SU807159A1 - Method of optic absorption analysis of mixtures of gases - Google Patents

Description

(54) METHOD oimpiecKoro ABSORPTION

OiBCBB GAS ANALYSIS

Claims (2)

The invention relates to a VGH device for carrying out an adsorption analysis of mixtures of gases, vapors or liquids, in particular to optical absorption analyzers of a compensation type. A gas detector of a computer type is known, containing an optical receiver, which receives radiation fluxes through two optical channels, the difference of which depends on the concentration of the measured component in the analyzed mixture. The output signal of the optical radiation receiver, which is a alternating voltage with a frequency of 5 ... 6 Hz, is converted into a constant voltage, then again into a variable with a frequency of 50 Hz, which is fed to the reversing motor that performs compensation 1. Most Closest to the technical essence of the present invention is a method of optical absorption analysis of gas mixtures in an implemented compensation gas analyzer, which includes passing modulated electromagnetic radiation fluxes through the analyzed and detected robes and determination of the concentration of the measured component by compensating for the absorption of radiation in the sample being analyzed by measuring the length of the compensating chamber using a reversing motor. The signal from the radiation receiver enters the bandwidth of the liter, then to the synchronous detector and the constant filter. The output voltage from the DC filter is fed to a power amplifier, where it is converted to an alternating voltage with a frequency of 50 Hz and an amplitude proportional to the measured concentration C. This voltage from the output of the power amplifier is fed to a reversible motor. With the help of a reversing motor, the length of the compensating chamber is automatically changed in such a way that the radiation fluxes that have passed through the working and compensating chambers respectively are kept equal. With equal radiation fluxes, the output signal of the radiation receiver is well / but the reversing motor passes into a quiescent state. A sensor is used to record the measured concentration, the output of which is unambiguously connected with the length of the compensating chamber and recorded by a recording device. Thus, the readings of the instrument are determined by the concentration of the measured component in the analyzed gas mixture 2. The main disadvantage of the known methods of optical absorption analysis implemented in compensatory gas analyzers is the use of double conversion of signals in the electrical circuit of the gas analyzer from alternating voltage to constant voltage and then again into a variable. The consequence of this double conversion is a high complexity and low reliability of the gas analyzer’s electrical circuit, and However, the accuracy of the gas analyzer is low, since the instability and drift zero of each of the electronic devices is included in the overall accuracy of the instrument. The purpose of the invention is to improve the accuracy and reliability of measurements and at the same time simplify the implementation of the method. equal to the operating frequency of the reversing motor power supply. The drawing shows a compensating type gas analyzer using which the method is implemented. The gas analyzer consists of a radiation source 1, an optical cell 2, a filter chamber in working channel 3, a filter chamber in a compensating channel 4, a working chamber 5, a compensating camera 6, a radiation receiver 7, and an amplifier 8 ac. current, reversible motor 9. In the proposed gas analyzer, the radiation fluxes Fp and Рц come from the modulator output to the working and compensating channels: modulated with a frequency of 5-0 Hz. Pass through the filtering working and compensating chambers; these radiation fluxes FP and F, 2 are fed to the input of the optical radiation detector. The bone size of the Fpj and Fx2 photos depends on the concentration of the measured component C in the analyzed mixture. The output signal U of the receiver 7 is amplified by the variable current amplifier 8, and this voltage Uy is supplied to the control winding of the reversing motor 9. The excitation winding of the reversing motor 9 is also supplied from the voltage modulator 2, which is in the same phase as the tm the values of the fluxes Fp and F. This voltage is necessary as a backup signal to take into account the phase in the compensation, i.e. to set the direction of rotation of the motor 9 during compensation. The moment when the radiation fluxes FP 2 and in the compensation process are equal, the output signal of the radiation receiver is zero and the reversible motor stops moving. A sensor (not shown in Fig. 1) is used to record the measured concentration, the output of which is unambiguously connected with the length of the compensating chamber and recorded by the recording device. Using the modulation of the FP and F fluxes (j at the motor operating frequency (50 Hz) and introducing the link from the modulator to the motor allows refusing the conversion of alternating voltage to constant and then again to alternating. Thanks to this, the gas analyzer A whole series of electronic components is eliminated, and the output signal of the radiation receiver, passing through a single-stage amplifier (1-2 transistors), goes directly to the reversing motor. Thus, the electrical circuit of the gas analyzer is much simpler, The known and, therefore, has a higher reliability and maintainability. The gas analyzer has a higher accuracy & and due to the fact that the DC amplifier is removed from the circuits & s, and the CONSTANT filter is south, with drift zero and some instability transmission coefficient at ambient temperature instability. Finally, the gas analyzer has significantly less manufacturing labor. Formula of the invention A method of optical absorption analysis of mixtures of gases, vapors and liquids, in the transmission of modulated electromagnetic radiation fluxes through the analyzed and reference samples and in determining the concentration of the measured component of compensating the radiation intensity in the analyzed sample by changing the length of the compensator using a reversing motor, so that In order to increase the reliability and accuracy of measurements, the radiation flux is modulated at a frequency equal to the operating frequency of the reversible motor. Sources of information taken into account in the examination 1. Gas analyzer GA2109. Technical description and operating instructions 2266-2292 THAT. Smolensk, 1972. 2. Gas analyzer ОА2309. Technical description and operating instructions 2266-2292 THAT. Smolensk, 1972. Si ex - f Fk Hi )