DE1301980B - Fertilizer with water-soluble, inorganic and water-poorly soluble, organic potassium compounds - Google Patents

Description

Contains fertilizers made from organic matter with mineral fertilizers generally 35 to 50% organic matter and small amounts of plant nutrients, z. B. 5 to 9% NPK and also 30 to 40% water. This moisture won't dried off to protect the organic matter, to save drying costs and to maintain the wettability during application. Such humus fertilizers with low nutrient contents mainly serve to improve the soil Loosening of the topsoil to increase air circulation and soil breathing, for Increase in crumb formation and increase in water capacity and find predominantly used in horticultural crops.

According to the German patent specification 893 344 should be treated with alkaline Peat is oxidized to humic acid with air and then to a lime-humus complex with lime be transferred. From the German patent specification 909104 is a nitrogen-containing Lime humate fertilizers known. From the German patent specification 850 456 it is known To mix crushed peat with rock phosphate and by content of humic acid to be converted into water-soluble phosphoric acid. The German patent specification 940 901 relates to a means for improving soils, which consists of 48% moist peat, 40% Ferris sulphate and 12% ammonium sulphate or potassium sulphate and an Fe-humus complex should contain.

The German patents 668 747, 748 651 and 738 358 concern Process for the production of potassium huminate, which is not the subject of the invention is.

French patent specification 1096185 and British patent specification 622,464 disclose the addition of alginates, gums, resins to make baking more familiar Prevent fertilizers or reduce the solubility with alginates and provide therefore does not constitute fertilizers.

According to German patent specification 541 398 molasses, according to German patent specification 497 721 separating sludge from sugar production, according to German patent specification 495188 organic digested sludge according to German patent specification 391758, sulphite waste liquor should serve as the organic component of such humus fertilizers. These organic substances should be converted into a spreadable fertilizer that decomposes in the soil using quick lime or magnesia. Such organic fertilizers contain the adhering moisture in bound form as water ballast and therefore at least as much water as air-dry peat and therefore cannot have a high content of macronutrients. Air-dry peat with about 40% adhering moisture would have to be used to produce a peat fertilizer with 3% N, 3% P20.5, 6% K20, 2% Mg0, a total of 14% nutrients, e.g. B. 15.4 kg (NH4) 2S04, 17.5 kg superphosphate, 24.9 kg potassium magnesia are added so that only 46.4% air-dry peat would be present. It is therefore not at all possible to produce an organic mineral fertilizer by mixing it with mineral fertilizers with more than 15% macronutrients without drying, if this should still contain about 50% organic matter. It is therefore known from German patent 862 901 to produce such peat fertilizers from dry peat by spraying them with hot fertilizer salt solutions in order to obtain nitrogenous fertilizers with 12 to 28% N. However, such a fertilizer has the disadvantage that in order to achieve this nutrient content of up to 280/0 the peat must first be dried and then treated again with an aqueous salt solution.

It was now a fertilizer with water-soluble, inorganic and water-sparingly soluble, organic potassium compounds found, which thereby is characterized in that this is in addition to known, water-soluble potassium fertilizer salts about 20 to 70% K20 of the total K20 in the form of potassium alginate; of the potassium salt the monocarboxylic cellulose; of polycondensation complexes containing S03K, P03K2 or COOK groups from phenol or dioxynaphthalene with an aldehyde; Potassium salts of the polymerization complexes from acrylic or methacrylic acid with divinylbenzene or ethylene dimethacrylate; respectively. from polystyrenes containing SO3K groups and in particular to granules a grain size of 0.2 to 1 or about 1 to 5 mm is processed.

It has also been found that this is preferably a nutrient sum N, P205, K20 and Mg0 from about 15 to 500; `o and a content of total K20 of 40% having.

The fertilizer of the invention is further characterized in that it preferably contains about 88% organic matter.

Furthermore, the fertilizer is characterized in that it is preferably used as polycondensation complexes of the structural formula contains. In addition, the fertilizer is characterized in that it is preferably used as a polymerization; amplex those of the structural formula contains. These organic potassium components as a constituent of the fertilizer of the invention are characterized by a reduced dissolution rate of their K component and therefore represent a slow-acting, i.e. steadily flowing source of potassium to deliver.

The organic potassium components of the fertilizers of the invention consist from a known sulfonated condensation product of phenol and aldehyde. Instead of Phenol, dioxynaphthalene can also be used. Instead of the S03H group you can the P03H2 or COOH groups step. Other potassium components are made up of known ones Polymerization complexes made from crosslinked polystyrenes, built into the S03K groups are.

Another organic potassium component is through known polymerization of acrylic and methacrylic acid with divinylbenzene, ethylene dimethacrylate or the like Connections made.

The known polycondensation and polymerization complexes used as the organic potassium component of the fertilizer of the invention contain, for example, 18.5 or 20.0% K20 in a form that is slowly available to plants. If these organic potassium compounds are soluble in water, the delay in the rate of solution results from the viscous or gelatinous state of swelling during water absorption, which causes such substances to have a high water capacity in the soil.

The rate of dissolution of the organic potassium components of the fertilizer of the invention is also retarded by the presence of alkaline earth, particularly calcium ions in the soil. The rate of dissolution in vitro is therefore not a measure of the availability of these substances in plants. So go z. B. Potassium alginate solutions with calcium ions turn into a gelatinous state, whereby the exchangeable, plant-available potassium ions are practically protected against washing out by precipitation for a long time and can therefore serve to increase the K20 level in the soil in addition to known potash nutrients . Fertilizers of the invention are e.g. B. the following: 1. 330 parts by weight (GT) K-alginate (13.4% K20) + 275 GT Potash fertilizer salt (KDS, 60% K20) + 210 GT (NH4) 2HPO4 + 185 GT urea. Nutrients: 13.0 N, 13.0 P205, 21.0 K20 (%). Nutrient sum: 47o / ". Slowly soluble K20: 21% (relative).

2. 360 parts by weight K-alginate + 185 parts by weight K2HPO4 + 165 parts by weight MgNl-I @ P04 - H20 + 290 GT urea. Nutrients: 15.0 N, 15.0 P205.15.0 K20.4.3 Mg0 (°, ö). Nutrient sum: 49.3%. Slowly soluble K20: 33% (relative). In addition, are slowly soluble: 50% (relative) P205, 10% N and 100% Mg0.

3. 530 parts by weight K-alginate + 210 parts by weight KDS (60% K20) + 260 parts by weight urea. Nutrient: 12.0 N, 20.0 K20 (%). Nutrient sum: 32.0%. Slowly soluble K20: 37% (relative).

4. 750 parts by weight K-alginate + 185 parts by weight K2HPO4 + 65 parts by weight CaHP04 - 2H20. Nutrients: 10.1 P205, 20.0 K20, 2.1 Ca0 (%). Nutrient sum: 32.2%. Slowly soluble K20: 50% (relative). In addition, the following are slowly soluble: 25% (relative) P205 and 100% Ca0.

5. 750 pbw K-alginate (14) / o K20) + 110 pbw KDS (40% K20) + 140 pbw MgS04 H20. Nutrients: 15 K20, 4 Mg0 (%). Slowly soluble K20: 70% (relative) with 66% (absolute) organic matter.

6. (C, 5H 706K) "with 14 to 22% K20 and 88% organic matter and optionally with known water-soluble K compounds or fertilizers.

7. K-polycondensation complex, such as (-C-CH3-COOK-CH2-CH-CH2-C6H4-CH-CH2-) x with 20% K20 and 83.4% organic matter and possibly with known water-soluble Potassium fertilizers. The organic potassium components of the invention can be used in moister or dried form can be used. The fertilizer of the invention can. even other N, P, K nutrients that are slowly soluble or water-insoluble, plant-available Represent substances such as NH4MgP04 - H20 KMgP04 - H20 KCaP04 Thomas phosphate, hydroxyapatite, and / or other organic substances such as peat. It is possible to share to vary the water-soluble and water-poorly soluble potassium components, z. B. with about 20 to 70, preferably 40 to 70% water sparingly soluble organic Kaliu .t component.

Such fertilizers according to the invention can be the commercially available ones Have nutrient levels, e.g. B. as NPK fertilizers the brand 13/13/21, as NK fertilizers 12, / 20, as PK fertilizer 10/20. The manufacture of the fertilizer the invention can in a known manner by mixing or by granulating or Agglomeration of the components takes place, such as by plate, rotary kiln, press, fluidized bed granulation, also with the addition of surface-active substances that promote disintegration, in particular in the grain size from about 0.2 to 1 or from about 1 to 5 mm, so that the scattering is possible with the fertilizer spreader.

The agricultural chemical effect of the fertilizer according to the invention Example 9 shows the following vessel experiment in Mitscherlich vessels with three repetitions: Soil-sand mixture, volume 1: 3 with loess loam.

Basic fertilization: 1.5 g N as NI-4N03 and P205 as CaHP04 - 2H20, 3 mg Mn, 2 mg Cu, 5 mg Fe, 1.5 g CaCO3.

K20 administration: 1.5 g K20 per tube. Control: 50% KCI + 50% KzS04. Trial element: without fertilization. Test plant: oats, 30 plants per vessel. Table 1 Harvest results in grams of dry matter per vessel First harvest at the beginning of the shoot. Second harvest at yellow maturity. First harvest Second harvest total K gram dry matter gram dry matter gram dry matter Fertilizer per vessel per vessel per vessel Straw grain 1. Without KZO. . . . . . . . . . . . . . . . ... . . . . - - 59.2 55.9 115.1 2. Control. .. ... ....... .. ... ... ... 1.5 2.6 72.1 64.5 136.5 3. Fertilizers of the invention. . . . . . . . . . 1.5 2.7 73.2 62.5 135.6 Table 2 Nutrient intake in milligrams per vessel, second harvest NKP fertilizer Straw grain total straw grain total straw grain total 1. Without K: 0 ......... 196 918 1114 360 382 742 74 276 350 2. Control. ... . . . .. 187 940 1127 1520 350 1870 68 258 326 3. Fertilizers the invention 3: 2 (%) ......... 177 880 1057 1570 377 1947 80 262 342 -6.2 +4.1 I +4.9 This model experiment shows that the fertilizer of the invention with 70% water-sparingly soluble K20 in relation to the total K20 results in a greater K and P uptake in the second harvest with practically the same yield as the control substance with only water-soluble KZO. The fertilizer of the invention offers the advantage of being able to give much larger K20 doses without the fear of a depression in the yield if there is a lack of water. In addition, there is the possibility of K2O accumulation in the soil without the risk of leaching losses or ion fixation, so that the K2O administration is available for the crop plant for a longer vegetation period. Another advantage is the enrichment of organic matter in the soil, which also contributes to increasing the water capacity and thus can also serve to maintain the structure of the soil.

Claims (6)

Claims: 1. Fertilizers with easily soluble in water. inorganic and water-sparingly soluble. organic potassium compounds. d a d u r c lt g ek It is noted that this is in addition to the well-known, water-soluble potash fertilizer salts about 20 to 70% K20 of the total K20 in the form of potassium alginate; of the potassium salt the monoearboxylic cellulose; of polycondensation complexes containing S03K, P03Kz or COOK groups from phenol or dioxynaphthalene with an aldehyde; Potassium salts of the polymerization complexes from acrylic or methacrylic acid with divinylbenzene or ethylene dimethacrylate, or from polystyrenes containing SO3K groups and in particular to granules a grain size of 0.2 to 1 or about 1 to 5 mm is processed. 2. Fertilizers according to claim 1, characterized in that this is a nutrient sum of N, P205, K20 and Mg0 from about 15 to 50 ° ". 3. Fertilizer according to claims 1 and 2, characterized in that it has a total K20 content of 409 / o. 4. Fertilizer according to claims 1 to 3, characterized in that this is about 88 ° "contains organic matter. 5. Fertilizer according to Claims 1 to 4, characterized in that it is polycondensation complexes of the structural formula 6. Fertilizer according to claims 1 to 4, characterized in that it is those of the structural formula as polymerization complexes