RU2705064C1 - Device for producing fullerene-containing soot - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention can be used in electrothermics. Sealed reaction chamber consists of cover 1 and housing 2 with water cooling jackets 3 and 4 connected by flange connection 5. Air is pumped from the chamber, after which helium is introduced into it. On inclined fixed electrodes 6 attached to bottom of housing 2 through electrically insulated current leads 7, current is supplied through contact line 17 with negative polarity. Movable electrode 8 is attached to cover 1 through electrically insulated current lead 11 and is made in form of cone-shaped element 8 with tiers arranged on several levels of graphite rods 10 of different length, installed in electrical connectors 9. Rods 10 of lower tier have longer length than rods 10 of tier located higher. Moving electrode 8 equipped with mechanism 12 of vertical reciprocation relative to electrodes 6 is supplied by contact line 16 with positive polarity. At approach to distance of discharge gap between lower tier of graphite rods 10 and fixed inclined electrodes 6 electric arcs are formed, as a result of which there is burning of graphite rods 10 and evaporation of carbon with formation of fullerene-containing soot, which is cleaned from inner surface of housing 2, from fixed electrodes 6 and through taps 13 is directed into container 15 for collection of fullerene-containing soot, attached by flange connections 14.

EFFECT: higher efficiency of the process.

1 cl, 1 dwg

Description

The device relates to the field of electrothermia and is intended to produce soot containing a mixture of fullerenes.

A known method of producing fullerenes, including the formation of carbon clusters with a flat hexagonal structure by heating a solid carbon-containing preform and subsequent synthesis of fullerene molecules from them by heating the carbon-containing preforms in vacuum to a temperature of about 4500 ° C, while the synthesis of fullerene molecules is carried out in opposite directions or intersecting flows of carbon clusters (RF Patent No. 2085484, publ. from 07.27.1997). However, it is proposed to use resistive, induction, magnetron or laser methods for heating a solid carbon-containing preform, which necessitates the creation of complex and expensive engineering devices that implement these methods.

A device for producing soot containing fullerenes by the electric arc method is known, including a sealed housing filled with helium, coaxially arranged movable and fixed electrodes, the movable electrode being installed with the possibility of translational motion relative to the stationary one, a window for visual observation located perpendicular to the axis of the electrodes (WA Scrivens, JM Tour Synthesis of Gram Quantities of C60by Plasma Dischhorge in a Modified Round-Bottomed Flask, J. Org. Chem., 1992, v. 57, p. 6932-6936). The disadvantage of this device is the low number of fullerenes produced, the need for frequent opening of the sealed housing to replace a burning movable electrode, and as a result, the loss of an expensive gas - helium.

A device for producing fullerene-containing soot containing a source of electric current, the poles of which are connected to the first and second electrical inputs to the reaction chamber with electrodes fixed in them, one of which is made of carbon-containing material, for example graphite, while the electrodes are installed end to end to each other, while one of the electrodes is equipped with a mechanism for reciprocating along its geometric axis relative to the other electrode, taking into account the conservation of the gap between the electrodes, the first electrical input connected to the positive pole of the electric current source, the negative pole of which is connected to the second electrical input, and the first and second electrical inputs with rods are installed along the length of the cavity in the sealed chamber (Application for invention of the Russian Federation No. 98105520, publ. . from January 27, 2000). The main disadvantage of this device is the low yield of fullerene-containing soot.

A device for producing fullerene-containing soot, including a sealed reaction chamber, consisting of a cover and a housing made with water cooling jackets and connected by a flange connection, movable and stationary electrodes with electrically insulated current leads, housed in the housing, is attached to the bottom of the reaction chamber housing and the movable electrode is attached to the lid of the reaction chamber, with the possibility of tilting relative to the stationary electrode and the formation of an electric thrust angle between the movable and fixed electrodes (RF Patent №2121965, publ. on 20.11.1998).

The disadvantage of this device is the low productivity in the production of fullerenes, the complex device of the tilt mechanism of the movable electrode, the high cost of the process for producing fullerenes due to the need to frequently open the sealed housing to replace the burning movable electrode, and as a result, the loss of expensive gas - helium.

The technical result that can be obtained by carrying out the invention is to increase the productivity (quantity) of obtaining fullerene-containing soot.

To achieve this technical result, a device for producing fullerene-containing soot, comprising a sealed reaction chamber, consisting of a cover and a housing made with water cooling jackets and connected by a flange connection, movable and fixed electrodes with electrically insulated current leads placed in the housing, while the fixed electrode is attached to the bottom of the body of the reaction chamber, and the movable electrode is attached to the lid of the reaction chamber, with the possibility of the formation of an electric arc under the gap between the movable and stationary electrodes is equipped with several (for example, two or more) inclined stationary electrodes attached to the bottom of the reaction chamber body, the movable electrode is made in the form of a cone-shaped element (for example, a solid truncated cone made of ceramic material) with built-in electrical connectors, in which tiers at several levels (for example, two or more) are graphite rods of different lengths installed in electrical connectors, while the rods of the lower tier are large longer than the rods of the upper tier, the cone-shaped element with graphite rods is attached through a seal to the lid of the reaction chamber and is equipped with a vertical reciprocating mechanism relative to the inclined stationary electrodes, which ensures the maintenance of the discharge gap and the formation of an electric arc between the graphite rods and the fixed electrodes, while to the lower part of the reaction chamber body through several taps flange connections attached capacity for ora fullerene.

Entering into the composition of the device for producing fullerene-containing soot, several inclined stationary electrodes attached to the bottom of the reaction chamber body and making a movable electrode in the form of a cone-shaped element with built-in electrical connectors, in which graphite rods of different lengths installed in electrical connectors are arranged on tiers at several levels, as well as supplying a cone-shaped element with a vertical reciprocating mechanism relative to inclined stationary electric ctrodes, which ensures the maintenance of the discharge gap and the formation of an electric arc between graphite rods and stationary electrodes, allows us to obtain a new property, namely, the use of a cone-shaped element with electrical connectors as a movable electrode, in which graphite rods of different lengths are located on several levels, provides a significant reduction in the number of stops (breaks) in the operation of the device for recharging combustible rods, and as a result, enshaet irrecoverable loss of expensive inert gas - helium increases the amount of produced fullerene per unit time due to simultaneous combustion several graphite rods, in general, reduces the cost of production of soot containing fullerenes.

Attaching a container for collecting fullerene-containing soot through several taps allows a more complete collection of fullerene-containing soot from the entire area of the lower part of the reaction chamber body.

In FIG. 1 shows a device for producing fullerene-containing soot.

A device for producing fullerene-containing soot, comprising a sealed reaction chamber, consisting of a cover 1 and a housing 2, made with water cooling jackets, respectively, 3 and 4, and connected by a flange connection 5. Inside the housing 2 of the reaction chamber there are several (for example, two or more ) inclined stationary electrodes 6 attached to the bottom of the body 2 of the reaction chamber through electrically insulating seals 7. The movable electrode is made in the form of a cone-shaped element (for example, a solid truncated cone of ceramic material) 8 with electrical connectors 9, in which graphite rods 10 of different lengths are installed in tiers at several levels, installed in electrical connectors 9, while the rods 10 of the lower tier are longer than the rods 10 of the upper tier. A cone-shaped element 8 with graphite rods 10 is attached through an insulating seal 11 to the lid 1 of the reaction chamber and is equipped with a mechanism 12 of vertical reciprocating motion relative to the inclined stationary electrodes 6, which provides the formation of an electric arc between the graphite rods 10 and the stationary electrodes 6. In the lower part of the housing 2 the reaction chamber through several taps 13 flange connections 14 attached capacity 15 for collecting fullerene-containing soot.

The fixed electrodes 6 and the cone-shaped element 8 with electrical connectors 9 are connected to a power source (not shown in FIG.) By contact lines 16 and 17 with the polarity indicated in FIG. 1. In this case, the contact line 16 with a positive charge is connected to each electrical connector 9 of the conical element 8.

To control the process of obtaining fullerene-containing soot, a viewing window 18 is provided in the housing 2 of the reaction chamber.

A device for producing fullerene-containing soot works as follows.

Initially, the device is disconnected from the source of electrical energy (not shown in FIG.). The lid 1 of the reaction chamber is lifted and graphite rods 10 are installed in the electrical connectors 9. Then, the lid 1 is mounted on the casing 2 and, using the flange connection 5, the lid 1 and the casing 2 are tightly connected, achieving the tightness of the reaction chamber. The water cooling jacket 3 covers 1 and the water cooling jacket 4 of the body 2 of the reaction chamber are filled with water and connected to a reverse cooling system (not shown in the figure) to pump water through the cooling jackets 3 and 4.

Then air is pumped out of the reaction chamber and the chamber is filled with an inert gas - helium. A current with the polarity indicated in FIG. 1 is supplied from the electric energy source (not shown in the figure) to the stationary electrodes 6 and to the electrical connectors 9 integrated into the conical element 8, through contact lines 16 and 17. 1 (contact line 16 with a positive charge, contact line 17 with a negative charge). In this case, along the contact line 16, energy is supplied to each electrical connector 9 of the cone-shaped element 8.

To exclude the ingress of electric current to the body 2 of the reaction chamber, the stationary electrodes 6 and the cone-shaped element 8 are installed in the chamber through electrically insulating seals 7 and 11, respectively.

Due to the operation of the mechanism 12 of the vertical reciprocating movement, the graphite rods 10, mounted in the electrical connectors 9 integrated in the conical element 8, together with the conical element 8 begin to sink towards the inclined stationary electrodes 6. When the discharge gap approaches the distance between the lower tier of the graphite rods 10 and fixed inclined electrodes 6, an electric arc is formed, as a result of which burning of graphite rods 10 and evaporation of carbon occurs.

As the graphite rods 10 of the lower tier burn out and the cone-shaped element 8 is slowly lowered further, an electric arc is formed between the graphite rods 10 of the next (upstream) tier and the stationary electrodes 6. Consequently, graphite stubbles 10 of already two tiers will be involved in the combustion and formation of carbon vapors. . And so the process goes until all the graphite rods are involved until they are completely burned.

Carbon vapors formed from the combustion of graphite rods 10 touch the inner walls of the housing 2 of the reaction chamber and, when cooled, form fullerene-containing soot (a mixture of fullerenes and technical soot). The heat from the water cooling jacket 3 of the cover 1 and the water cooling jacket 4 of the body 2 of the reaction chamber is removed to the reverse cooling system (not shown in the figure), which ensures that the water temperature in the cooling jackets 3 and 4 is maintained constant.

To control the process of producing fullerene-containing soot, a viewing window 18 is provided in the housing 2 of the reaction chamber 18. After burning all the graphite rods 10, the installation for producing fullerene-containing soot is disconnected from the source of electrical energy.

Then, the fastening of the flange connection 5 is removed and the cover 1 with the vertical reciprocating mechanism 12 and the cone-shaped element 8 is disconnected. The fullerene-containing soot is cleaned from the inner surface of the housing 2 and from the stationary electrodes 6, which through taps 13 enters the container 15 for collecting fullerene-containing soot.

Then again install new graphite rods 10 in the electrical connectors 9 and the above process is repeated again.

As the tank 15 is filled with fullerene-containing soot, the tank 15 is disconnected from the reaction chamber using flange connections 14 and transported to the place where the fullerenes are removed from the soot.

Sources of information taken into account when preparing the application:

1. RF patent No. 2085484, publ. from 07/27/1997.

2. W.A. Scrivens, J.M. Tour Synthesis of Gram Quantities of C60by Plasma Dischhorge in a Modified Round-Bottomed Flask, J. Org. Chem., 1992, v. 57, p. 6932-6936.

3. Application for the invention of the Russian Federation No. 98105520, publ. from 01/27/2000.

4. RF patent №2121965, publ. from 11/20/1998 - a prototype.

Claims (1)

A device for producing fullerene-containing soot, including a sealed reaction chamber, consisting of a cover and a housing made with water cooling jackets and connected by a flange connection, movable and stationary electrodes with electrically insulated current leads placed in the housing, the fixed electrode being attached to the bottom of the reaction chamber housing, and the movable electrode is attached to the lid of the reaction chamber, with the possibility of forming an electric arc at an angle between the movable and stationary electrodes, characterized in that it is equipped with several inclined fixed electrodes attached to the bottom of the reaction chamber body, the movable electrode is made in the form of a cone-shaped element with built-in electrical connectors, in which at different levels graphite rods of different lengths installed in electrical connectors are located, with the lower rods tiers are longer than the rods of the higher tier, a cone-shaped element with graphite rods is attached through a seal to the reaction lid This chamber is equipped with a vertical reciprocating mechanism relative to inclined fixed electrodes, which ensures the maintenance of the discharge gap and the formation of an electric arc between graphite rods and fixed electrodes, while a container for collecting fullerene-containing soot is attached to the lower part of the reaction chamber body through several outlets with flange connections.

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