DE1254609B - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY DEUTSCHES WffW ^ S PATENTAMT Int. Cl .:

COIb

EDITORIAL

COIB - 3 3 / 24th ~ '3

German class: 12 i- 33/24

Number:
File number:
Registration date:
Display day:

A 45055IV a / 12 i

January 22, 1964

November 23, 1967

The invention relates to a silica-lime mass of high porosity for containers used for storage of gas and especially of acetylene in the dissolved state. If you have a porous Produces silicic acid-lime mass, as is well known, tends to consist of a suspension of silicic acid, lime and Asbestos paste consisting of a large amount of water to settle and quickly form a layer of water above the actual paste. This phenomenon is particularly annoying because on the one hand the water content fluctuates as a function of the standing time in the vats before use, and on the other hand, when the containers, which are generally elongated cylindrical in shape, are filled with the paste, fluctuates their composition before heating as a function of time. A porous mass of zu is then obtained high porosity in the upper part of the container and too low porosity in the lower part of the container. Sometimes there is even an empty space in the upper part of the container and very often a porous mass with it numerous gaps at the top of the container.

Several solutions are already known for eliminating this deficiency. In particular, you have the stabilization the paste before heating by adding inorganic suspending agents such as colloidal Clay, bentonite, salts of clay, fresh aluminum or magnesium hydroxide, aluminum sulfate, Sodium carbonate with a trace of sulphate, sodium aluminate, basic magnesium carbonate, Phosphoric acid or phosphates, boric acid or borates are provided. A method is also known in which one adds aluminum powder to the pulp, while at the same time reducing it by adding Amounts of ethyl cellulose stabilized to the deposition of the metal and a heterogeneous nature in the Avoid distribution of the reaction products. A known method also serves the same purpose, after which between 0.1 and 1%, based on the cold weight, of sugar are added.

In these methods, however, the suspending agents are not sufficiently powerful stabilizing agents. and their effect is little.

The use of "colloidal" lime to avoid this deposition of the paste is in the French U.S. Patent 1,219,720. However, this method requires the use of a Colloid mill that is regulated with the greatest possible accuracy. This leads to certain Difficulties, particularly the need for frequent adjustments and repairs to the colloid mill as a result of their rapid wear and tear.

The subject of the invention forming

Method of making a
Silica-lime mass of high porosity

Applicant:

L'Air Liquide, Societe "Anonyme pour
l'Etude et! 'Exploitation of the Procedes
Georges Claude, Paris

Representative:

Dr. H. H. Willrath, patent attorney,

Wiesbaden, Hildastr. 18th

Named as inventor:

Roland Perraudin, Bagnolet, Seine;

Claude Perrin, Paris;

Georges Sens, Antony, Seine (France)

Claimed priority:

France of February 8, 1963 (924155),

dated September 11, 1963 (947141)

driving allows a paste to be obtained which can be kept at ordinary temperature. This stabilized paste, like the bottles containing it, can easily be stored before any further treatment, so that the daily production is heated all at once in an autoclave. The aim of the invention is to achieve complete stabilization in the cold, which allows storage until it is placed in the autoclave and during the often slow filling process, which involves adding a certain amount of suspended agent. A stabilization in the warmth is in no way aimed, since a very rapid warming makes them unusable. All organic suspending agents do not allow the reaction conditions prescribed by the invention to be achieved. By heating namely in the autoclave a paste with a suspending agent, whose viscosity increases as an alkylcellulose with temperature, so is at a temperature of 70 to 9O ⁰ C to a Gelierungserscheinung, which organic considering the amount used agent to a Product of

709 689/453

very great consistency leads. The gelation of the paste emerges from the boil. In order to avoid these inconveniences, difficulties in carrying out the process can be carried out according to two different methods according to the invention. In the course of the cooking, embodiments of the method according to the invention, the bottles are provided with a porous stopper, either the paste is found before boiling in one which allows the dilatation water to escape, while the venting device is de-aerated in a vacuum or the paste is retained in the bottle. If the preparation of the paste in the absence of air rn ^ n. using a gelling product, one will perform. Under these conditions the "*" clogging of the porous stopper and, as a result, paste after boiling does not show any gaps as a result of the increase in pressure due to hydro- presence of air in the porous mass.
It was found that the density of the paste results from a deformation of the bottles. The conversion function of the trapped air content in the presence of a suspending agent that fluctuates. For an aerated paste, if one observes a liquid paste, it is already severely delayed. z. B. usually densities of 1 or 0.98. With a gelling product, this reaction is delayed even further, while with a deaerated paste, its density is almost further delayed. This results in far too 15 at the theoretical density, namely 1.2. The long cooking times that are necessary for an industrial production shrinkage is not just due to the introduction of unsustainable. Air in the paste conditionally. She was earlier than

The process of making a silica tied to the ratio of silica to lime Lime mass of high porosity considered for storage in the paste. A weight ratio of Bottled gas by boiling an aqueous paste 20 silica to lime equal to 1 gives shrinkage based on a finely divided mixture equal to 0 and a ratio of 1.22 a shrinkage Silica and lime according to the invention consists of 2.3 mm. Attempts have been made to address this in that the mass is about 0.3 to about 10 Ge determination under the working conditions of the weight percent, based on the after cooking finding to be confirmed by taking the ratio of obtained silicic acid-lime mass, an AlkylsÜicats, 25 made 1.05 to 1.55 variable. You could a hydroxyalkyl cellulose or a polyvinyl find that there is maximum shrinkage for alcohols that have no gelling point to ratios of 1.22 to 1.3 are, but that beyond puts. Preferably used for this as alkyl of these values is the shrinkage so decreases that silicate ethyl silicate and as hydroxyalkyl cellulose they z. B. was the same for the ratios 1.1 and 1.5. Hydroxyäthylcellulose or Äthylhydroxyäthylcellu- 30 For the production one uses preferably raffles, proportions of silica to lime, one

It has actually been found that the viscosity allows as little shrinkage as possible,
The weaker reactivity of the mixture plays a role in the preservation of a completely out of the paste components in the cold due to the presence of the stabilized paste, so that one does not lead to a 35 suspension medium leading to a considerable stone product of too great a consistency from the beginning of the of the cooking time, and a temperature rise of 25 hours, considering the added pressures of the order of 9 bar, the amount of suspending agent reached. On the one hand, the rule. Without this precautionary measure, shrinkage will occur after the drying process is carried out.
On the other hand, it should also be emphasized that, according to an embodiment of the invention, the viscosity of which decreases with increasing temperature, that is, the viscosity of which at low temperature can obtain compounds of very high porosity. Which is bigger. Porosity area that is now accessible extends

It has also been found that the use can be up to approximately 98% porosity. These magnifiers Amounts of organic suspending agents are obtained by attaining Koch an excellent stabilization of the duration of the paste and / or the Kochtem paste allowed. At dosages below those, temperature increases. This new embodiment gewie they are applied according to the invention, namely equips the resistance of the silica of the order of 0.15%, the stabilizing lime mass against crushing is to be increased and the It has been found to be very poor, and to reduce shrinkage, which is otherwise very considerable Mass production of with a porous silica would be borrowed.

Acid-lime mass equipped containers is under The porosity is determined according to the method of P u r c e 11 impossible under these conditions. Determined at one dose. Here the dimensions of the number of 0.3 to 10 percent by weight of said organic small pores in the mass by injection In the niche suspension medium, on the other hand, one obtains a 55 determined by mercury under pressure. The effective pore Stabilization of the paste. The diameter to be added is approximately 0.1 to 1 μ. the Amount varies with the desired stabilization porosity is expressed in relation to that degree and with the nature of the suspending agent. Volume by the compact, porous mass

As has been stated, it plays out among the occupied and empty space. In a

position conditions according to the invention a new 60 bottle of 1001 are porous mass plus empty

like appearance. At the moment the intimate space equals 100. A porosity of 90.5% means

Mixing of the finely divided silica and the fine - so that the empty space, which is then from

Partial lime will be taken with the organic suspending agents acetone and acetylene,

for the production of the silica-lime paste is 90.51 and that the compact, po-

the tendency to incorporate finely divided air into the volume occupied by the red mass is equal to 9.51.

the paste, if no special measures are taken.

takes to avoid this. These enclosed rere masses indicated that this is the subject of the

Air causes a noticeable shrinkage of the mass according to the invention-forming method.

example 1

The aqueous paste that is used to boil a silica-lime mass of high porosity deliver consists of

46 ° / »slaked lime,
40% silica,
14 ° / o canadischem asbestos and 5%, based on the total weight of basic materials _Jo, ethylsilicate to as a solution with 40% SiO ₈ in water,

2.85 parts by weight of water, based on the other substances, are added.

Example 2 * ⁵

The composition for the production of an aqueous paste which is used for the production of a silica-lime mass of high porosity, consists of

46% slaked lime, * °

40% silica,

14% Canadian asbestos and 1.5% ethyl hydroxyethyl cellulose based on the total weight of the raw materials; it becomes in the same proportion of water 2.85 parts by weight added.

The porosity of the masses obtained from pastes produced according to the invention, can reach more than 95%, and it is of the order of magnitude for the masses of the above examples of 89%.

Example 3 A paste is made

46 parts slaked lime,
40 parts of silica,
14 parts asbestos.

To this end, so much water is added that it is 6.4 times the weight of the water, based on the total weight the basic ingredients, and then sets an organic suspending agent that has no gelling point results in an amount that corresponds to 3 percent by weight of the base materials. After cooking the Paste for 24 hours under a pressure of bar gives a porous silica-lime mass of 95.3% porosity.

The resistance to compression in these masses is 25 to 40 bar and is immediate Function of shrinkage. Maximum shrinkage corresponds to maximum resistance. It it was found that the ethyl silicate has a beneficial influence on the compressive strength. If you are the If a suspension agent other than ethyl silicate is added to the paste, colloidal silica can be added make, which has the same influence on the compressive strength as the ethyl silicate.

Claims (5)

Patent claims: 1. Process for the production of a silica-lime mass of high porosity for storage of gas in bottles by boiling an aqueous paste based on a finely divided mixture from silica and lime, thereby characterized in that one of the mass about 0.3 to about 10 percent by weight, based on the Silica-lime mass of an alkyl silicate, a hydroxylalkyl cellulose, obtained after boiling or a polyvinyl alcohol which does not have a gel point. 2. The method according to claim 1, characterized in that ethyl silicate, hydroxyethyl cellulose or ethyl hydroxyethyl cellulose is used. 3. The method according to claim 1, characterized in that the aqueous paste is added after addition of alkyl silicate, hydroxyalkyl cellulose or polyvinyl alcohol, but before cooking, vented. 4. The method according to claim 1 to 3, characterized in that the paste is in a vacuum manufactures. 5. The method according to claim 1 to 4, characterized in that the paste is colloidal Silica adds. Considered publications:
German Patent Nos. 586 534, 726 925, 638, 973 667.