SU387282A1 - BIBL1-1OT? NL T. M. Aliev, T. B. Aliev, V. I. Konstantinov and L. V. Minervina - Google Patents

Description

one

The invention relates to gas xpOMato graphics, in particular to the detection of components of gas mixtures separated on a chromatographic column.

There is a known method of detection by photononization, in which the analyzed gas after the separation column is exposed to radiation from a high-frequency lamp, located a certain distance from the chamber of the collector electrodes. However, when implementing a known method, the ionizing radiation is absorbed by the components of the air layer separating the radiation source from the collector electrode chamber. In addition, the surface of the radiation source is used inefficiently, which prevents the detection of substances with a high ionization potential.

The purpose of the invention is to increase the sensitivity and enhance the analytical capabilities of the detector.

This is achieved in that gas from the chromatographic column is fed directly into the de-channel. tector lamp located in the center of the bit zone.

The drawing shows a diagram illustrating the proposed method.

The photoionization detector consists of a high-frequency electrodeless lamp /, in the center of which is a tube 2 with an internal 2

With a diameter of 3 mm and a wall thickness of 0.2 mm. or less, made of a material with a low absorption coefficient of ultraviolet radiation, such as quartz

brands KU-1 or fluorite. In the tube, at the outlet of the lamp, collector electrodes 3, measuring the ionization current, are coaxially mounted. The lamp is installed inside the metal housing 4 on the washers 5 of fluoropl, one hundred. Korus of the detector is grounded.

When the high-frequency generator is switched on, the id b excites a discharge in mercury vapor in the lamp. The radiation from the lamp is determined by a series of mercury-free lines or cadmium. The discharge is excited by the entire volume of the lamp, and the entire gas column flowing through the tube is exposed to intense ultraviolet radiation over the entire area of the tube generatrix. This increases the ionization coefficient and the sensitivity of the detector.

The analyzed gas from the radiation source separates the wall of the tube, which transmits more than 90% of the ultraviolet radiation. Such an arrangement of the flow of the analyzed gas relative to the discharge zone reduces the loss of the intensity of ionizing radiation and makes it possible to analyze substances with a higher ionization potential.

3

Subject invention

A method of photoionization detection of a gas mixture, which consists in ionizing the flow of molecules of the analyzed gas under the action of ultraviolet radiation of a high-frequency electrodeless discharge in metal vapor, excited in de 5-87: 282

A tector lamp, characterized in that, in order to increase the sensitivity, the flow of the analyzed gas mixture is passed through a tube made of a material with a low absorption coefficient of ultraviolet radiation, a quartz or fluorite analyzer, located at the center of the discharge zone of the detector lamp.

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