DE740055C - Process for the production of anhydrous, crushed pitch - Google Patents

Description

Process for the extraction of anhydrous, crushed pitch In the patent 688 5o5 is a method of transferring molten or pitch-like pitch Substances in the solid, small-piece state by letting the melted flow into them Peehs in a thin stream into a channel through which cold water flows and let them drip off of the solidified pitch described on a sieve-like device. This method is characterized in that the pitch in the cooling water is still hot in a strand-like, not granulated state in a known manner from the cooling water separates and the granulation of the pitch takes place by cooling in the air leaves. According to this process, it should be flawless, small-sized and largely Moisture-free product can be obtained.

The practical testing of this process, which has since been carried out further, has shown that it can be carried out consistently, particularly with relatively high-melting pitch (hard pitch), with good results and in a technically flawless manner. In the meantime, especially when processing low-melting: soft pitch, adhesives and the like, it has been found that, in principle, the characterizing features of patent 688 505 can be used, but that, if necessary, specific measures have to be added in order to achieve a possible to obtain the end product that has been freed of water, is not too small and no longer suitable for caking.

As has been found, this desired effect can be achieved by the following measures. Within the process of patent 688 505. The hot, liquid pitch is fed to the flowing cooling water in the form of a flat, band-shaped layer in such a way that the pitch jet or the pitch tape is placed on the surface of the water and does not immediately sink into the water. In this case, the feed line is expediently attached obliquely to the water surface in the direction of the water flow. The width of the pitch band fed in can be, for example, about 10 to 30 cm and more. The thickness of the pitch band must be such that, on the one hand, a sufficient cooling effect is achieved during contact with the flowing cooling water and the pitch band does not disintegrate during its transport in the cooling water. On the other hand, it must remain fragile enough so that it can easily disintegrate into pieces after separation from the cooling water.

With this type of feed, the pitch band initially floats a certain amount Distance, for example about 6 m, on the cooling water surface, so that the The upper surface of the pitch initially cools in the open air, while only the lower surface is exposed to the direct cooling effect of the water. If necessary, you can Also support the floating of the pitch band by having the specific Weight of the cooling water, e.g. B. increased by the addition of salts, so for example, approximates the specific gravity of the pitch or smells higher than this adjusts. Only later does the pitch band sink into the water, if necessary, without but that it may break as long as it is still in contact with the cooling water. This can be done by adjusting the flow rate accordingly Cooling water, the thickness of the pitch band and timely separation of the pitch from the cooling water without difficulty.

The cooling water is expediently in a bed with a rectangular plan guided, the width of which depends on the width of the tapering pitch band and its length a gradual cooling of the pitch band with a slow cooling water flow enables.

The separation of the still warm pitch band from the cooling water and the draining happens on a sieve-like transport device, as described in patent 688 505; a wire mesh net is expediently used as the transport device. To After cooling in the air, the end product is in the form of a plate Pieces of broken, largely anhydrous pitch.

The technical advantages brought about by this embodiment of the method of patent 688 505 are essentially the following: If the hot, liquid pitch jet sinks immediately after hitting the cooling water, the very intensive cooling effect that sets in here has a corresponding effect Deformation of its surface. with the formation of cavities with water entrapment can not be completely avoided within the pitch ray. Let these water inclusions especially in the case of low-melting pitches after separation of the solidified Do not completely remove pitch from the cooling water. The low-melting pitch then only have an internal heat store, which is used to evaporate the externally adhering water, but no longer sufficient to remove water inclusions is. Furthermore, the supply of the pitch in the form of a round jet means training a relatively small surface area per unit of quantity of pitch. The lower but the surface area compared to the amount of pitch, the more the im can Bad luck after the separation of the cooling water still contained heat have the effect that the pitch surface softens again to such an extent that those formed after comminution Glue pieces of pitch back together.

In contrast to this, the pitch band initially fed to the cooling water surface comes into relatively milder contact with the cooling water, initially only with its underside finitely in contact, so that here the deformation and cavity formation and thus the water inclusion reach a much smaller amount, while on the later sinking surface of the Bad luck band almost no water inclusions occur. Furthermore, the supply in the form of a relatively wide and thin pitch band means a corresponding increase in the proportion of surface area per unit of quantity and thus. also a corresponding reduction in the risk of subsequent softening of the pitch surface as a result of the action of the heat still contained in the pitch. Both factors have the effect that now, even when processing low-melting soft pitches, a roughly water-free material which no longer tends to stick together is obtained. Exemplary embodiment Briquette pitch which is about 250 ° to 250 ° hot and has a softening point of 70 ° is sprayed in a jet as thick as a finger onto a distribution tongue of about 90 cm in length and about 1 square meter. cm width, which is inclined to the cooling water surface in the direction of the cooling water flow and ends about: 2 to 3 cm above the cooling water. As it flows over the distribution tongue, the pitch jet widens to a flat pitch band of about 1q. cm width, which when leaving the distribution tongue is placed on the surface of the cooling water and carried by the cooling water for at least a certain distance, for example about 6 m. The cooling water channel is about 23 m long, has a rectangular cross-section and a slope of around 1.6 ° 1o the length. The fill level of the cooling water channel with water is about q. cm. The flow rate of the pitch is adjusted by the flow of cooling water in such a way that the pitch band moves one meter further in about 0.7 to 0.8 seconds. The water consumption is about 7 parts of water for 1 part of pitch. After flowing through the cooling water channel, the still warm, solidified pitch band, as described in .Patent 688 505, is picked up by a sieve-like transport device and freed from the cooling water by allowing it to drip off, whereby it is crushed into plate-shaped pieces in the course of further cooling in the air.

The numerical values given in the exemplary embodiment can be within further limits can be changed, depending on the nature of the material and the other technical conditions require.

As additives to increase the specific weight of the cooling water come salts, such as B. table salt or soda, but also other substances such. B. sulphite waste liquor, into consideration. The cooling water is useful, especially when there are such additives received, by pumping, if necessary after intermediate cooling, again and again used to flow through the cooling trough to avoid unnecessary losses.

To explain the shape and arrangement of the pitch band For example, the »distribution tongue« used is the accompanying drawing, in which three different embodiments of the distribution tongue and their arrangement are shown at the outlet of the pitch container and their position in relation to the cooling trough. It are of course also other construction options for the construction of the Execution of the method according to the invention serving device for generating a ribbon-shaped pitch jet present.

Claims (2)

PATENT CLAIMS: e.g. Embodiment of the method for obtaining anhydrous, crushed pitch from hot, liquid pitch by the action of running water according to patent 688 5ö5, characterized in that the pitch dem flowing cooling water in the form of a flat, band-shaped layer, for example by means of a distribution tongue. 2. The method according to claim z, characterized characterized in that the floating of the pitch band on the cooling water by appropriate Adjustment of the specific gravity of the latter, e.g. B. by means of salt added will.