DE1258832B - Soluble granular desiccant - Google Patents

Description

Soluble Granular Desiccant There are already many types of desiccants known for gases. One of the most popular desiccants is granular porous calcium chloride. When water is absorbed, this salt dissolves, the porosity is lost, and that further passage of gases becomes impossible.

In order to avoid this problem, which also occurs with other hygroscopic salts, such as lithium chloride, zinc chloride and magnesium chloride, has to remedy desiccants were developed early on, which consist of solid, insoluble porous supports, such as activated charcoal or pumice stone, and with a hygroscopic salt, such as Calcium chloride, are impregnated.

For example, a desiccant for gases is known that consists of hygroscopic Substances such as calcium chloride, zinc chloride, magnesium chloride, potassium carbonate or Glycerin impregnated activated carbon. The porous activated carbon can do the contain hygroscopic substance in amounts up to 30% of their own weight.

A similar desiccant is also known in which the activated carbon is particularly fine-pored.

Furthermore, desiccants made of pumice stone and phosphorus pentoxide are known, To make them, the pumice stone is first mixed with small amounts of syrupy metaphosphoric acid is impregnated, whereupon the powdery phosphorus pentoxide is applied.

All of these known desiccants suffer from the disadvantage that the pores of the carrier are when water is absorbed by the hygroscopic substance clog, so that the desiccant is impermeable to the gases to be dried.

This disadvantage also applies to a known method of manufacture of dry matter for gases with deliquescent salts, such as calcium chloride, which are in the pores of a carrier such as pumice stone are added. This will be used for watering of the porous carrier very dilute solutions of the hygroscopic substance (e.g. a 7% calcium chloride solution) is used to get into the pores of the support just like that Separate small amounts of the hygroscopic substance that the water absorption solution resulting from the gases finds space in the pores of the carrier and does not expires. The purpose of this measure is to prevent a loss of desiccant due to runoff to prevent the aqueous solution of the hygroscopic substance. The clogging of the Pores, at least partially, are not prevented by this measure either, since the pores are solid, rigid, porous, insoluble in water, as in all Carriers with increasing water absorption gradually more and more with the solution of the fill hygroscopic material so that even in this case it was originally strong porous desiccant gradually becomes more and more impermeable to gases.

The invention is based on the object of avoiding this disadvantage and to provide a porous desiccant for gases, its porous structure is retained during the drying process.

This is achieved by using a soluble granular desiccant in the form of porous moldings according to the invention, the moldings to 90 to 97 percent by weight from one of the less hygroscopic soluble substances sugar, sodium chloride, potassium chloride, Potassium nitrate, sodium nitrate, tartaric acid or calcium acetate as a porous core and to 10 to 3 percent by weight from one of the more hygroscopic substances calcium chloride, Lithium chloride, zinc chloride, calcium bromide or glycerin, with which at least the surface of the porous core is soaked, and that its size is 0.4 to 25.4 mm.

Although it is already using a melt of calcium chloride or magnesium chloride and sodium chloride known as desiccants in the proportion of the sodium chloride is about 75 to 80 percent by weight. The melt is in shredded lumpy form used as a desiccant. In contrast to the present one Invention, it is not a porous body made of sodium chloride, which is soaked with calcium chloride, but a mixed salt made of sodium chloride and calcium chloride (or magnesium chloride). Since this mixed salt is 75 to 80% consists of the only slightly hygroscopic table salt, it is far less hygroscopic than pure calcium chloride, so that moisture absorption with such Desiccant takes place much more slowly than having a desiccant attached to its Surface contains free calcium chloride. This known desiccants has therefore not caught on in practice.

If moist gases pass through the desiccant according to the invention, the moisture is deposited through the on the surfaces of the porous support absorbs more hygroscopic substance, so that this substance dissolves because it goes into solution first. But since the porous carrier is also made of a water-soluble one If there is a substance, it also progressively dissolves if there are more moist gases be passed through the desiccant and more water is absorbed. Hence can the pores of the porous carrier are not clogged here.

The size of the molded body is important because it increases the surface area the outside of the molded body exposed to the humid air is determined and this a considerable influence on the caking of the layer of shaped bodies and the tendency of the air to flow through the layer in the form of channels. The minimum size of the moldings is most important because moldings are too small Oppose too high a resistance to the air flow. It has been found that molded articles from 0.4 to 25.4 mm in the smallest dimension are satisfactory, with molded bodies between 12.7 and 25.4 mm are preferred. Moldings in this size range provide the most favorable air flow and provide the air flow with a sufficient one large surface to allow sufficient drying for technical purposes achieve.

The desiccant to be used in the context of the invention can consist of Sodium chloride moldings with a grain size of 0.4 to 25.4 mm exist, the saturated with calcium chloride, sodium dichromate and trisodium phosphate in liquid form have been. The proportions of the ingredients are as follows:% by weight Sodium chloride .. 90 to 97 calcium chloride ..... 3 to 10 sodium dichromate 0, 01 trisodium phosphate ..... 0.01 A particular example within the above ranges is the following: Sodium Chloride ... 45.36 kg calcium chloride ...... 2.27 kg sodium dichromate .... 28.3 g trisodium phosphate ...... 28.3 g Another particular example is the following: weight percent C6H12O6 (sugar) .... 90 to 97 CaCl2 ........ 3 to 10 In the above examples, the substances used as small bricks. The briquettes can be made by an aqueous solution of, for example, 453.6 g of calcium chloride in 1.1361 of water mixed with the soluble sugar or salt tablets. The size of the moldings should be in the range given above so that the surfaces of the Exposed to air and thus a sufficient air flow sweep through the layer can. The sodium chloride briquettes can be heated if the calcium chloride is added so that the calcium chloride takes the form body can water better because a hot calcium chloride solution is considerably more concentrated than a cold one. the Shaped bodies can be heated up to 260 ° C. A temperature of 38 ° C has become proved to be satisfactory.

If the soluble substance is first heated to around §2 ° C, can thereby the degree of penetration of the solution of the hygroscopic substance into the soluble one Carriers are increased.

The sodium chloride acts as a soluble carrier in the form of an one-of-a-kind Piece of existing molding.

The calcium chloride transfers the moisture from the air to the Sodium chloride and dissolves it. Trisodium phosphate is an alkaline oil emulsifier, which emulsifies any oil that is entrained in the air stream so that the resulting liquid drips into the sump of the drying device. The sodium dichromate prevents the metal parts of the container from rusting and gives the product a pleasing color.

If more than 10% calcium chloride is used, the mass can of sodium chloride and calcium chloride solidify or cake together so that the passage of air If less than 1% calcium chloride is used, then the calcium chloride has insufficient effect on the attraction of moisture to the wearer.

Table A gives a list of the soluble ones which can be used according to the invention Carrier, Table B gives a list of the hygroscopic which can be used according to the invention Substances and Table C indicates a substance that is compatible with the other two types of substances can be used together to suppress the corrosive effect. Tabel D is a list of examples of rust preventives that go along with the others Fabrics can be used.

Table A CiOn (sugar) NaCl KCI KNOs NANA, C4H6O5 (tartaric acid) Ca (C2H3O2) 2 Table B CaCl2 LiCl ZnCl2 CaBr2 Glycerin Table C Na3PO4 Table D Na2Cr207 Zn (Metal) Mg (metal) For further explanation, reference is made to the drawings.

F i g. 1 is a longitudinal section through a drying container; Fig. Figure 2 is a view similar to Figure 1, but of a different embodiment of the drying container.

F i g. 1 shows a drying container 10 having one with a lid Filling opening 11 provided for filling in the molded articles 16. The liquid level of the water removed from the air is shown at 14.

This water can be drawn off through the tap 24 from time to time. The partition 30 divides the container 10 into a sump 17 and an upper part, the the moldings 16 picks up. The partition 30 has a porous one on one side Part 15 made of coarse-meshed wire mesh. The moldings 16 rest on the septum 30th

The air to be dried flows through the inlet opening 18 into the container 10 and in a uniform manner upward through the moldings 16 to the outlet opening 20th

The septum 30 has the shape of a truncated cone with the outer Perimeter of its base is attached to the inner periphery of the container 10. The openings in the septum 30 are preferably on the order of magnitude in diameter of 6.35 mm, and the wire of the part of the septum designed as a wire mesh 30 has a diameter of about 3.175 mm. The desiccant is granular and takes, when it comes to rest in the drying device 12, which is shown in FIG. 1 shown Form of bed, which roughly corresponds to a cone. Because the bigger Grains of salt accumulate on the periphery of the base of the cone, strokes the air from the inlet opening 18 through the cone evenly over the area of the Grains away. Therefore some of the air passes through the middle of the bed, as indicated by the arrows, while the rest of the air is at the edges next to the base.

The in F i g. The drying device 112 shown in FIG. 2 has a container 110 with an inlet 132 and an outlet 120. The inlet 132 is bent so that the incoming air executes a downward swirling motion, causing something to be carried away Water is thrown out. The outer edge of the solid baffle 130 is attached at 121 to the inside of the container 110. The baffle 115 has a massive middle section and is on at a distance standing places on the perimeter of the Container 110 attached so that the air can flow around the baffle 115, as indicated by the arrows. The deflection plate 118 is designed similarly like the baffle 130.

When desiccant 116 falls through opening 111 and becomes visible the baffle 118 settles, it assumes, as shown, a cone shape, and a part the same falls through the central opening of the baffle 118 onto the central part the baffle 115.

Because the coarser grains of the desiccant 116 have their natural position Seek to reach next to the outer edge of the baffle 118, the air flows evenly through the desiccant 116, as indicated by the arrows, and since the salt is hygroscopic, it absorbs moisture from the air, and the absorbed moisture goes into solution, flows down and collects in the sump 117 at 114. An outlet 124 is used for occasional emptying of the sump 117.

Claims (2)

Claims: 1. Soluble granular desiccant in the form of porous briquettes, that is, the briquettes 90 to 97 percent by weight of one of the less hygroscopic soluble substances Sugar, sodium chloride, potassium chloride, potassium nitrate, sodium nitrate, or tartaric acid Calcium acetate as a porous core and 10 to 3 percent by weight from one of the stronger hygroscopic substances calcium chloride, lithium chloride, zinc chloride, calcium bromide or glycerin, with which at least the surface of the porous core is impregnated and that their size in the smallest dimension is 0.4 to 25.4 mm. 2. Desiccant according to claim 1, characterized in that the more hygroscopic substance a small amount of a substance with anti-rust Features. Considered publications: German Patent Specifications No. 247 951, 259 574, 441054, 620387, 820892.