of a semiconductor laser. 2. A device for determining the composition of a gas containing an optically conjugated light source, a gas cell and a reflective mirror, characterized in that the gas cell is made in such a way that one of its sides is a plano-convex lens, on the opposite side of the gas cell there is a light radiation source in the quality of which is used a semiconductor laser with a diverging beam of light radiation, while the convex surface of the plano-convex lens is located in the direction of the source emitted radiation, an optical wedge is attached to the flat surface of a plano-convex lens with a thin partially transmitting layer located on its surface and said reflecting mirror partially transmitting light radiation from the side of a thin partially transmitting layer, and from the side of the reflecting mirror a periodic system is attached to the optical wedge containing photocells, while the device for determining the composition of the gas is additionally equipped with a spectrum analyzer connected to a periodic system, neighing photocells.