DE1007896B - Device for resistance electrical heating of liquids - Google Patents

Description

Device for resistance electrical heating of liquids The invention relates to a device for electrical heating by itself forming the electrical heating resistance, located in a liquid bath Liquids, in which the liquid bath for the purpose of continuous operation with Supply and discharge lines is provided, and is aimed in particular at the distillation, of liquids or for expelling, of gas dissolved in a liquid. the Invention is that the liquid bath by two insulating walls in such a way is subdivided so that a direct current transfer between the electrodes is prevented and the current flow in one or more at least approximately perpendicular zones reduced cross-section takes place, which has through corresponding passages Isolation walls are delimited.

As a result of the high resistance of the liquid in the area of the zones With a reduced cross-section, the liquid in these zones becomes relatively stronger heated. Furthermore, since the zones essentially extend in the vertical direction, As a result of this increase in temperature, there is a brisk flow of the liquid in them from the bottom up and thus a rapid renewal of the in these areas heated liquid.

The application of the invention offers a particular advantage when in addition to the mere heating of liquids, by .this heating also a degassing or distillation is to be effected. In these cases, the effect is accelerated Renewal of the liquid in the zones of reduced cross-section due to the release of gas dissolved in the liquid in the form of bubbles or through the formation of Steaming from the liquid heated to this temperature is increased. Furthermore, due to the intense formation of gas bubbles the resistance of the liquid in the affected zones enlarged, which further increases the temperature of the same contributes.

The gas formation is caused by the vertical arrangement of the sections, in which it takes place, promotes it and, as it were, forms an emulsion through it, which in turn increases the circulation of the liquid in these sections.

If you want to get the gases generated by the heating, how z. B. in the case of the distillation of hydrochloric acid for the purpose of producing concentrated Hydrogen chloride gas, so it is easy to generate gas by a suitable arrangement to localize in the mentioned zones and thus in a simple way one for the extraction to create the gas serving device.

The following are given as examples only, without limitation to the Embodiments shown different ways of performing the Method according to the invention described with reference to the figures, of which Fig. 1 shows, in vertical section, an arrangement with only a single zone of reduced cross-section represents according to the invention; Fig. 2 shows such a representation in a corresponding representation Two-zone arrangement; Fig. 3 illustrates an arrangement with a zone of reduced cross-section in the form of a cylinder ring; Fig. 4 illustrates a modified embodiment of FIG. 3 in horizontal section.

In Fig. 1, 1 denotes a container whose walls are made of an electrically insulating and against the chemical effects of the Containers of heated liquid are made of 2 resistant material. With 3 and 3.1 are called electrodes, through which electric current enters the body of liquid is introduced. 4 is one made of insulating material (stoneware or other suitable Ceramic material, porcelain, quartz or the like.) Existing wall, which consists of the Liquid protrudes and has an opening 5 in its lower region. With 6 denotes a vertical wall of insulating material, extending from the bottom of the container extends from only to slightly below the level of the liquid, so that up to This a free space 7 remains above. The walls 4 and 6 are arranged at a relatively short distance from each other, so that the between The liquid layer 8 located in them has a relatively high electrical resistance possesses and is therefore in a higher position under the influence of the current passed through it Measures heated than the rest of the bathroom. As a result of this temperature difference the liquid circulates in the space between the walls 4 and 6 in which it enters through the opening 5 in order to leave it via the free space 7, very quickly from the bottom up. The electric streamlines have the same course.

In the embodiment according to FIG. 2, one is through walls 4-4a formed double barrier is provided, which extends to above the liquid level extends and below have flow openings 5-5a. These walls are on the two sides of the one from the bottom of the container to below - the liquid level extending intermediate wall 6, so that two zones 8-8a of reduced cross-section are formed.

In the arrangement shown in Fig. 3, the zone has reduced. Cross-section according to the invention the shape of a cylinder ring (tube). On the ground of the heating container is with the help of a clamping device 11, which makes it possible to Adjusting the height of the electrode in relation to the bottom of the container is one cylindrical electrode 9 attached. This electrode is coaxial with it Sleeve 12 made of insulating material surrounded by the bottom of the container only up to one lower level than the electrode. This sleeve in turn is in a second thus coaxial sleeve 13 also made of insulating material of slightly larger diameter arranged. The upper edge of the sleeve 13, which is on feet, between which evenly Passage openings 14 distributed in the circumferential sense remain, rests, protrudes the level out of the liquid 2. Any one acts with the electrode 9 or also this similarly designed electrode 15 together.

The electric streamlines coming from the electrode 15 occur through the openings 14, rise between the two sleeves upwards and over the upper edge 17 of the inner sleeve and fan-out towards the electrode 9 out. In the space between. The liquid is heated in the sleeves.

As can be seen in particular from this exemplary embodiment, there is Another advantage of the invention in the possibility of the course of the electrical Streamlines in the interior of the liquid are reduced by the arrangement of the zones To influence or determine cross-section according to the invention as desired. In particular can be achieved by the arrangement of these zones in relation to the electrodes, that the streamlines emanate from predetermined points on the electrodes, which is below Circumstances can be beneficial.

In the exemplary embodiment, the upper end of the electrode 9 and the upper edge 17 of the inner sleeve in the frequent case where the cylinder surface more resistant to decay than is often the case with graphite electrodes is, end face of the electrodes obtained by sawing off in such a position to one another be arranged so that -the streamlines which are distributed from this edge, run more towards the cylindrical surface of the electrodes than towards their end face. This setting can in particular by appropriately dimensioning the length of the Electrode 9, the diameter of the inner sleeve 12 and the height of this sleeve.

In the embodiment according to FIG. 4, a heating container 18 of cylindrical shape over three identical electrodes 9, each of which as is combined with sleeves according to the embodiment described above, with three-phase current provided.

In the exemplary embodiments according to FIGS. 2 and 3, it is assumed that that, as a result of the heating, gases are released, which through an opening 19 in the lid of the container can be collected and thus obtained. It can be seen that here the released gas bubbles in the liquid of zones 8 and 811 a Form an emulsion that increases the electrical resistance of the upper or ring-shaped body of liquid increases in these zones and thus promotes fluid circulation in them, <let their effect be compared to the thermal siphon effect achieved by heating the liquid added.

If, as is usually the case, work is carried out continuously, it is sufficient to Feed openings for new liquid, as shown for example in FIGS. 2 and 3 are denoted by 20 and outlet openings 21 for the used (degassed or concentrated) liquid.

There is a significant advantage of the method according to the invention in that this allows the hottest part of the liquid to be used at will to locate. In this way it becomes possible with great accuracy the during the maximum temperature reached after the heating and any local heating, which would be detrimental to the liquid being treated, should be avoided. Further According to the invention, the hottest zone can be arranged at the most advantageous location be e.g. B. in the center of the container, then the one located in the circumferential area colder liquid as heat insulating protection for the middle hot zone opposite walls is used. As a result, both the heat losses are over the walls reduced to a minimum as in the case of a liquid with corrosive properties, the corrosive effect of which increases with increasing Increased temperature, the risk of corrosion in that the walls are not with the hottest liquid come into contact, correspondingly reduced.

Of course, the invention is not limited to the above in detail Embodiments described limited. So the zones of reduced Cross-section forming. Walls flat, cylindrical or prismatic shape own. Gases can also be introduced in the lower area of these zones, to create an emulsion that promotes heating and circulation of the liquid produce. In case the purpose of the heating is by chemical reaction to absorb a gas with a liquid, this can be in the lower area a zone of reduced cross-section to be introduced in the course of its reputation increase to be gradually absorbed within this zone. In this case the Heating the liquid used to promote the chemical reaction and / or to keep the body coming into reaction with the gas in a liquid state.

The following is an exemplary embodiment for carrying out the Method according to the invention using an apparatus of the type shown in FIGS. 3 and 4 shown type for the production of hydrogen chloride gas of 100% Focus off aqueous commercial hydrochloric acid with 36% HCl given.

It is well known that hydrochloric acid forms an azeotropic mixture with water, which boils under atmospheric pressure at 110 ° and contains 20.24% HCl. From this it can be seen that by distilling a mixture of H Cl and water, the more than contains 20.24% H Cl, pure H Cl gas can be produced.

In this case, the new method is carried out so that a container, above which a rectifying column is arranged and that above this column aqueous 36% hydrochloric acid is supplied, is heated electrically.

The 100% pure hydrogen chloride gas is in the upper part of the column collected and the exhausted, for example 20.51 / o H Cl containing solution con, continuously discharged through a suitable opening.

The cylindrical container contains graphite electrodes that are fed with three-phase current. Each of these electrodes is surmounted by sleeves which are designed similarly to the sleeves 12 and 13 according to FIGS. The main vessel data are the following: External diameter of the vessel. 1470 mm inner diameter of the container. 1230 mm diameter of the electrodes. . . . . . . . 90 mm height of the electrodes above the container bottom. . . . . . . . . . . . . . . . . . . . . . 160 mm distance between the axes of two electrodes. . . . . . . . . . . . . . ».- 360 mm height of the liquid level in the container above the highest part of the electrodes ...................... 14 mm inside diameter of the sleeve 12 ..... 160 mm outer diameter of the sleeve 12 ..... 170 mm height of the sleeve 12 ... . . . . . . . . . . . . . . 110 mm inner diameter of the sleeve 13 ... ... 180 mm outer diameter of the sleeve 13 ..... 190 mm height of the sleeve 13. . . . . . . . . . . . . . . . . 220 mm (the sleeve 13 has ten openings 14 each with a diameter of 30 mm) Width of the annular space between the sleeves 12 and 13 ................ 5 mm ...... 220 volts and 50 Hz The device is fed with an aqueous solution of 36% hydrochloric acid at 25 ° C introduced into the upper part of the column.

The used solution, which contains 20.5% H Cl, is removed from the container withdrawn at a temperature of 110 °. The output is 400 kg per hour of pure 100% hydrogen chloride. The energy consumption is 1 kW per kg of HCl.

Claims (7)

PATENT CLAIMS-1. Device for electrical heating by itself forming the electrical heating resistance, located in a liquid bath Liquids, in which the liquid bath for the purpose of continuous operation with Inlet and outlet lines is provided, in particular for the distillation of liquids or for expelling gas dissolved in a liquid, characterized in that that the liquid bath is divided in such a way by two insulating walls (4, 6 or 12, 13) is that a direct current transfer between the electrodes (3, 3a or 9, 15) is prevented and the flow of current in one or more at least approximately vertical zones (8 or 8a) of reduced cross-section is carried out by corresponding Isolating walls (4, 6 or 12, 13) having passages (5, 5a or 7, 14) are delimited are. 2. Device according to claim 1, characterized in that the zone or Zones (8. 8a) of reduced cross-section with the rest of the electrodes containing the Liquid bath (2) connected once at the upper end (7) and once at the lower end (5) stand. 3. Apparatus according to claim 1 or 2, characterized in that the insulating Partitions are flat (Figs. 1 and 2). 4. Apparatus according to claim 1 or 2, characterized characterized in that the insulating partitions are cylindrical or prismatic Have shape (Fig. 3 and 4). 5. Apparatus according to claim 1, 2 and 4, characterized in that that the cylindrical or prismatic partitions have one or more electrodes completely surrounded individually (Fig. 3 and 4). 6. Apparatus according to claim 1 or 2, characterized characterized in that at least one of the electrodes (9) is individually coaxial with it Insulating sleeves (12) is surrounded, extending from the bottom (10) of the liquid container extend over a height that is less than the electrode height, and! that these The sleeve is surrounded by a second insulating sleeve (13) which is also coaxial with the electrode is that on the container bottom (10) on the passage openings (14) leaving free Rests on the feet and protrudes above the liquid level. 7. Apparatus according to claim 1, 2 and 6, characterized in that the insulating inner sleeve (12) ends so far below the upper end of the electrode that the streamlines spreading from the upper edge of the sleeve essentially only on the cylindrical outer surface of the electrode (9 ) and practically do not impinge on their face. B. Apparatus according to claim 1 and 2, in particular for the absorption of a gas introduced into the liquid by chemical reaction of this gas with the liquid, characterized in that in the lower region of the zones of reduced cross-section a device introducing fine gas bubbles into the liquid is provided. Considered publications: German Patent Specifications Nos. 588437, 733253.