DE542357C - Fertilizer - Google Patents

Description

Fertilizer The invention relates to a fertilizer. Fertilizers that from ammonium salts, e.g. B.

Ammonium sulfate, are known and widely used, however their application often meets with difficulties. For example, there is hyperacidity of the soil that occurs over time. Compound fertilizers, the two or more plant nutrients, such as bound nitrogen, potash salts and phosphates have also been proposed and are worth noting Success applied.

It has now been found that the fertilizers which have been used up to now have not completely satisfied the requirements of the soil, rather all of these fertilizers have the disadvantage that they do not add certain components to the soil which occur naturally in good soils are found to-which contribute significantly to its value, and which are vital for plant growth; or they do not add such components to the soil in an effective proportion.

Previous attempts to add metallic titanium, ilmenite, etc. to the soil, have shown that these substances are completely unsuitable for missing components of the To replace the bottom. Iron ores containing titanium are particularly harmful to the soil. In any case, the iron must be removed from such compounds before they can be used for Find fertilizer purposes use. Even those with sodium titanate and sodium titanocitrate The attempts made have not led to any practical success. Yes it is to be regarded as known that plants assimilate titanium compounds.

In contrast, the invention is based on the knowledge that it is of the greatest It is important that the fertilizer to be introduced into the soil does not contain nitrogen contains in form bound to titanium. Therefore, the well-known nitrogen, Potash salts and / or phosphates existing fertilizers according to the invention a low content of iron and nitrogen-free titanium dioxide and manganese dioxide the end. Titanium dioxide and manganese dioxide are preferably used in catalytically effective proportions added. Numerous experiments have shown that precisely through the combined use of titanium dioxide and manganese dioxide in the other known fertilizers additional and considerable advantages are achieved which are not achieved if only one of the two Oxyde is used. Using only a titanium compound suffers the growth of the plant is delayed. If on the other hand only small amounts Manganese compounds are added, the plant remains weak. Under other the lipase content is lower or very low if the sufficient Amount of titanium compound is missing. Apparently the manganese compound and the titanium compound play a role in the Plant a completely different role, namely that forms Titanium acts as an anabolic catalyst in the formation of the plant cell, while the Manganese promotes the speed of growth. From this it is explained that with previous attempts in which large amounts of manganese compounds directly in were brought to the ground, e.g. B. Manganese peroxide, ores (pyrolusite), although an acceleration of growth was achieved, but the plants always remained weak.

It is also the subject of the invention, in the case of fertilizers of the marked Kind of titanium oxide and preferably also manganese dioxide in molecular proportions add lime, barite or magnesia and silica.

According to a simple embodiment of the invention, a fertilizer from a bound, nitrogen-containing compound, such as ammonium sulfate, exist in conjunction with small amounts of titanium dioxide and manganese dioxide. the best results of such a composition are obtained when the Ti and Mn compounds are added in catalytically effective proportions, for example in amounts which do not exceed 50/0 of the total weight of the compound fertilizer go out.

For experimental purposes, soils were treated with different proportions of nitrogen in the range from 0.6 to 1.3%, phosphate from 0.4 to 2.1%, and Contains potassium oxide from 0.9 to 20/0 and 1 to 50/0 lime. In all cases where Titanium compounds found application even without manganese compounds, became a considerable one Increase in yield achieved. However, the best results were found when titanium and manganese compounds are used at the same time.

Another fertilizer generally used with good success consists of bound nitrogen-containing compounds, potassium salts and Phosphates, preferably the same or not substantially different from one another Parts by weight, and contains up to 50/0 percent by weight, based on the whole Fertilizers, titanium and manganese dioxide. In this case, as well as in others below described, it is not essential that the latter (Ti and Mn) compounds are soluble compounds.

For example, titanium dioxide can also be used in small amounts as fertilizers or mixtures of fertilizers of the aforementioned types are added, for example together with lime, barite or magnesia and silica, in which cases it is preferred, although not essential, are the compounds mentioned to use in molecular proportions, for example in proportions in which they appear in Sphen. Titanates, such as calcium titanate, can do with good results Find application; Titanite, e.g. B. the natural Sphen connection is also applied.

If a naturally occurring titanium-containing compound, an ore, etc. Like., is added, so manganese is added, for example in the form of Mn 02. However, manganese is already often present in such ores or the like, and indeed in one such a relationship with the titanium as is suitable according to the invention.

To obtain titanium compounds necessary for the purpose of the invention are suitable, methods can be used as described in the German patent specification q22 772 are described, and in which one can by reduction with sea sand or the like. a slag of the formula 142g 0 # Ti OZ - Si 02 is obtained, or if manganese at the same time should be included, for example, others in the cited patent used slag, namely one that, in addition to titanium, either manganese silicate and / or contains titanate.

Embodiments of compound fertilizers according to the invention i. Ammonium sulfate mixed with about 5 percent by weight titanite or sphene, for example Ca - TiSiO '(or Ca0 - TiO2 - Si02) and traces of manganese dioxide, the additives only being ground and mixed with the ammonium sulfate as desired will need.

2. Potassium sulfate, mixed in any manner at about 5 percent by weight Mg0 - Si02 Ti 02 in molecular proportions and small amounts of manganese dioxide.

3. Superphosphate, mixed at will with about 3 percent by weight TiO2 -E- 2 percent by weight MnO ..

Comparative experiments with the above fertilizers and with known Fertilizers were exported to wheat, oats, sugar beet and other crops, have shown that a very substantial increase in the yield when using To achieve fertilizers according to the invention is compared to the yield with so far fertilizers used, such as ammonium sulfate alone, potassium sulfate alone, superphosphates alone, etc., the increase being of the order of 75 to 80 per cent and moved about it. Smaller amounts of fertilizer are sufficient for land areas of the same size, and you only need half or less of what is usually required Weight amount.

For example, in the open field the ground was divided into a number of Sections divided according to the number of different ones for the experiment used fertilizers. Each part was then made with the fertilizer according to claim 2 fertilized, all approximately at the same depth (about 7 to 8 cm) were introduced into the ground. The usual composition of the for the experiments fertilizer used was the following: calcium oxide ... .... 28,30j, silica ......... 30.3% titanium oxide. . . . . . . . . . q0,40 / 0 and pyrolusite ............ 10i'0. This fertilizer surpassed all other known fertilizers, although of it only 12o kg per ha were used while calculating the amounts used of comparative fertilizers resulted in 30o kg per hectare. The yield on the fertilizer after of the invention was 5o0 / to 20o0 /, higher in the harvest than in the case of the comparative fertilizers. In addition, acidification of the soil was never found because of the azotobacter content was always high and more important than in soils in which nitrogen was bound in Form was introduced.

In cases in which the fertilizer according to the invention was added to known fertilizers, such as Chile nitrate, superphosphates, potassium salts, urea, etc., mixtures were used which contained 150 kg of the known fertilizer in question and 6okg of the fertilizer according to the invention. All tests were carried out under exactly the same conditions on four different types of soil; the size of the test plots was 0.25 ha each time. It was found that the results with mixed fertilizers were just between those obtained with the use of the known fertilizers on the one hand and the fertilizer according to the invention on the other. I. Experiments with sugar beet showed the following: Fertilization: Yield: i. 30o kg ammonium sulphate ........ 26 t / ha, 2. 300 - Potassium sulphate ........... 28 - 3. 300 - Superphosphate .......... 25 - q. 300 - Chile nitrate ............ 26.8 - 5. 120 - Fertilizers after cultivation finding (alone) ... ... ... 56 - 6. 15o - ammonium sulphate -; - 6okg Fertilizers after finding ................ 38 - 7. 15o - potassium sulfate -f- 6o kg Fertilizers after finding. . . . . . . . . . . . . . . . 4.2 - 8.150 - superphosphate -f- 60 kg Fertilizers after finding ............... 37 - G. 150 - Chile nitrate + 6o kg Fertilizers after finding ..... ........... 4.2 - 1o. without fertilization .......... 22 -. Similar results have been obtained with various other compositions. Similar tests on well-plowed soil have even shown an even greater increase in the average size of the beet obtained. II. With wheat and oats the individual sections of the soil with various fertilizers as follows fertilized: a) treated with ammonium sulfate, in quantities of .............. 300 kg / ha, b) treated with potassium sulfate, in quantities of .............. 250 - c) treated with sodium nitrate, in quantities of .............. 250 - d) treated with superphosphates, in quantities of .............. 300 - e) treated with an ammonium sulfate -E- titanite fertilizer, as in the above example i ( holding traces of manganese), in Quantities from ................. 12o - f) treated without fertilizers. If one takes the yield of a soil treated as in a) as a benchmark, the following comparative yields result from the others: b = 1-5; c = 1-6; d = 1-6; e = 2-8; f = 0-6. As a result, almost three times the yield can be obtained with less than half the amount of the titanite fertilizer as compared with the case where ammonium sulfate is used.

Of course, the results will change with different soils. but Extensive tests have confirmed that there is always a very considerable increase in Yield can be expected when using fertilizers according to the invention.

In other experiments it was particularly noteworthy that the grain was extremely uniform when using the fertilizer according to the invention. It was the same height and the straw had a high silica content, higher than e.g. B. with ordinary oat harvests. III. The yields when trying with Potatoes were the following: without fertilizers. . . . . . . . . . . . . 500 kg, Chile nitrate ................. 590 - Fertilizers according to the invention alone ..................... goo - Fertilizers according to the invention Chile nitrate ............ 8o -. Here, too, the saltpetre was used in amounts of 30o kg / ha, while 150 kg of the mixed fertilizer and 60 kg of the fertilizer according to the invention alone were administered.

The practical success of the fertilizers according to the invention is up to to a certain extent due to acidification of the soil though not avoided, but at least limited to such a level that the beneficial biological processes in the soil are no longer disturbed. The addition of an excess of lime or the like, which contributes to acidification fighting is therefore hardly necessary; in particular, this is the case when a Nitrogen compound such as ammonium sulfate is used together with titanium compounds will. Especially if there is a tendency towards acid formation or acid release shows, is an excess of titanium oxide in proportions that exceed those given go out, not in any way harmful. On the other hand, there is generally no point to incorporate larger amounts of titanium oxide into the fertilizer than indicated above, since there is hardly any advantage here.

Claims (2)

PATENT CLAIMS: i. Fertilizers, consisting of known fertilizers, in particular nitrogen fertilizers and / or potassium salts and / or phosphates, characterized by a low content of iron and nitrogen-free titanium dioxide and manganese dioxide. 2. Fertilizer according to claim i, characterized in that in particular in the case of fertilizers containing silica, calcium or magnesium oxide, titanium dioxide is present in molecular proportions.