DE19962197A1 - Absorber, preferably substance for taking up and / or exchanging ions - Google Patents

Abstract

The invention relates to a fertilizer that is characterized by at least one biodegradable and/or soil-compatible parent substance that carries groups that are capable of exchanging or scavenging ions, and/or structures to which ions are attached that indirectly or directly promote plant growth. The inventive fertilizer is produced by introducing at least one biodegradable and/or soil-compatible substance capable of ion absorption into a ion-containing fluid, absorbing at least one ion type that indirectly or directly promotes plant growth from the fluid into or onto the biodegradable and/or soil-compatible substance and obtaining the substance charged with the at least one ion type from the fluid.

Description

State of the art

Ion exchangers, especially for cations, are widely known and work primarily on a physical basis via distillation, reverse osmosis and electrodialysis. Biological / chemical processes are mainly based on Activated carbon and cellulose with bacteria or make z. B., certain natural properties in minerals or barks to take advantage of them Exchange capacity but usually does not exceed 5-100 meq / 100 g. On Use for drinking water is because of the delivery of basic components from it to the fluid often not possible. Both types of exchangers are common connected with an elaborate technology. So are regenerative, z. B. on Exchanges based on chloride ions result in health concerns damaged by corrosion or left behind, usually with their Functional parts on non-biodegradable synthetic polymers or based on inorganic substances, hazardous waste to be disposed of and can therefore the worldwide existing water problems, in particular the do not solve rising salinization within it.

The task now was to produce an inexpensive, easy-to-use, to create biologically compatible ion exchangers. This should in particular water-polluting anions of z. B. source, bottom, well, Surface and industrial wastewater for the purpose of economic use, so far not or hardly usable Water resources.

Surprisingly, this task could now be solved with materials for the actual filter body, which is usual in the preferred versions are biodegradable and often more industrial from inexpensive residues Manufacturing originate.

In the different possible through different use of materials Embodiments are both ion exchange and fractionation feasible by absorption or adsorption in a fluid. By for the  Different components can be used for filter bodies and functional supports as well as mixtures thereof, combined effects can also be achieved with anions as well as cations like even between these types of ions.

A particular advantage has turned out to be that the one preferred solution used filter body (nitrate from water), according to their Use for the first time an effective subsequent use as agricultural Allow combination fertilizers.

The absorption capacity for nitrate is often above 50 meq / g.

Designed accordingly, they allow largely controllable for later application as fertilizer, a by, for. B., selected urea types such as isobutylidene diurea also metered delivery of, for. B., then plant-available nitrogen components. This is achieved, among other things, by the choice of material composition and the design of the base body. Furthermore, the design and material composition of the filter body, predominantly as a capillary porous structure, also create optimal conditions for the digestion of the organic nitrogen components that is then possible after use of the filter by the corresponding microflora of the soil. In addition, this filter body, which can already be planned for its secondary use, e.g. B., with bound material aggregates with proportions such as phosphate + potash, with the combination fertilizer then created by the nitrate absorption, can also have soil-improving properties when applied. It was then found to be particularly favorable when used with the absorption of nitrate from fluids that the nitrate fertilizers obtained in this way usually show the least release of N ₂ O in% of the fertilized nitrogen into the atmosphere; <1%, e.g. B., compared to conventional organic fertilizers.

Due to the possible combinations of the materials in the base bodies and Functionaries as well as those for certain areas of application contemplated functional aggregates, z. B. by varying of the pH value, the selection of different ingredients in fluids with regard to the preferred ion types. Can also be displayed is a separation of biomolecules such as proteins, nucleic acids, dyes  and the like, or inorganic, such as e.g. B., chromate ions, phosphate ions, Chlorine ions. The aggregates can also be used, for example sterilization or disinfection, e.g. B., on calcium hydroxide or Realize potassium permanganate.

Subsequent at least partial liquefaction is also feasible certain constellations in the basic body as well as nitrification and Use in other areas of application, in which nitrite is the basis.

The technical implementation of the ion exchanger can take the form of loose powder, foam, foamed natural or with natural Polymers cross-linked synthetic polymers, compacted pellets, gels, Granules, extruded strands, or any other geometric shape, also as, e.g. B., injection molded part, or also incorporated in fibrous biological or synthetic piles, in bulk, Paper-like or as a textile structure, e.g. B., as mechanically processed flat fleece arranged, as well as combinations of all such Forms of representation are carried out. The composition is also there depending on the question of drinking or industrial water as well as the eventual one later use as fertilizer and the intended or differently required soil compatibility. Preferred as a basic body become porous and spatially global structures.

When using, e.g. B., as drinking water, the binding of the used Components be so stable that there is no secondary contamination to the fluid is possible. Another solution to this is to put the body in a shell, e.g. B. Tissue bags that can only be penetrated by fluids.

This exchanger or its actual filter body is built up on at least two main components: a so-called basic body (= Basic material) and a functionary. In addition there are often Aggregates consisting of another organic material, such as e.g. B. natural fibers, as that of the primary selected base material, and / or an inorganic base material (e.g. clays, earths, lava, feldspar, Layered silicates, stone flours, metals, molecular sieves, etc.). This means more Coupling uses in absorption can be achieved for different ion types.  

This applies in particular to the anions for phosphates, sulfates and chlorine; for the cations for calcium, magnesium, potassium and sodium. Come in addition, e.g. B., the possibility of partially functional with such Aggregate materials, e.g. B. laminate silicates such as bentonites, in low Amounts to carry out a kind of cation exchange themselves, e.g. B. Ca ++ against trivalent heavy metal ions or Na + against water hardness Ca ++, etc.

The body can also be supplemented with functional, active ingredients Aggregates, in particular because of the possible subsequent uses such. B., Enzymes or certain ureas for later faster or slower breakup of the base body, and / or by, for. B. from the Wall quality and thickness as well as by moisture or temperature, therefore can be designed as a function of time, e.g. B., sulfoethyl cellulose Microcapsules, with for example mushrooms, vitamins, sterilizing agents, Plant hormones, insecticides, pesticides, fungicides, nematicides, or Micro-organisms in the capsules and / or filter bodies as well time-controlled functional elements and the like.

Aggregate materials and aggregates can be even larger in volume be than the actual basic body.

The base body preferably consists of a biologically compatible, commonly degradable base material that with those described later Functionaries is combined.

The following are used as base material for the base bodies, alone or in mixtures thereof:

• - Lignin, lignin derivatives, modified lignins (e.g. functionalized lignins).
• Polysaccharides, polysaccharide derivatives, modified polysaccharides, (functionalized polysaccharides).
• - Proteins or protein-containing substances, protein derivatives, modified proteins (e.g. decarboxylated proteins, functionalized proteins), polymines, preferably biogenic polymines  
• - Polypeptides or substances containing peptides, polypeptide derivatives, modified Polypeptides.
• Polynucleotides or substances containing nucleic acids, polynucleotide derivatives, modified polynucleotides,
• - natural polymers with glucosidic bonds

alone and chemically combined or in mixtures thereof as well as with one or several aggregates and / or aggregates. The molar masses The base body materials can range from oligomeric to vary to polymeric forms. The molecular weight distribution can be polydisperse be executed.

As the function holder or the functionalizing groupings, it can be one or more of the following basic exchange groups:

• - pyridine derivatives, e.g. B. 4-vinylpyridine, 2- (2aminoethyl) pyridine, u. a.
• - Acrylamide derivatives, e.g. B. trimethylene ammonium propylacrylamide chloride, Methylenebisarylamide,
• - Alkylamine derivative, e.g. B., quaternary polyethyleneimine, tetramethyl dipopylene triamine, methyl dipropylene triamine, N, N'-dimethylporpane diamine, N- Methylporpane diamine, polyethylene polyamine, substances with triethyl ammonium. Tripropylammonium tributylammonium groupings, tertiary ammonium chloride,
• - Guanidine derivative, e.g. B., N, N'-dicyclguanidine, N, N '-dicylclohexyl-N "- benzylguanidine, bis (benzylideneamino) guanidine, bis (poctyloxyben cylidenamino) guanidine,
• - Trialzol derivatives, e.g. B. 3-amino-1,2,4-triazole-modified resins,
• - Amino-functionalized surfaces, e.g. B. 3-aminopropyltriethoxysilane Silica gel,
• - urea, urea derivatives and derivatives, ureids
• - Imine, carbamate and urethane groups

The function holder (s) can be converted directly into chemical and / or fixed to the base bodies and / or on or in at least one of the possible additional aggregate materials.

To achieve a suitable technical embodiment, can Crosslinkers or molecular weight expanders can be used. Preferably these materials consist of one of the basic body materials mentioned, e.g. B. Lignin-based flocculant. Crosslinkers can also use other bi- or be polyfunctional compounds, preferably those which are in the Food sector are used, for. B. Glutaraldehyde.

Claims (21)

1. Substance for taking up and / or exchanging ions, in particular anions, from or in a fluid containing at least two components, characterized in that a first component is selected from one or more base bodies based on lignin (s) and / or polysaccharide (s) and / or natural polymers with glucosidic bonds and / or protein (s) and / or polypeptide (s) and / or polynucleotide (s) and
a second component is selected from one or more compounds, the functional groups being pyridine groups, acrylamide groups, alkylamine groups, guanidine groups, triazole groups, urea groups, amine groups, imine groups, carbamate groups and / or contain urethane groups and / or have amino-functionalized surfaces. 2. Fabric according to claim 1, characterized in that the first Component covalently or ionically bound to the second component is. 3. Fabric according to claim 1, characterized in that the first Component and the second component are mixed together. 4. Fabric according to one of claims 1 to 3, characterized in that he as a third component one or more aggregate materials contains which consists of organic material and / or inorganic Material exists. 5. A substance according to claim 4, characterized in that the organic Material mainly from fiber structures and / or plant components, also in refined form, the inorganic one or more Materials such as clay (s), clay mineral (s), layered silicate (s), stone (s), Stone flour (s), metal (s) and / or mineral (s). 6. Fabric according to one of claims 4 and 5, characterized in that the material as functional groups pyridine groups, acrylamide  Groups, alkylamine groups, guanidine groups, triazole groups, Urea groups, amine groups, imine groups, carbamate groups and / or urethane groups and or amino functionalized Has surfaces. 7. Fabric according to one of claims 1 to 7, characterized in that at least one of its components as the starting material has three-dimensional spaces and / or is inflatable. 8. Fabric according to one of claims 1 to 8, characterized in that that it alone or from mixtures in the form of loose powder, foam, foamed natural or mixed with natural polymers synthetic polymer, compacted pellet, gel, granulate, injection molded and / or as an extruded strand or in any other any geometric shape. 9. Fabric according to one of claims 1 to 9, characterized in that all components are stably connected to one another and / or in one material that is only permeable to fluids. 10. Fabric according to one of claims 1 to 10, characterized in that it by basic solutions and / or ionic solutions according to the Use to absorb and / or exchange ions can be regenerated can. 11. Fabric according to one of claims 1 to 10, characterized in that a third and / or fourth component in the form of at least one functional organic, inorganic and / or biological Aggregate is present. 12. A substance according to claim 12, characterized in that the resolution and / or release of the main components and / or the Aggregate materials and / or the aggregates can be controlled periodically be designed.   13. A substance according to claim 13, characterized in that the periodic Dissolution or release of the main components and / or Aggregate materials and / or the functional aggregates, e.g. B. from Isobutylidene diurea regulated as a crosslinking agent and / or pH value and / or achieved by selected volume and / or microcapsules in the or the additives are entered. 14. A substance according to claim 13, characterized in that the time delayed release of the aggregate from the microcapsules, for example by their material composition and / or Wall thickness and / or moisture absorption capacity designed to be controllable becomes. 15. Fabric according to one of claims 12 to 14, characterized in that the aggregate or additives at least one type of Microorganisms e.g. B. in the form of bacteria, especially nitrogen fixing, and / or fungus (s), and / or sterilizing agent (s), Plant hormones (s), vitamins (s), amino acid (s), insecticide (s), Contains fungicide (s), pesticide (s) and / or nematicide (s). 16. Fabric according to one of claims 1 to 15, characterized in that that after its use for the uptake and / or exchange of ions, especially changed in size by grinding is. 17. Fabric according to one of claims 1 to 16, characterized in that that at least one of its components can be liquefied after use is. 18. Fabric according to one of claims 1 to 17, characterized in that ingested nitrate ions by biological and / or chemical Conversions to nitrite is converted. 19. Use of the substance according to one of claims 1 to 18 for inclusion and / or for the exchange of ions, predominantly anions from or in  a fluid, in particular from or in water, preferably for drinking water. 20. Use of the substance according to one of claims 1 to 18 according to the Use as a fertilizer. 21. Use of the substance according to one of claims 1 to 18, characterized characterized in that in the preferred solutions all Components for the soil biologically compatible and / or biologically are degradable.