SU715999A1 - Method of cindering biological material - Google Patents

Description

one

The invention relates to a laboratory biochemical and chemical engineering, to devices intended for the mineralization, ashing of biological and other material, and can be used B (E BCieY Laboratories x, in which the biological and other material are being ashed).

A device for the heat treatment of the material under study, a vortex housing, an electric heater, and. sample holder 1.

A disadvantage of the known device is that it conducts only those processes that require heating to a high temperature, for example, baking, melting, and it is not intended to conduct the ashing of the test materials.

The closest in technical essence and the achieved result to the invention is a device for burning the biological specimens of biological origin, including a chamber made of thermally-resistant material, an electric heater mounted outside the chamber.

nozzles for input and output of gaseous reagent and sample holder 2.

A disadvantage of the known device is ineffective ashing of the material under study and the impossibility of carrying out ashing of several samples.

The aim of the invention is to increase the efficiency of ashing due to the production of an ozone-oxygen mixture.

This is achieved in that the device is provided with electrodes and heat-resistant tubes installed inside the chamber, placed outside the electrodes and fixed to the chamber wall, while the holder can be made in the form of a shelf with sample holes. FIG. 1 shows the proposed device, a longitudinal section; in fig. 2 - camera, end view.

The device consists of a chamber 1 made of heat-resistant material, for example quartz or Pyrex glass, a cover 2, an insulating casing 3 with an electric heater installed outside the chamber 1, nozzles of inlet 4 and outlet 5 of oxygen, electrodes 6 placed inside heat-resistant tubes 7, PENZHENICH, for example, YTKVARTSA-YALI Pyrex glass, shelves 8. with holes for crucibles 9 with samples.

Chamber 1 is made of a cylindrical form, from the closed end of which four electrodes are placed inside it, which are placed in heat-resistant tubes. The pacj electrodes are located in a cross-shaped chamber, each as close as possible to the inner surface. The length of the electrodes is 2/3 of the length of the chamber. A shelf 8 with crucibles 9 installed in the holes of the shelf is located above the lower electrode in the chamber.

The device works as follows. -

Crucibles 9 with the test material, previously charred, are placed in the holes on shelf 8, after which shelf 8 is placed in chamber 1. Chamber 1 is closed with lid 2, the heater is turned on and the temperature is adjusted to 350-450 ° C. Oxygen is fed through the inlet 4 at a speed recorded in the control flask (not shown), a transformer (not shown) on electrodes 6 creates a voltage of 5-15 thousand volts, resulting in discharges of oxygen Ozone, which in cm, with oxygen, leads to a rapid ash content of the material in the crucibles, evolving gaseous products, excess ozone and oxygen are removed through pipe 5 to the absorption system (not shown in the drawings).

The proposed device allows the process of ash to be carried out in a mixture of ozone and oxygen, which are the most effective oxidizing agents, and, moreover, are compatible with oxygen, the least toxicant with other oxidants and the most economical.

Claims (2)

Invention Formula 10 1. A device for biological material ash, including a chamber made of heat-resistant material, an electric heater installed outside the chamber, nozzles for input and output of a gaseous reagent and an image holder, which, in order to increase the efficiency of ash by obtaining ozone an oxygen mixture, it is provided with electrodes installed inside the chamber and heat-resistant tubes, which are paved outside the electrodes and fixed to the chamber wall. 2. The device according to claim 1, characterized in that the holder is made in the form of a shelf with sample holes. Jj / - Sources of information, preygvta attention in the examination 1.Voskresensky P.T. Laboratory equipment. ML, “Himi, 1964, p. 158. 2.Patent of France No. 2250438, ° cl. G 01 N 31/12, 1975. g; Ft.2