RU2139380C1 - Cellulose manufacture apparatus - Google Patents

Abstract

FIELD: pulp-and-paper industry. SUBSTANCE: apparatus has cooking reactor with sulfate alkali and lignocellulose material, DC source and electrodes which are in contact with sulfate alkali. Capacitor is connected in parallel with DC source. Electrodes are arranged so that air gap is defined between them. Apparatus provides intensified process of oxidation of sulfate alkali and production of polysulfide solution. Process is conducted without usage of catalyst. EFFECT: increased efficiency, reduced power consumption and increased yield of finished product. 4 cl, 3 dwg

Description

 The invention relates to techniques for the production of pulp and can be used in the pulp and paper industry.

 Known devices comprising a digester in which sulphate liquor and lignocellulosic material are located. The liquor is circulated by the pump through the heater (see, for example, Yu.N. Nepenin "Cellulose Technology", vol. 2, "Production of sulfate cellulose", Moscow, 1990, p. 141).

 The disadvantage of this device is the fact that it does not provide oxidation of sulfate liquor and, accordingly, the conversion of sulfide to polysulfides. In this regard, the yield of the final product is insufficient.

 Also known devices for the manufacture of cellulose containing a cooking reactor in which the cooking solution is sulfate liquor and lignocellulosic material, as well as a direct current source and electrodes in contact with sulfate liquor in a special chamber (see, for example, "Chemistry of wood", ed. Academy of Sciences of the Latvian SSR, Riga, 1979, N 5, pp. 37-38). Sulphate liquor is circulated from the digester to the treatment chamber by means of a pump. During processing, the liquor is exposed to direct electric current, as a result of which electrochemical oxidation of the cooking solution takes place. Sulphide oxidation products - elemental sulfur and polysulphides - are an active form of the "sulphurous" sulphate cooking catalyst.

 This device is taken as a prototype of the present invention. Its disadvantage is the high cost of electricity; for the effective operation of the device, it is necessary to use catalysts, for example, potassium ferrocyanide, which have a very high cost. During the oxidation of cooking liquor, the catalysts must be regenerated. A significant part of them falls into industrial effluents. In this regard, appropriate cleaning is necessary, or environmental pollution occurs.

 The present invention is based on the solution of the problem of reducing energy consumption during operation of the device, as well as ensuring its effective operation without the use of catalysts.

 According to the invention, this problem is solved due to the fact that in the device for the manufacture of cellulose containing a cooking reactor, which contains sulfate liquor and lignocellulosic material, a direct current source and electrodes in contact with sulfate liquor, a capacitor is connected in parallel with the direct current source, and the sulfate liquor electrodes are made with the formation of a spark gap; a switch is connected between the capacitor and the spark gap; the device can be equipped with two inductors and an additional spark gap that is connected in series with the main spark gap, one ends of the inductors are connected between the additional spark gap and the capacitor, while the second end of one of the inductors is connected between the main and additional spark gaps, and the second the end of the other inductor is connected between the switch and the main spark gap; the device can be equipped with one inductor, an additional capacitor and an additional spark gap, which is connected in series with the main spark gap, the additional capacitor connected in parallel with the additional spark gap, the inductance coil at one end connected between the additional spark gap and the capacitor, and the second end connected between switchboard and main spark gap.

 The applicant has not established any sources of information that would contain information about technical solutions identical to the declared one. This allows, according to the applicant, to conclude that the invention meets the criterion of "novelty."

 The implementation of the distinguishing features of the claimed device (together with the features indicated in the restrictive part of the claims) leads to new properties of the object. On a liquid medium - sulfate liquor is affected by pulsed electrical discharges. In this case, the microelectrolysis first occurs in the liquid and the initial oxidation of sulfides takes place. Then thermal breakdown occurs in the liquid and an electric arc occurs. As a result of this, ozone is formed, which sharply increases the intensity of the oxidative process. In the place of thermal breakdown, a gas-vapor bubble appears, which first increases in volume, since pressure inside it increases, and then collapses after a while. A hydraulic shock occurs, acoustic waves are distributed throughout the entire volume of the liquid, which significantly improves circulation and intensifies the mass transfer of sulfate liquor. This further increases the intensity of the sulfide oxidation process.

 Thanks to acoustic waves, the impregnation of lignocellulosic material in sulphate liquor is improved.

 The implementation of the distinguishing features of the invention provides a very high intensity of the process of oxidation of sulfate liquor with the formation of a polysulfide solution, in which there is a high yield of the final product and eliminates the need for catalysts. In addition, energy consumption is significantly reduced.

 The applicant has not revealed any information about the influence of the distinguishing features of the invention on the achieved technical result. This circumstance allows us to conclude that the claimed technical solution meets the criterion of "inventive step".

The invention is illustrated by drawings, which depict:
in FIG. 1 is a schematic diagram of a device;
in FIG. 2 - a variant of the device according to claim 3;
in FIG. 3 - a variant of the device according to claim 4 of the claims.

 The device comprises a digester 1. Inside the digester 1 there is sulphate liquor 2 with lignocellulosic material 3, in a specific example, wood chips. The direct current source is a rectifier 4. The electrodes are formed with a spark gap 5 and are contacted, in a specific example, with sulfate liquor 2 inside the cooking reactor 1, however, it is possible to contact the electrodes with sulfate liquor in a separate chamber communicating with the cooking reactor 1. Parallel to the rectifier 4, a high-voltage pulse capacitor 6 is connected. A switch 7 can be connected between the capacitor 6 and the spark gap 5. In the embodiment of the device shown in FIG. 2, it is equipped with two inductors - 8 and 9, as well as an additional spark gap 10, which is connected in series with the spark gap 5 and is also located inside the cooking reactor 1. One ends of both inductors are connected between the additional spark gap 10 and the capacitor 6. Second the end of the inductor 8 is connected between the spark gaps 5 and 10, and the second end of the inductor 9 is connected between the switch 7 and the spark gap 5.

 In the embodiment of the device shown in FIG. 3, instead of the inductor 8, an additional capacitor 11 is included.

 The device operates as follows. Charger 4 charges the capacitor 6 to a voltage of 20-25 kV. The switch 7 automatically connects the capacitor 6 to the spark gap 5 at predetermined time intervals. The discharge of the capacitor 6 occurs through the spark gap 5. In this case, microelectrolysis of sulfate liquor first occurs with the formation of primary polysulfide compounds. Then a thermal breakdown occurs and an electric arc appears. Ozone is formed, which contributes to an additional intensive oxidation of sulfides and their conversion to polysulfides and other sulfur-containing compounds.

 A bubble containing water vapor, oxygen, ozone and other gases occurs at the site of thermal breakdown. The pressure inside the bubble rises to a certain limit, after which the bubble collapses and a water hammer occurs. The resulting acoustic waves are distributed throughout the volume of the digester 1, which intensifies the circulation of liquor and improves the impregnation of lignocellulosic material.

 The device can operate without a switch 7. In this case, the discharge of the capacitor 6 through the spark gap 5 occurs when the voltage on the capacitor 6 exceeds the breakdown voltage of the spark gap 5. However, this increases the energy consumption due to leaks. The embodiments of the device of FIG. 2 and FIG. 3 allow to intensify the process of oxidation of cooking liquor due to the introduction of additional spark gaps without additional energy consumption.

 In this case, the inductors 8 and 9 (in the embodiment of Fig. 2) and the inductor 9 and the capacitor 11 (in the embodiment of Fig. 3) provide simultaneous uniform discharge in both spark gaps. In principle, it is possible to use more than two spark gaps.

 The device is made of ordinary structural materials in the factory, and therefore we can conclude that the invention meets the criterion of "industrial applicability".

Claims (4)

 1. A device for the manufacture of cellulose containing a cooking reactor in which there are sulfate liquor and lignocellulosic material, a direct current source and electrodes in contact with sulfate liquor, characterized in that a capacitor is connected in parallel with the direct current source, and electrodes in contact with sulfate liquor are installed with the formation of a spark gap.  2. The device according to claim 1, characterized in that the switch is connected between the capacitor and the spark gap.  3. The device according to claim 2, characterized in that it is provided with two inductors and an additional spark gap that is connected in series with the main spark gap, one ends of the inductors are connected between the additional spark gap and the capacitor, while the second end of one of the inductors is connected between the main and additional spark gaps, and the second end of the other inductor is connected between the switch and the main spark gap.  4. The device according to claim 2, characterized in that it is equipped with an inductor, an additional capacitor and an additional spark gap, which is connected in series with the main spark gap, while the additional capacitor is connected in parallel with the additional spark gap, the inductance coil is connected at one end between the additional spark gap and capacitor, and the second end is connected between the switch and the main spark gap.

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