DE10120433C1 - Material with lasting humus properties, for use in improving and fertilizing soil, obtained by wet milling mixture of young tertiary soft lignite with clay and/or loam - Google Patents

Abstract

In the production of a material (I) having lasting humus properties for plant growth from soft lignite and clay minerals, young tertiary soft lignite is intensively mixed with clays and/or loams, in weight ratio 30-70:70-30, and colloidally dispersed by wet decomposition milling.

Description

An important prerequisite for high soil fertility is high Permanent humus content. The permanent humus in the soil is constantly slow degraded and always new due to the complex decomposition processes of biomass simulated. The soil is particularly fertile if there is a difference between the Degradation and the formation of permanent humus substances a balance with one sets constant high levels of permanent humus or even the new formation outweighs how it z. B. is the case with some black earth soils.

The permanent humus arises when biomass is broken down (straw, roots, grasses, Green manure, manure u. a. m.) in the soil by microorganisms. With this The conversion process will initially take a few months to about 2 years the rapidly degradable components of the biomass, such as B. sugar, Proteins, starches, hemicelluloses, celluloses u. a. m. reduced. The above Products are the basic food for the enormously multi-level food chain of the Soil organisms. Mineralized arises in this food chain End products that are again the necessary nutrients for the plants and as Nutritional humus. The nutrient humus act for the plants primarily as fertilizers.

The biomass introduced into the soil also contains small amounts of lignin and other substances that are difficult to degrade, such as resins, waxes, tannins, crystalline, cellulose, etc. Years of successive conversion through a multi-stage mining process and finally also mineralized. The intermediate products of this mining and conversion process are very binding. This is also the case, among other things, because carboxyl groups are also formed during the degradation process and high-molecular humic acids and humins with a complicated structure of aromatic and aliphatic building blocks are formed. These breakdown products have a high potential of secondary and main valence forces. This enables them to form mixed connections, e.g. B. with clay and clay materials. This association of mainly lignin conversion products (humine, humic acids) with clay minerals creates the permanent humus which is essential for fertile soil ( Fig. 1). It is a temporary association on the basis of secondary and main valence bonds. Both main components of the permanent humus, namely the lignin conversion products and the clay minerals also have after the formation of the association due to their enormous number of polarized groups, such as. B. hydroxyl, carbonyl, carbonyl, quinone carbonyl and carboxyl groups and the polarized portions in the aromatic, aliphatic and mineral molecular structure have a very high binding potential, for. B. for water, cations and anions. The binding takes place through adsorption and chemisorption. The permanent humus is not a fertilizer in this state, but primarily a storage substance for nutrients and trace elements. It also fixes pollutants. It also binds water through adsorption and acts as a settlement site for microorganisms.

The nutrient humus can be largely replaced by mineral fertilizers become. The tasks of permanent humus can only be described Association associations of clay and the lignin conversion products adopted become. For the formation of permanent humus is therefore the supply of organic Fertilizers in the soil with lignin and the other difficult-to-decompose substances essential. Long-term returns are therefore only based on one optimal supply of soils with mineral and permanent humus organic fertilizers possible.

There are many regions in the world where the soil has little or no Have permanent humus. There are many reasons for that. The most important are e.g. B. a Climate-related too rapid degradation of the permanent humus in the soil, missing or insufficient supply of organic fertilizers, erosions, poor physical, chemical and / or microbiological conditions for the degradation of organic Substances for permanent humus z. B. as a result of austerity, karstification, salinization, Environmental pollution, drought, lack of nitrogen and phosphorus and the lack of clay minerals for the fixation of the resulting lignin breakdown products. There are therefore also soils in which, despite the addition of organic fertilizers, no or too little permanent humus can be formed because of the necessary Microorganisms are not there or the biomass for various reasons  cannot decompose. Other soils could become more fertile if the Proportion of permanent humus in the soil would increase.

A number of patents and publications suggest lignite to be used as a soil conditioner, humus-forming agent or fertilizer. The Production of a product with the described quality of a permanent humus substance, characterized by the typical association between organic matter and clay minerals, however, is not described anywhere. For example, in U.S. Patent 1,196,889, lignite is milled with one Soaked saline solution, warmed to impregnation with the saline solution and then mixed with powdered clay. A mixture is created, which after a certain Standing time (aging) is used as fertilizer. Among the ones mentioned here the required stable association network of organic matter and clay minerals do not arise. Another disadvantage this product is its chemical content due to the salt impregnation.

Furthermore, the Austrian patent specification No. 153479 proposes Humus substances from humic acid-containing starting materials, such as. B. peat to produce chemical modification. The starting materials are in reactors or Autoclaves digested with ammonia, and with silica and alumina arise that can act as an ion exchanger. The product does not match the association of purely organic substances and Clay minerals, but is a through a targeted chemical reaction with high Reaction engineering effort and by-products produced synthetic substance. What has been said also applies to what is proposed in German Patent Specification No. 909 104 Product. It arises from alkaline dissolution of humic acid from e.g. B. lignite and converting the dissolved substance with calcium cyanamide to a solid water-insoluble synthetic humus complex compound.

The aim of the invention is therefore the production of a product that as Permanent humus is effective and all functions when mixed with the soil filled with naturally occurring permanent humus. It should be economically feasible can be produced in the required large quantities and as long as possible be effective in the soil without negative side effects. It's supposed to be natural Complement and favor formation of permanent humus.  

According to the invention, the object is achieved by producing an artificial permanent humus with a basic structure outlined in FIG. 1 using natural raw materials and without raw material losses due to raw material conversion and without any by-products or the occurrence of emissions.

A raw material is selected for the production of the permanent humus, which also mainly originated from the lignin, waxes, resins, tannins from earlier plants through biochemical conversion processes and a similar macromolecular structure with aromatic and aliphatic building blocks as well as an enormously high number of functional groups, in particular also has carboxyl groups and polarized structures, as they arise in soils as a permanent humus component. These requirements are met by young tertiary soft brown coal with a saturated water content of around 40 to 65%. The soft lignite consists predominantly of humines and humic acids with a structure similar to that of the organic substances bound to the clay minerals in FIG. 1.

The association of associations essential for the formation of permanent humus between the organic substances and the clay minerals based on However, there are secondary and main valence bonds in macromolecular distribution density cannot be reached if fine-grained coal and fine-grained clay or clay are mixed become. Under the given conditions, only one mix is created in Comparatively coarse particle distribution, but not homogeneous and through Stabilized association bond. This is because the Binding forces for both raw materials due to the long storage in the deposit as well the effects of pressure and water are "saturated in themselves" and because of a granular mass due to their internal strength despite high mechanical stress stay.

The production of a product with the permanent humus equivalent properties is solved according to the invention in such a way that young tertiary lignite and Clay and / or clay in the right mass ratio through a common, very intensive and longer-lasting wet digestion in the required macromolecular distribution and associated with the binding stability become. Due to its partial dissolving and swelling effects, the water acts as  Dispersant and at the same time as a reaction mediator. The wet digestion is a time process, the duration of which depends on many factors. The expected However, the result is only achieved when the mechanical stress is very high is intensive and at the same time different types of stress such as pressure, Impact, tensile and shear stress on the goods for a sufficiently long time thus all particle structures with different shredding properties quickly dissolved, swollen or dispersed as colloidally as possible. The The water content must be at least as large as that during grinding at least one thick, flowable substance is formed. A warming up while or after crushing is not necessary, but for homogenization and beneficial for the reaction between organic and inorganic substances. The Grinding time depends on the intensity of use and the type of mill and must be at least 1 minute and preferably 3 to 10 minutes.

All types of grinders are suitable for wet pulping, one of them Allow wet digestion where the strain is intense and can be designed to last longer and in which the regrind through different types of stress are crushed at the same time. Are suitable z. B. vibrating mills, twin-screw extruders or twin-screw fiberizers, Rolling or mill gear mills, colloid mills with an inner Mahlgutkreislauf (reflux of).

The mass ratio of young tertiary is also of crucial importance Soft brown coal and clay minerals. The mass ratio of clay minerals in the solid raw state and raw lignite with saturated water content for Production of a high quality product with the characteristics of a permanent humus preferably 50:50 and can be in the range of Clay: raw lignite vary from a maximum of 30: 70 to 70: 30.

The product is optionally in a moist state and preferably in an earth-moist state crumbly or mixed with the soil to be upgraded. It is but also a high quality alone without mixing with other floors Ground substance.

The addition of nutrients in wet pulping is not necessary and relevant to the invention, but possible. In this way, a permanent humus can the basic equipment depending on the type of plants with the optimal  Proportions of nutrients and / or trace elements are produced. Also the Addition of substances for long-term adjustment of the optimal pH value possible. The same applies to organic auxiliaries and microorganisms. By the The use of young tertiary soft brown coal creates a permanent humus that is special remains effective in the soil for a long time because the lignite is comparatively very poor is slowly degraded.

The invention will be explained in more detail below using two examples:

Example 1

55% of a young tertiary coniferous soft brown coal from the Lausitz mining area is used as raw fine coal with a water content of 58% and a grain size of 0 up to 6 mm with 45% fine-grained raw clay with a water content of 22% ver mixed. The raw coal-clay mixture is then mixed with water. The milling feed consists of 50% of the raw coal-clay mixture and 50% water. The Mill feed is crushed in a vibrating tube mill, the grinding chamber of which 55% is filled with 15 mm steel cones. The throughput time of the regrind the mill is 6 minutes. The flowable regrind is characterized by a high Moisture. More than 85% of the solid particles in the regrind have a part particle size of 0.2 mm or less and 45% of the particles have a particle size of less than or equal to 0.02 mm. There are parts between soft brown coal and clay minerals Kelassociate emerged.

The flowable regrind is directly z. B. with the sand-rich or lime-rich Soils mixed by spraying. To improve handling properties can the flowable regrind by adding chips or fibrous substances such. B. made of ash, lignite xylitol or wood into a granular substance.

Example 2

50% of a young tertiary coniferous soft brown coal from the Lausitz mining area is used as raw fine coal with a water content of 58% and a grain size of 0 up to 6 mm mixed with 50% clay with a water content of 17%. The raw coal-clay mixture  is then mixed with water. The mix consists of 80% of the raw coal-clay mixture and 20% water. The moistened mix is mixed and comminuted intensively with a twin-screw extruder. By the strong shear and pressure loads heat the regrind in the Twin screw extruder without separate heat supply to 75 ° C. The The throughput time of the ground material through the twin screw extruder is 90 Seconds. In the shredding room, the regrind is subjected to high pressure and Crushed and kneaded shear stress. In a twin screw extruder there is a hydrostatic overpressure of 1.5 bar. Have 85% of the solid particles a grain size of 0.25 mm or less in the regrind. Soft brown coal and Clay minerals can no longer be identified separately.

The thick pasty regrind is mixed directly with the soil or preferably previously with chipy or fibrous substances such. B. from ash, wood or brown coal Converted xylitol into a crumbly good with improved handling properties.

Claims (6)

1. A process for producing a substance with permanent humus properties for plant growth from soft brown coal and clay minerals, characterized in that young tertiary soft brown coal with clays and / or loams in a mass ratio of 30: 70 to 70: 30 is intensively mixed and colloidally dispersed by wet pulping. 2. The method according to claim 1, characterized in that the proportion of what in wet digestion grinding must be at least as high as that porridge flowable mass arises. 3. The method according to claim 1, characterized in that mills with high loading reduce the amount of stress over time. 4. The method according to claim 3, characterized in that vibrating as mills mills, single and twin screw extruders, twin screw fiberizers, rolling mills or pan mill mills are used. 5. Use of the substance produced according to claim 1, characterized in that that it is alone or after mixing with naturally grown or artificial generated soils is used. 6. Use according to claim 5, characterized in that the substance in damp used condition or dried.