DE501196C - Process for absorbing, saturating, mixing, cooling, evaporation and precipitation of gases, steams, liquids and powders as well as mixtures of these bodies - Google Patents

Description

Methods of absorbing, saturating, mixing, cooling, evaporation and Deposition of gases, vapors, liquids and powders as well as mixtures of these Body The absorption of gaseous substances by liquids or solids represents a task that has not yet been completely solved in technology. Absorption required, especially when not only solution processes take place, but secondary chemical reactions occur with renewed development of gases, how this z. B. is the case with the absorption of nitrogen oxides with water, extraordinary extensive absorption equipment. It has now been found that absorption, Cooling, evaporation, saturation, mixing and similar processes in more advantageous Way can be carried out by passing the gases through hollow bodies of tetrahedral shape or the interstices created by appropriate layering of such Tetrahedral columns are received, sends. For this purpose are on an edge standing tetrahedral hollow bodies, the lower and upper edges of which are slit are stacked in a columnar shape. This ensures that gas, liquid or streams of powder, or mixtures thereof, are forced to keep their rides to change and to hit the opposite tetrahedral surfaces. The changes in direction and the impact create powerful eddies, whereby exchange and mixing processes are favored in an ideal way. One can either use the inner surface of the hollow body for the said operation and cool or heat from the outside or, if one has a system of such tetrahedral columns densely nested, the interior space for cooling and the spaces between these Use a tetrahedral column for absorption. In addition to the aforementioned beneficial effect This mode of operation has the further great advantage of this tetrahedral arrangement the low resistance that the material flows through them Find.

These tetrahedra can now have very different shapes, depending on according to their intended use. The normal form is the regular tetrahedron (boundary surfaces = equilateral triangles), as can be seen in Fig. I. However, it can also other shapes, such as sphenoids (boundary surfaces = isosceles Triangles) (Fig. 2a and 2b) are used.

The use of such, very elongated sphenoids can, for. B. be an advantage if a powder that glides badly for the purpose of good mixing the apparatus flows through from above. When gases are absorbed by liquids on the other hand, the use of short and wide tetrahedra is preferable because then better mixing is guaranteed.

Another variation is also possible by changing the position of the tetrahedral tubes. The tubes can be arranged vertically, obliquely or horizontally will. In the horizontal position they can be used for the absorption of gases by liquids, such as hydrogen chloride, find application. In the latter case the liquid and the gases are allowed to flow countercurrently through the tubes, whereby both constantly; are forced to change their direction and cross-section. at the horizontal arrangement of the tubes, these can be mounted in such a way that the cut tetrahedron edges are vertical and horizontal or else, that they form any angle to the horizontal plane. Furthermore, one can go through Applying curved tetrahedron shapes to the slots between the tetrahedra shapes as shown in Fig. 3 ind. Due to this curvature of the surfaces, a better distribution of trickling liquids can be achieved. This effect can be reinforced by corrugated inner surfaces.

To produce larger tetrahedral tubes, the same can be made from individual elements. The elements can either be taken from the individual tetrahedra exist, which are provided with flanges for better connection are (Fig. 4), or the flanges can also be in the middle of each Tetrahedra are parallel to the opened edges of the same (Fig. 5).

In the case of the tetrahedral tubes described above, there is in the middle a continuous free space with a square cross-section. This can be used to carry out Serve a shaft on which there are stirrers, atomizers, cleaners and the like.

The described tetrahedral tubes in their various embodiments can be used for the most diverse purposes than are: mixing of Liquids, gases and solids, mechanical and electrical gas cleaning, Concentrate, condense, absorb, cool and heat, and heat exchange Regeneration, vaporization and saturation.

Such tubes are also very well suited for implementation of contact processes, since on the one hand the contact masses are well housed inside the tubes while on the other hand the possibility of good heat regulation sound outside is guaranteed.

Claims (1)

PATENT CLAIM: Process for absorbing, saturating, mixing, cooling, Evaporation and precipitation of gases, vapors, liquids and powders as well Mixtures of these bodies, characterized in that they are represented by tetraederförin ige hollow bodies or through external spaces between them can flow in such a way that that the good flows in through an open edge of the tetrahedron, on both of them opposite tetrahedron breaks and enters the next tetrahedron, while in the outer space formed by the tetrahedral columns a second stream the same or a different material is broken.