DE10028990A1 - Process for removal of water from the bottom of oil storage containers, involves absorption using a crosslinked hydrogel-forming polymer in compact solid form - Google Patents

Abstract

A method for removing water from the bottom of oil storage containers by introducing a water-absorbing material into the water and removing the water-containing material from the container comprises using a water-absorbing material (I) comprising a crosslinked hydrogel-forming polymer in compact solid form. An independent claim is also included for the production of (I) by casting a polymerization-ready liquid monomer reaction mixture in a mold, optionally in the presence of materials with a high surface area and/or a capillary or fibrous structure, and drying and packaging the product.

Description

The invention relates to a method for removal of water from storage containers filled with oil or fuel ters and tanks using a water-absorbing material terials, according to the preamble of claim 1. The invention also includes a method of making the Material.

In particular condensed water, which due to its ver equally larger specific gravity in the deepest accumulated locations of such containers and tanks, can cause significant corrosion in the container or tank, in the lei in the pumps and other points of the respective system cause stems. Breakdowns of internal combustion engines, Oil burners etc. can be the result. Located in lines Freezing water can clog them.

There has been no shortage of attempts, the unwanted what water as completely as possible from such containers and tanks remove. Draining or vacuuming is common and what is separated from the oil or fuel by separation sers. Here, however, it is rarely possible to drain off only the water or vacuum. Rather, it does with the water too more or less large amounts of oil / fuel from the container ter / tank drained or vacuumed. Such mixtures can not just to be disposed of or burned, but have to be be processed for material separation, which means additional costs caused.  

Housed in tear-resistant covers are also known Suction fillings made of unspecified material. This Suction units are in cylindrical plastic protective sleeves of different diameters. The diameter is chosen smaller than the relevant tank opening, so the suction units are both introduced into the tank as well can be removed from. These well-known suction units ("New Pig" company brochure from New Pig Corporation, Tipton, PA, USA, from 1997, "Water Hog-Wasserfresser") are with equipped with a hauling line and are supposed to be every three months change. The water absorption capacity of these be Known suction units is relatively small. The cylin Drical design prevents a large area close to the ground Positioning the absorbent material.

They are usually made of volatile coals Hydrogen existing means known that the condensation drain faster on the tank wall. This means are not with water, but with z. B. the fuel is miscible, are easily burned and work in higher concentrations corrosion-inhibiting. However, these funds can, apart from of the costs incurred, do not prevent larger amounts when draining or sucking off the condensed water Fuel is drawn off with.

The invention has for its object a method of provide the type specified at the outset, with which water easily and simply without oil or fuel Lusts can be removed from containers and tanks.

The object is achieved by the features of claim 1 solved. Advantageous further training emerge from the subclaims and are subsequently also described in more detail.  

The material used according to the invention is for other applications also known under the name "Superabsorber" (DE 39 04 642 A1). Very essential for the Ver driving is the application of this an extreme water absorption capacitive material as a solid compact form fancy. This makes the superabsorbent material easy handle and can each for the respective purpose on experienced the best suitable design.

Advantageously contains what is to be introduced into the water accumulation Superabsorbent material with the substances specified in claim 2 large surface structure and / or capillary and / or chamfer structure. These substances distribute the absorbed water quickly and evenly through capillary effects in the super absorber material and at the same time provide reinforcement for the team hold of the shape.

For the super absorber to be introduced into the water accumulation material are the polymers specified in claim 3 Available. Preferably, those mentioned in claim 4 Polymers used.

As fabrics with a large surface structure and / or capillary and / or fibrous structure are those specified in claim 5 Materials and their mixtures for the inventive Ver drive well suited. The selected fabrics or fabrics the reaction occurring during the polymerization can withstand temperature without material changes.

So much for the aforementioned substances or mixtures of plastics are or contain, that specified in claim 6 Be plastics. If it is fibrous plastics it is advantageous if they are used as mats or fleece cloths are used.  

The absorbent material can its components, namely that Polymers on the one hand and the water distributing and the molding on the other hand, form reinforcing materials, vary within wide limits bar contained, as indicated in claim 7, namely in Amounts of 10 to 90 wt .-%, but preferably 30 to 70% by weight.

To prevent bacterial infestation, this can be done in the water collection material to be brought in as from claim 8 Lich contain a disinfectant.

In claim 9 is a method for producing a ver material containing hydrogel-forming polymers for the removal of water accumulations from the floor area of Storage containers and tanks for oil and fuel accordingly the method described above. Distinguishing nend for this manufacturing process is that the liquid Polymerization-ready yet monomeric reaction mixture in a Poured the mold and put it into a gel-like shape is polymerized body, which is then dried and for use as a solid, compact shape for receiving and removal of the water accumulation. Should the superabsorbent molded body according to substances or mixtures contain claims 2 and 5, these can the reaction approach mixed or in a suitable structure previously in the form are inserted so that these substances or Stoffgemi are always present during the polymerization and distributed in the resulting gel-like molded body be bedded.

According to claim 10, the shape during the Polymerisa tion are blanketed with nitrogen to prevent access from Avoid atmospheric oxygen.  

The form in which the monomeric reaction mixture is poured can have any desired geometric shape in order to to achieve correspondingly shaped structures. In this way can, for example, plate-shaped, but also rod-shaped shaped, tubular or even approximately spherical shapes be generated.

The gel-like molded article can also be dried first cut into sections of the desired geometric shape are then dried and made up before they are used as indicated in claim 11. After the from An Proof 12 alternative can be the gel-like form But the body must also be dried first before being partially pieces of the desired geometric shape is cut, the then be assembled afterwards.

For certain applications it can be advantageous if according to Claim 13 of the gel-like molded body or its sections a residual moisture content of <3% can be dried. Such a form body is not completely rigid, but can deform, for example, to get the wall shape of containers and tanks to be able to adapt so that even the lowest lying Be rich areas of water are accessible.

If the molded body or its parts are disinfected medium is to be incorporated, the dried Shaped body or its sections, which one aqueous solution of the desired disinfectant remains, whereupon the moisture content of the Shaped body or its parts brought to about 2 to 3% is as indicated in claim 14.

The assembly of the molded body or its parts takes place advantageously according to the Ver specified in claim 15 drive. After this, the molded body or its parts  after drying in mesh-like, d. H. liquid- permeable plastic bags given, which then ge be closed so that the molded body or its parts are encased captively. The dimensions These plastic bags are to be chosen so large that the bags can absorb the expected swelling volume of the moldings NEN. For the transport and storage the in the mesh-like plastic bags located in rivers Protective covers made of plastic film that can be sealed tightly given, which of course is removed in the event of an operation before it is introduced into the water accumulation. There the material containing the superabsorbent is specifically heavier is as oil, fuel and water, the molded body sinks up to the bottom of the containers and tanks under the influence of gravity from.

In the following examples, the preparation of the monomeric and polymeric material as well as the production described a solid compact shape.

example 1

1400 g of powdered sodium hydrogen carbonate (NaHCO ₃ ) were stirred into 3828.7 g of drinking water at room temperature and brought to solution. First separately, 6.0 g of allyl methacrylate were mixed with 2000.0 g of acrylic acid. This mixture was then slowly dripped into the NaHCO ₃ solution, taking into account the strong foaming (CO ₂ ), and stirred. The temperature was set to 10 to 12 ° C, at low temperature with the immersion heater, at high temperature by cooling. The acrylic acid batch was blanketed with nitrogen.

Furthermore, 1.66 g of 2,2-azobisamidinopropane dihydrochloride in 20.0 g drinking water and 3.33 g potassium persulfate in 150 g  Drinking water dissolved. Both solutions were stirred Acrylic acid approach added.

Finally, a starter solution of 0.5 ascorbic acid and 25.0 g of drinking water produced. This starter solution was the prepared as described above under Stir added and the resulting monomeric reaction mixture then for polymer formation as indicated in Example 2 further processed.

Example 2

A shaping flat plastic tub was created with a partition foil made of polypropylene or polyethylene. Then was a fleece-like fiber mat made of polypropylene in the Plastic tub inserted. The monomeric reaction mass Example 1 was in the mold pan prepared in this way cast up to about 30 mm high. During the now as exo Thermal reaction proceeding polymerization was the form tub overlaid with nitrogen.

The polymerization was complete after about 60 minutes, and the result was used a gelarti plate that can be removed from the mold tray low but manageable consistency. The plate could go in immediately Cut pieces of the desired size and shape or before cutting completely or to a desired residual moisture of <3% can be dried. The dried plate or the pieces cut from it could be an aqueous 0.5 to 1% solution from Preventol (brand of Bayer) up to one Moisture content of about 2 to 3% as a disinfectant be incorporated.  

Example 3

For assembling the plates obtained according to Example 2 pieces were placed in mesh-like bags made of polypropylene pushed, the dimensions of the swellability of the plates pieces were correspondingly larger than the plate pieces. to in the end the mesh-like bags became complete enclosed sheet pieces in protective covers made of polyethylene foil, which were sealed tightly to one Moisture entry and exit to and from the panels pieces and to avoid contamination.

Before insertion into the neck or opening of a tank the protective cover has been removed and only such Plate sizes inserted into the nozzle or opening, de source dimensions, the mares can easily remove them zen or enabled the opening through. For removal was a cord or the like is connected to the net-like bag.

With such a piece of plate with the dimensions Solutions of about 70 × 30 × 10 mm could be from an oil storage facility about 8000 g of condensed water are removed, the Water absorption had ended after about 24 hours. A double tion of the starting plate weight by water absorption after just 10 minutes. The water removal was possible after repeated repetition with new plate pieces prak table completely because the plate pieces, especially if they were flexible due to the set residual moisture were to form fit the bottom of the container and thus also the water accumulations located at the bottom to reach. It turned out that even the slime-like intermediate layers between water and oil phase have been removed.  

There is a method for removing condensation in particular water accumulation from the bottom areas of with oil, propellant fabrics u. Filled storage containers, tanks and the like. Like. featured beat, in which a solid compact, from a Superab sorber material made into the water accumulation introduced and removed after water absorption. The Shaped structures preferably contain reinforcing and in the superabsorber ber-Material water-distributing substances or mixtures with a large surface structure and / or capillary and / or fibrous structure. A Her is also proposed Positioning process for the water-absorbing structures.

Claims (15)

1. A method of removing water, in particular condensate water that is on the bottom of storage containers for oil and. Like., In particular from fuel and oil tanks, accumulated by a water-absorbing material that can be introduced into the water accumulation and that can be removed together with the absorbed water from the storage container or tank, characterized in that in the water accumulation a material that crosslinked hydrogels contains forming polymers, is introduced as a solid compact compact structure. 2. The method according to claim 1, characterized in that the material brought into the water accumulation with fabrics large surface structure and / or capillary and / or chamfer structure, which is evenly distributed with the cross-linked hydrogels forming polymers to a solid one are connected. 3. The method according to claim 1 or 2, characterized in that the material introduced into the water accumulation is polymers contains, by polymerization of olefinic monomers, such as acrylic acid, acrylic acid amide, methacrylic acid amide, vinyl sul fonic acid, maleic acid, fumaric acid, crotonic acid, 2-acrylamido 2-methyl-propanesulfonic acid, 2-acrylamido-2-methyl-propanephos phonic acid, vinyl phosphoric acid and / or their half esters and / or salts of the acids mentioned, in the presence of up to 2% by weight multifunctional epoxies or monomers with at least two olefinically unsaturated double bonds, such as bisacrylic amidoacetic acid, trimethylolpropane triacrylate and / or tetra alkyloxyethane were obtained. 4. The method according to claim 3, characterized in that the material polymer introduced into the water accumulation  contains by polymerization of acrylic acid amide and / or Acrylic acid and / or a salt thereof in the presence of up to 2% by weight Bisacrylamidoacetic acid, trimethylolpropane triacrylate and / or tetraalkyloxyethane were obtained. 5. The method according to any one of claims 2 to 4, characterized ge indicates that the fabrics with a large surface structure and / or capillary and / or fibrous structure individually or in Combinations are selected from the materials peat, saw chips, wood flour, wood wool, straw, grass, paper fibers, cells fabric, coconut fiber, sisal fiber, flax, cotton, hemp and fibrous, ground, sprayed or extruded art materials. 6. The method according to claim 5, characterized in that the plastics are selected from the polyurethane group foam, polyethylene, polypropylene, polyamides and the fibrous plastics in the form of mats or fleece cloths be used. 7. The method according to claims 1 and 2, characterized records that the polymer forming the crosslinked hydrogels and the fabrics with a large surface structure and / or kapil Larem and / or fibrous structure containing this material constituents in amounts of 10 to 90 wt .-%, preferably 30 to 70 wt .-% contains. 8. The method according to any one of claims 1 to 7, characterized ge indicates that what is to be brought into the water accumulation Material up to 10 wt .-%, preferably up to 5 wt .-%, one Contains disinfectant. 9. Process for producing a cross-linked hydrogel bil material containing polymer for the removal of  Water, especially condensed water, that is at the bottom of La containers for oil u. Like., In particular of fuel and Oil tanks, accumulated, by introducing the water-absorbing Material in the water accumulation, the finished polymeri material at least the composition accordingly one of the preceding claims, characterized records that the liquid polymerizable monomer Reaction batch if necessary in the presence of a substance or substance mix with large surface structure and / or capillary and / or fibrous structure is poured into a mold and, if necessary, with embedding of the aforementioned substance or mixture of substances is polymerized to a gel-like molded body, which finally dried and for use as a solid compact Shaped form for the removal of water accumulation becomes. 10. The method according to claim 9, characterized in that the shape overlaid with nitrogen during the polymerization becomes. 11. The method according to claim 9 or 10, characterized in net that the gel-like molded body ge first in sections desired geometric shape is cut before this then dried and made up. 12. The method according to claim 9 or 10, characterized in net that the gel-like molded body is first dried, before being cut into pieces of the desired geometric shape is cut, which are then assembled. 13. The method according to any one of claims 9 to 12, characterized ge indicates that the gel-like molded body or its part pieces are dried to a residual moisture of <3%.   14. The method according to any one of claims 9 to 12, characterized ge indicates that the dried molded article or its Sections of an aqueous 0.5 to 1% solution of a desin and the moisture content is brought about 2 to 3%. 15. The method according to any one of claims 9 to 14, characterized ge indicates that the molded body or its sections for Packing after the drying process into net-like Plastic bags are given whose dimensions are larger than the molded body or its parts and on the expected The corresponding swelling dimension is adjusted according to the water absorption are on which the bags are closed and for transport and Storage in moisture-proof closable protective covers Plastic film can be given.