RU36890U1 - GAS ANALYZER - Google Patents

Description

GAS ANALYZER

The utility model relates to gas analytical instrumentation and can be used to analyze gas mixtures in the chemical, petrochemical, gas and other industries.

A known gas analyzer, selected as a prototype, containing a radiation source and receiver, a gas chamber with a luminescent sensitive element, a measuring circuit and a control device (A.S. No. 1376741, GO IN 21/64, Bull. No. 7.1988). However, the known device cannot be used to determine oxygen in gas mixtures.

The technical result, which consists in expanding the functionality of the device, reducing the detection limit and increasing the selectivity of determination, is achieved by the fact that in a gas analyzer containing a gas chamber, a radiation source and receiver, a measuring circuit, a control device and a sensing element, the radiation source and receiver are installed outside the gas cameras with the ability to input radiation at an angle of 25 - 30 ° and output at an angle of 65 - 75 ° to the surface of the tablet sensitive element, and as a source from Scientists use a flash lamp in strobe mode.

The drawing shows a diagram of the device.

The gas analyzer contains a radiation source 1 — a flash lamp in the strobe mode, a gas chamber 2 with water channels 3 and a gas outlet 4, a radiation receiver 5, a measuring circuit 6, a sensing element 7, optical fibers 8 and 9, and a control device including a software device 10, an engine And, the cleaning unit 12 and the gas supply circuit (not shown in the drawing).

The gas analyzer operates as follows.

The software device 10 with the help of the motor 11 drives the sensing element 7 for the time required to prepare for the measurement. In this case, the surface of the sensitive element is restored using the cleaning unit 12. The exciting light from the flash lamp 1 passes through the optical fiber 8 to the sensitive element 7. The luminescence light through the optical fiber 9 enters the receiver 5, the signal from which corresponds to the luminescence intensity of the sensitive element 7 before interaction with the analyzed air is stored in the measuring circuit 6. After that, by the program command

G 01 N21 / 64

device 10 using the gas supply circuit, the analyzed air enters through the input channel 3 into the gas chamber 2 and after measurement is output through the output channel 4. If there is a determined oxygen component in the analyzed air and as a result of its interaction with the sensitive element, the luminescence intensity increases and the corresponding signal is also stored in measuring circuit 6, in which the ratio of the two signals is then determined, proportional to the concentration of the determined component.

Claims (1)

A gas analyzer comprising a gas chamber, a radiation source and receiver, a measuring circuit, a control device and a sensing element, characterized in that the radiation source and receiver are installed outside the gas chamber with the possibility of introducing radiation at an angle of 25-30 ° and output at an angle of 65-75 ° to the surface of the tablet sensitive element, and as a radiation source using a flash lamp in the strobe mode.