DE430077C - Process for obtaining crystals from solutions by means of cooling - Google Patents

Description

Process for obtaining crystals from solutions by means of cooling.

If solutions of test substances are cooled below their saturation temperature these substances are deposited in solid form and are deposited on the cooling surfaces at. This is undesirable in most cases because the cooling effect deteriorates will. The cooling is mostly for the purpose of separating the solid matter from the Liquid made, and this can not be scooped from the liquid or otherwise removed as long as they adhere to the cooling surface.

One therefore has devices provided with scrapers or brushes arranged. which remove the excreted substances from the cooling surfaces. With the As the size of the devices grows, however, the technical difficulties in accurately working them grow To attach scraper, and depending on the type of fabric. z. B. for hard salt crystals, the workload is considerable, and both scrapers and brushes are useful as well as the cooling surfaces, which in some cases are made of lead or copper, i.e. made of soft Metals are strong.

Attempts to avoid these disadvantages have led to the invention. the method and a device serving, for example, for its execution are explained on the basis of the drawing.

The vessel a contains that of cold brine or evaporating refrigerant Flow-through cooling system b of any shape, horizontal or vertical Tubes or cladding surfaces, as well as a sheet metal cylinder revolving around its vertical axis c and narrow blades d.

The vessel a is filled with the cooled solution so far that the cylinder c protrudes above the liquid level. The stirrer d extends close to the cylinder c; Depending on the movement required, this stirrer can be the same or opposite Direction of how the cylinder revolves (Fig.r) or can be held (Fig. 2).

The fresh solution is in the middle of the liquid column at e fed; this circles due to the adhesive effect of the outer liquid layer around the vertical axis, but at the same time the action of the stirrer creates a additional radial movement of the fluid particles caused, with the result, that the fresh solution supplied is not thrown directly onto the cylinders will, but every particle of liquid has a long way through this column of liquid through to wall c, which is tangential. and radial movement as a spiral path. The temperature difference between that in the jar cooled solution and the fresh solution supplied is in the middle of the liquid column the biggest. On the way to wall c there is a considerable heat exchange within the mixed liquid instead of so that the temperature difference between wall and the column of liquid becomes vanishingly small.

This has the consequence that the solid substances are not on the wall c set, but are precipitated within the liquid.

The outer surface c always remains pure. The cooled solution will discharged together with the excreted substances at the funnel-shaped bottom.

The rotation of the jacket c is in the space between this and the vessel wall, i.e. also within the liquid surrounding the cooling tubes, creates a lively, ring-shaped movement that transfers cold from the cooling system to the liquid and from this to the coat c very effectively designed that fresh but the solution supplied cannot get into this shell space; this contains always one and the same liquid, which, once brought to a low temperature, is none solid substances are eliminated.

The jacket and cooling surfaces remain clean, and that allows for that Process ensures uninterrupted operation with a constant excellent cooling effect.

Since the jacket c does not have to withstand liquid pressure, but is relieved, it can be made thin-walled, whereby the cold transfer further increased and manufacturing costs are vemiüalert, especially if for non-neutral liquids valuable building materials must be used.

Claims (2)

P A T E N T - A N S P R Ü C H E: I Procedure for the extraction of crystals from solutions by means of cooling, characterized in that the solution is in the inner layer is heated from the outside with the help of a cooling surface to a low temperature introduced liquid column and then through this through on a leads as long as possible to the cooling surface. 2. The method according to claim I, characterized in that the solution is stirred within a sheet metal cylinder revolving around a vertical axis in the same or opposite direction to its revolving motion, the outer surface of the cylinder using a cooling pipe system o temperature maintained liquid cools.