DE2427993C2 - Earth sealing agent for the formation of an earth enclosure - Google Patents

Description

Exemplary of other water-soluble dispersants useful herein are the water-soluble salts of Leonardlts. Leonardlt is a naturally occurring mineral (it is found e.g. in North Dakota) and contains humic acid. It is sometimes viewed as a naturally oxidized lignite. A water soluble one The salt of Leonardlt can be obtained by reacting Leonardlt with an alkali compound, e.g. B. sodium hydroxide be prepared, whereby the corresponding salt is formed, e.g. B. the sodium salt, if to Sodium hydroxide is used. Other useful water-soluble salts of leonardite are those of alkali metals such as sodium, potassium and lithium, as well as ammonium salts. It should be emphasized, however, that the salts mentioned are mentioned by way of example and that every water-soluble salt of leonardite is useful Is.

The preferred water soluble polymer according to the invention is polyacrylic acid. As is well known, they can Salts of polyacrylic acid can be polymerized directly from the salts of acrylic acid. If necessary, can the salt of polyacrylic acid can be acidified to obtain polyacrylic acid. According to this invention polyacrylic acid per se can be used, or preferably its water-soluble salts.

Other water soluble polymers that can be used in accordance with the invention are hydrolyzed Polyacrylonitrile, polyvinyl acetate and polyvinyl alcohol. In addition, copolymers of the compounds mentioned are also used and preferably the copolymers of polyacrylic acid and polyacrylonitrile, Polyvinyl acetate, or polyvinyl alcohol. Another preferred copolymer is the copolymer of acrylic acid and maleic anhydride.

The above polymers preferably have a molecular weight of at least 100,000 and preferably 150,000 or more. The preferred molecular weight Holds between 500,000 and 200,000 or more.

The amount of the water-soluble polymer contained in the soil sealing composition according to the invention is used is in a range of 0.1 to 3 wt. S6, with a preferred range of 0.5 up to 2 or 3% by weight. The weight ratio of the water-soluble dispersant to the water-soluble Polymer is from 6: 1 to 1: 6.

The soil sealing composition is very easily made by essentially dry Mixing bentonite, the water-soluble polymer and the water-soluble dispersant, wherein a dry, granulated or powdery mixture is achieved in this way. This dry composition can can be easily introduced into the soil by simply mixing them.

To show the unexpected effect of the composition, a quartz sand with 30% void volume was used. To the 5.08 cm (2 inch) thick sand was added 22.1 kg / m ² (4.4 pounds per square foot) of untreated benton oil. The same amount of a composition according to the invention was added to an identical sample of sand. The soil sealing composition contained the following components: 99% by weight of sodium bentonite, 0.5% by weight of sodium polyacrylate and 0.5% by weight of sodium acid pyrophosphate.

Both sand samples were exposed to tap water for 24 hours layered at a height of 30.48 cm. An aqueous 10% sodium chloride solution was then added added and permeability measurements carried out. The results were as follows:

Time untreated treated Bentonite Bentonite 0 5.OxIO- ⁶ 5.OxIO- ⁶ 96 hours 9.2x10- * 4.8 χ ΙΟ " ⁶ 120 hours 5.0xl0- ^s 4.IxIO- ⁶ 144 hours 5.OxIO- ⁵ 4-lxlO " ⁶ 168 hours 5.1 χ ΙΟ " ⁵ 4.OxIO- *

Permeability was measured in centimeters per second per foot of head. After 168 hours the permeability of the treated material was only 10 "* cm / sec, whereas the untreated material had a permeability of 10" ⁵ cm / sec. showed, from which it can be seen that the treated material was better by a factor of 10.

Instead of the sodium polyacrylate used in the example above, one of the polymers could also be used the acrylic acid can be used with vinyl acetate, vinyl alcohol or maleic anhydride. Additionally can hydrolyzed polyacrylonitrile can also be used with a good result.

The particular amount of soil sealing composition to be added to the Er (Js is not critical. Good results have been obtained with an addition between 16 kg / m ² and 32 kg / m 1 soil up to 160 to 320 kg / m ¹ and even 720 or 930 kg / m ^1. The amount of addition depends on the porosity of the earth.

Claims (1)

Claim: Soil sealing agent door the formation of an earth enclosure that prevents the seepage of water laden with water-soluble waste salts, with a content of BSntontt and a water-soluble dispersant, characterized in that it also contains one of the water-soluble polymers polyacrylic acid, salts of polyacrylic ίο acid, hydrolyzed polyacrylonitrile, polyvinyl acetate, polyvinyl alcohol, copolymers of the compounds mentioned or acrylic acid-malelic anhydride copolymers, the amount of the dispersant and the polymer in each case from 0.1 to is 3 wt .- * and the weight ratio of dispersant to polymer 6: 1 to 1: 6. 20th The invention relates to a soil sealing means for the formation of an earth enclosure which prevents seepage a water loaded with water-soluble waste salts prevented, with a content of bentonite and a water soluble dispersant. From DE-PS 9 05 597 is a composition for education a water-retaining containment known that prevents the seepage of water. With this method for sealing and short-term plastic stiffening (solidification) of loess, loam, sand, gravel, gravel and similar fine-grained to coarse-grained, kür.itlfchen and natural soil types are these Soil types that form sealing and hydrating ones by themselves in an approximately determinable time Precipitation leading solutions of water glass and sodium carbonate mixed together. It can't either binding and highly permeable soil types hydrating clay minerals such as B. Bentonite added will. According to DE-PS 9 36 559, the sodium carbonate can be replaced by other suitable alkali salts such as, for. B. Alkali phosphates are replaced. With the known compositions it is possible to produce water-retentive containments that Prevent seepage of water, but these soil sealing compositions are generally not able to reliably prevent the seepage of aqueous solutions containing industrial waste salts impede. The bentonite contained in these soil sealing compositions is usually through the industrial waste salt containing aqueous solutions decomposed, so that the treated soil for such Solutions becomes permeable again. The object of the invention was to find a soil sealing composition which treated the Made soil impermeable to aqueous solutions of any kind, including those containing industrial waste salts high concentration. According to the invention, this object was achieved in that the soil sealing agent additionally contains one of the water-soluble polymers polyacrylic acid, salts of polyacrylic acid, hydrolysed polyacrylonitrile, polyvinyl acetate, polyvinyl alcohol, copolymers of the compounds mentioned or Acrylic acid-maleic anhydride copolymers, the amount of the dispersant and the polymer in each case 0.1 to 3 wt .-% and the Gew The ratio of dispersant to polymer is 6: 1 to 1: 6. The term "earth" stands for sand, clay, sandy earth, topsoil, etc. It is of no importance for the present invention which type of soil is used as the soil sealing composition swells and the voids themselves the most porous types of earth, z. B. Quartz sand with a large grain diameter. The bentonite used is one which hydrates in the presence of water; H. swells. A preferred one Bentonite Is sodium bentonite, which is essentially made up of a hydratable montmorlll clay with sodium as the prevailing exchange. The bentonite used can, however, also contain other cations such as magnesium and iron. The special cation contained in bentonite is not important, it has to be only be replaceable or interchangeable. *, Vie already mentioned, the sodium bentonite swells in water and is therefore the best type of bentonite can be used. So that the bentonite prevents polluted water that contains water-soluble industrial salts such as sodium chloride or calcium chloride from seeping away it is absolutely necessary that the soil sealing composition have a certain type of contains water-soluble dispersant and a water-soluble polymer. The water-soluble dispersant may be a water-soluble salt of phosphoric acid (a phosphate) such as Be hypophosphate, orthophosphate, metaphosphate and pyrophosphate. The special cation that the Salt shapes. Is not important, provided that the salt is water soluble. For example, the cation can be formed by almost any metal, such as an alkali metal or an alkaline earth metal. Representative of the alkali metal salts are sodium orthophosphates, sodium orthophosphates, sodium metaphosphates and Sodium pyrophosphates. Other alkali metals useful in making phosphate salts can be can also be used, such as B. Kalumorthophosphat, Kalumhydrophosphat, Kaltumpyrophosphat and Lithium phosphate. Calcium monophosphate can be mentioned as an example of an alkaline earth metal. As mentioned above, the water-soluble ones make Phosphoric acid salts are excellent dispersants, but other water-soluble ones can also be used Dispersants are used. So z. B. water-soluble sulfates can be used, with a hydrophobic group attached to the sulfate group. Such compounds have the formula ROSO ₃ X, where R is any hydrocarbon group having between 8 and 32 carbon atoms, but preferably consists of 8 to 22 carbon atoms, and X is an alkali metal or ammonium. Preferably, R in the above formula consists of a higher aliphatic compound, e.g. B. a higher alkyl. A preferred compound in which R is a higher aliphatic compound is sodium lauryl sulfate. As is known, sodium lauryl sulfate consists of a mixture of fatty alcohols obtained from coconut oil, the fatty alcohols having between 8 and 18 carbon atoms, and lauryl alcohol makes up the largest proportion (approximately 49%). Other allphatic sulphates are sodium cetyl sulphate, sodium stearyl sulphate and sodium stearyl sulphate. Sulphates derived from fish oils are also useful.