CS211518B1 - Cell for mercury determination by atomic absorption spectrophotometer - Google Patents

Abstract

The purpose of the invention is to increase the sensitivity of mercury determination by atomic absorption spectrophotometry. The above effect is achieved by modifying the shape of the absorption cuvette so that it copies the shape of the light beam of a mercury discharge lamp in the atomized space - the cuvette. The cuvette, made of a material that does not react with mercury vapor, is a hollow body, perforated in the middle and shaped like a double truncated cone or pyramid at both opposite ends, closed by quartz windows that are permeable to the radiation of the mercury discharge lamp. The essence of the invention see Fig.

Description

The invention relates to a mercury cell for the determination of mercury by an atomic absorption spectrophotometer.

One of the most sensitive methods for the determination of mercury is atomic absorption spectrophotometry. In this method, atomic mercury is expelled from the sample in the form of cold vapors, introduced into a measuring cuvette, and the light absorption of the mercury lamp is measured.

Cylindrical cells, mostly glass, equipped with quartz windows are commonly used for measurement. The diameter of the cuvette must be chosen so that the passing beam is not obscured by the edge of the cuvette. The measuring beam is focused in the center of the measuring cell compartment and diverges towards the edges, it has. thus approximately a double truncated cone shape with larger bases at the edges whose diameter is approximately four times the diameter of the beam at the focus point. The minimum usable diameter of the cylindrical cuvette is four times the diameter of the beam being focused. about one-third. Moreover, the large volume of the cylindrical cuvette makes it difficult to purge the cuvette with carrier gas and extends the duration of the assay cycle.

The above-mentioned drawbacks are eliminated by a mercury cell by atomic absorption spectrophotometry made of a material not reacting with mercury vapors and provided with quartz windows and inlet and outlet tubes according to the invention, which is formed as a round or square hollow body in the center. double truncated cone or pyramid, closed at both opposite ends.

The mercury cell of the atomic absorption spectrophotometer according to the invention has no unused space, the cloud of free mercury atoms is uniformly distributed therein and fills the entire cell space. Since the cell according to the invention has a smaller volume, the mercury vapor concentration reaches higher values and the sensitivity of the assay increases accordingly. The smaller cell volume allows the cell to be emptied faster for further determination.

The attached figure schematically shows a section in a plane passing through the optical axis of the mercury cell by atomic absorption spectrophotometry according to the invention.

The mercury cell by atomic absorption spectrophotometry according to the invention is made of an inert material not reacting with mercury vapors, for example glass. The cuvette 2 itself has a shape identical to that of the photometer measuring beam J, for example the shape of a double rotary truncated cone shell with larger edge diameters. At both ends, the cuvette J is closed by quartz windows 12 which prevent leakage of the sample but allow passage of the measuring beam 3 of the photometer. Furthermore, at both ends of the cuvette 2, near the quartz windows 2, there are inlet and outlet tubes 4 for sample inlet and outlet. The cuvette 1 is fixed in the optical axis% of the photometer.

In photometers where the photometer measuring beam 3 has the shape of a double truncated pyramid, the cuvette itself has the shape of a double truncated pyramid sheath with larger bases at the edges.

Claims (1)

SUBJECT OF THE INVENTION Mercury determination cell by atomic absorption spectrophotometry made of mercury vapor-resistant material and equipped with quartz windows and inlet and outlet tubes, characterized in that it is designed as a round or square hollow body in the center, double truncated cone or pyramid shape, at both opposite ends closed.