SU432351A1 - DEVICE FOR NUCLEAR ABSORPTION SPECTROSCOPY - Google Patents

Description

The invention relates to instruments for carrying out physicochemical studies of substances by atomic absorption spectroscopy. Atomic absorption spectrophotometric installations are known, which contain a radiation source, an illumination system, a working cell e. The absorbing volume of the analyte excited in a flame by a torch, and a spectral instrument. However, in devices of this type, the design of the working cell does not always allow to increase the concentration of free atoms in the absorbing volume, leads to uneven condensation of solutions in the walls of the cell, reducing the most sensitive and accurate measurements. The aim of the invention is the creation of such a construction of an absorbing cell for atomic absorption analysis, which eliminates the indicated disadvantages and expands the analytical field of application of the device. To accomplish these tasks, the working cell of the atomic absorption glass spectrophotometer is made up of two identical tubes placed in a common heat exchanger. The temperature of the gas mixture is increased by using the flame of several burners, evenly spaced around the circumference of the absorption tubes, and by additional heating of the walls of the tubes with the exhaust gas mixture in a common heat exchanger. Additional heating of the absorption tubes in the heat exchanger also leads to a decrease in the degree of condensation of the solutions on the walls of the cell and allows a more uniform distribution of the temperature of the gas mixture along the length and section of the absorbing volume. Diagram of the device shown in the drawing. The light from the radiation source 1 passes the collimator lens 2, the absorption tubes 3 and 4 of the working cell 5, the chamber lens 6 and registers the spectral device 7. The absorption tubes 3 and 4 are fixed inside the heat sink 8 in the heat-insulating washers 9 with holes for the passage of gases changing the gap 0 through which the exhaust gas mixture enters the heat exchanger. The feed of the analyzed solutions of the hot mixture into the working chamber of the cell is made through the burners. the ignition of which is carried out simultaneously for the length of all burners with spark discharge.

Removal of the gas mixture from the cuvette is carried out through fittings 12 mounted on the ends of the pipe of the heat exchange 8.

Such a design of the working absorbing cell allows for varying the rate and flow of exhaust gases into the heat exchanger, and thereby controlling the conditions for heating the walls of the absorbing chamber and the temperature of the gas mixture inside the absorbing volume.

In addition, the use of several burners makes it possible to introduce simultaneously analyzed solutions with various components, including the internal standard, into the working and absorption area. A reduction in the degree of condensation and an increase in the temperature of the gas volume make it possible to obtain an increased concentration of free atoms of the analyzed substances in the aerosol.

Thus, the possibility of using various substances and concentrations, and the temperature increase in the volume of gases absorbed, the decrease in the degree of coagulation, and more efficient heating, decompose the application area, increase the sensitivity and accuracy of analyzes.

Subject invention

A device for atomic-absorber single spectroscopy containing a source of radiation, a lighting system, a spectral instrument, burners with nozzles, a heat exchanger and a working absorber 1, a tubular-type cuvette, which is designed in the form of two one-way tubes installed in the heat exchanger along the optical axis of the device, along the circumferences of the inlet openings of which several burners are evenly arranged for 1 absorbing medium.