DE4119504A1 - Solid mineral-organic fertiliser providing convenient disposal of excess manure - consists of gypsum mixed with animal and/or human faeces and/or urine which is then dried - Google Patents

Abstract

A combined mineral-organic fertiliser with soil- and plant-fertilising mineral and organic nutrients consists in the solid form of gypsum and animal and/or human faeces and/or urine. The fertiliser also contains plant residues. The water content is low to suppress the decomposition processes of the organic components. The fertiliser also contains other mineral and/or organic nutrients. The fertiliser is in the form of granules esp. contg. a nitrification inhibitor and/or a coating to decrease water solubility. USE/ADVANTAGE - The fertiliser uses excess manure in an environmentally friendly manner and enables excess manure to be disposed of cheaply. As the fertiliser is in the solid form it can be spread with conventional machinery. It can be packed in sacks which do not need to be water-tight and can be large or small (e.g. for small-scale or hobby gardeners). Storage and transport is thus cheap and technically simple. The fertiliser hardly smells.

Description

The invention relates to a combined mine organic organic fertilizer with soil and plants fertilizing, mineral and organic nutrient straten.

Fertilizers in liquid or solid form to the soil fed, maintain or increase the soil fruit availability for the purpose of increasing the yield in the plant zenbau either in the form of plant nutrients, which the plants as water-soluble salts of the Ele elements nitrogen, phosphorus, potassium, calcium, ma magnesium as well as various trace elements di be made directly accessible or as so-called Soil fertilizer the physical properties of the Soil (soil structure, water balance and air flow tion) so influenced that the exploitation of the Bo the existing nutrients are promoted by the plant is changed.

While mineral fertilizers in particular needed by the plants in larger quantities Core nutrients like nitrogen and phosphorus, which the Plant needed to build protein compounds Potassium, which causes cell pressure and the plant steadfast, as well as an important function in Metabolism and calcium, which the plant needed as builders, supplied, serves Humus consisting of dead animal or  vegetable substances that have a low Ge hold plant nutrients and depend in gig of the activity of the microorganisms in the soil be made available to the plant, primarily Li never improving physical properties ten of the floor. Just like the humus is limestone due to the calcium ions in solution the soil structure is stabilized and increased of the pH value in the soil optimal growth conditions creates an example of a soil fertilizer, which through its indirect plant fertilizing effect is marked.

Different according to their chemical structure organic fertilizers, which are essentially from organic substances such as plant residues how animal excretions exist and mainly on farms in Form of manure, liquid manure, compost, liquid manure and especially or as sewage sludge in wastewater disposal traps and mineral fertilizers such as wise potassium salts or raw phosphates mined mined and then processed industrially or like ammonia, that as a reason fabric for the production of nitrogen fertilizer tech nisch industrially synthesized. In many Mineral fertilizers fall as so-called cases "Waste products" or "industrial by-products" such as Thomasphosphat at Steel production, or gypsum in the flue gas sulphurization.

Since plant growth is primarily limited by the availability of the element nitrogen, which can be absorbed by the plant as ammonium ion (NH ₄ ⁺) and nitrate ion (NO ₃ ⁻), nitrogen fertilization is a decisive factor in increasing yields in plant growing Role too. As a mineral fertilizer, these ions are in the form of amides, for. B. lime nitrogen, ammonia fertilizers such as ammonium sulfate, nitric fertilizers such as sodium nitrate and combined ammonia nitrate fertilizers with a universal nitrogen effect such as calcium ammonium nitrate supplied. These dissociate under the influence of water and thus make the nitrate and ammonium ions available to the plants. Industrially synthesized mineral nitrogen fertilizer requires a lot of energy in its production to produce the synthesis gases, which must be provided by the combustion of hydrocarbons (coal, oil, natural gas), which not only causes high manufacturing costs, but also the environment through the resulting combustion gases charged. Organic nitrogen fertilizers are available in large quantities in the form of manure, liquid manure and, above all, due to the economically cost-saving, labor-saving liquid detoxification in specialized livestock farms. Liquid manure consists of a mixture of faeces and urine from farm animals (especially cattle, pigs), as well as a small amount of straw or litter mixed with water. The plant nutrients in the faeces, which consist of water, intestinal bacteria, non-absorbable food waste, fermentation and putrefactive products and undigested food components, are gradually made available to the plants by the microorganisms in the soil, the activity of which is determined by the physical properties of the soil. The same applies to the litter or straw in the slurry. In the case of urine, on the other hand, which contains urea as the nitrogen-containing end product of protein and nuclear metabolism, the plants have nitrogen-containing nutrients in a readily soluble and rapidly acting form, ie as a high concentration of ammonium and nitrate ions. Due to its very high nitrogen content, liquid manure is a high-quality plant fertilizer that also accumulates in large quantities.

The high concentration of nitrates or the rapid conversion of manure components into ammonium by mineralization and subsequent nitrification, ie conversion of the ammonium components into nitrites, leads to the fact that, intensified by the strong fluctuations in the content of nitrogen compounds determined by the feed composition Manure, there is an oversupply in the soil. On the one hand, this has the result that the ammonium escapes into the atmosphere as a pungent-smelling ammonia (NH ₃ ) and is therefore lost as a plant nutrient, and on the other hand, depending on the amount of precipitation, reaches the groundwater, where it is also no longer accessible to the plant and even gets into the drinking water, which is taken up by humans with the help of an enzyme in the human organism and converted into nitrite, which prevents oxygen transport in the blood and can lead to death, particularly in babies and small children. The plants themselves also suffer damage when there is an excess supply of nitrogen compounds. This gives potatoes black spots, sugar beets develop a lower sugar content, and lettuce, spinach, etc. lead to an increased accumulation of nitrates in the leaves intended for consumption.

When spreading the manure, it is therefore necessary take care that the plant due to its growth status and their root development Also able to absorb nitrogen compounds is. A concentration of the manure in the Bo prevented and on the leaves of the plants be because the soil organisms or the plants leaves die off themselves. To prevent this, the manure must be worked into the soil or by artificial water supply or the low Whipped water diluted or removed from the leaves will wash. Because the manure is especially in special len large mast operations in large quantities all year round incurs a seasonal disposal pro stumble when you don't get expensive storage space in shape created from tanks or pits or from Ökono want to create mixing reasons. Because after the different slurry regulations in the federal states slurry may only be used in precisely prescribed - low - quantities are applied, and only in the months when the plants stick can also absorb fertilizer.

The invention is therefore based on the object the excess manure is environmentally friendly and for the entrained farms to inexpensively ent to care.  

According to the invention, the object is achieved by that a manure is produced with the manure, which in is in a solid state and consists of parts of Gypsum and animal and / or human feces and There is urine.

In the context of the invention, the term gypsum defines, in addition to the rock-forming mineral (CaSO ₄ .2H ₂ O) to which "impurities" can be added in smaller amounts, all chemical compounds with the minerals CaSO ₄ .2H ₂ O, and / or the hemihydrate CaSO ₄ · H ₂ O and the anhydrite CaSO ₄ and which, after dehydration to achieve the solid state, can be present in particular as salts such as ammonium carbonate or ammonium sulfate.

The invention ensures that the digestive products excreted by animals and people from the intestine and bladder, in particular the animal excrements mixed with water and litter in the form of liquid manure, which are used today for ecological reasons in a legally prescribed, time-limited framework as fertilizer can be spread on the fields and becomes a disposal problem for the agricultural enterprises with high costs, can be disposed of in an environmentally friendly manner at low costs. The liquid manure, rich in organic and mineral, plant and soil fertilizing ingredients, is preserved as a cheap fertilizer and is introduced into the natural cycle in an ecologically desirable manner. In addition, a possibility is created to reduce the energy-consuming synthetic production of nitrogen fertilizers, and instead to cover the nitrogen requirements of the plants by means of the manure-based fertilizer according to the invention, regardless of the amount of liquid manure, the growth phases and the root development of the plants, which can also be brought to the fields with easy metering. Combined with gypsum, which occurs in large quantities in power plants when coal and oil are burned during flue gas desulphurization and which already leads to disposal problems due to the large amount, the fertilizer value of the manure increases due to the core nutrient calcium, which is a component of CaSO ₄ · 2H ₂ O in the form of calcium ions (Ca⁺ ions) goes into solution and serves as a plant nutrient for the scaffolding of the plants and reduces the acidity as soil fertilizer. Advantageously, the gypsum used for the proposed purpose, in contrast to other possible uses such as construction, model, stucco, plaster and screed gypsum, generally does not have to go through any complex cleaning processes. Accordingly, it is available for fertilizer production inexpensively. In addition, the gypsum gives the solid fertilizer mixture a higher mechanical strength by using the manure components as builders. In the proposed solid state, in which the water is at least withdrawn, the combination fertilizer can be applied with the conventional fertilizer spreaders, such as are already available for synthetic mineral fertilizers in agricultural holdings. The liquid manure, with the help of gypsum and maintaining the nutrient content, has been converted into the solid state, ensuring easy handling, just like the synthetic mineral fertilizer.

In addition, there is no need for the fixed Zu Standform the use of expensive waterproof Containers in the form of tanks, pits, silos etc. and can what without the use of more expensive Water-tight transport container packed in bags even in small amounts e.g. B. for small and hob bygärtner easily on the usual sales channels sell manageable. So that is warehousing and transportation in sales is considerably cheaper and technically simplified.

Because the gypsum manure fertilizer, in which above all concentrated nitrogenous nutrients available in a solid state with water solves effects only slowly, in particular Contrasting the mineral components to the manure considerably delayed, so that in this Form the release of nutrients of the receptive of the plant and that in the Liquid manure contained nitrates at a correspondingly high level No precipitation or artificial water supply or only in the smallest amounts in the groundwater penetration.

The fertilizer can also be proposed NEN state form regardless of the expected never The field can be applied because of damage the plant leaves, like wetting the leaves by manure the case is not given, since the fe Most components slide off the leaves or unroll. Ensure independence from the weather  stet that the application of the fertilizer accordingly the operational processes of the company, the Progress of growth of plants and nutrients condition of the soil and not according to the slurry fall or the exhaustion of the storage facility Manure can take place.

To improve the physical properties of the soil it is advantageous to use the combination fertilizer of plant residues, as on the one hand promote ventilation and water balance improve soil life (the activity of Bo stimulate the organisms) and the plant nutrients, which are released when they decompose, strongly delayed and gradual delivery. Depends on the Fiber length of the plant remains contribute to me mechanical strength of the fertilizer mixture.

To the decomposition process of the organic stock parts of the fertilizer in the form of decay or rot nis or fermentation, leading to significant Odor and to escape z. B. from Am moniak leads into the atmosphere and thus the fertilizer value depending on the storage period and the Verpac form would significantly reduce, it is advantageous liable to reduce the water content to such an extent that the moisture decomposition pro processes do not take place or are delayed only significantly can. Dehydration can be done by pressing or about the nitrogen loss of the fertilizer through Verdun to keep ammonia as low as possible the air with the addition of heat.  

To increase the fertilizing effect, it is advantageous the fertilizer other plant nutrients especially in mineral form such as phosphates or potash salts or soil-fertilizing substrates to be mixed and thus more varied with the fertilizer To provide possible uses. The together Settling the fertilizer can depend on both the nutrients State of matter of the soil in the present fertilizer mainly influenced by the component gypsum but also on the nutritional needs of the plants orientate.

In the preferred embodiment as granules is achieved when spreading under wind in contrast to the powder form, a blow of the Fertilizer does not take place and through the choice of Grain size of the granulate the release rate the nutrients can be affected.

The granulate shape also opens up the possibility ness, the single granulate with a what Solubility inhibiting, the time delay the envelope causing the release of nutrients hen. In addition, this can be added a nitrification inhibitor in a desirable manner to reduce. In this form the fertilizer can be used in one Time in which the fields with no problems with machines can be used as a depot fertilizer in the Bo which are brought in and are immediately ready for wax phase in early spring, for example the fields especially with regard to the Soil compaction and the risk of subsidence Machines only after drying for the purpose of fertilizer  can be driven over the plants to disposal.

In principle, any powdered chemical and physical binding form of calcium sulfate is suitable for the production of the liquid manure gypsum fertilizer, for example as anhydrite (CaSO ₄ ), hemihydrate (CaSO ₄ · H ₂ O) or hydrate (CaSO ₄ · 2H ₂ O). The hydrate of copper sulfate (CaSO ₄ · 2H ₂ O) generated during the desulfurization of flue gases in the wet process requires an increased drying effort, depending on the water content of the slurry, i.e. a longer drying time if drying takes place in the air or one higher energy consumption if drying takes place in drying systems with artificial heat. When dispersing anhydrite or hemihydrate in manure, the drying effort and the associated costs and fertilizer loss by escaping ammonia can be significantly restricted or almost completely avoided with a low water content of the manure, since all or part of the water as crystal water in Crystal lattice or coordinatively bound. For the purposes of the invention, this leaves it free to disperse any mixture of anhydrite, hemihydrate or hydrate in the manure. Both the drying and the simultaneous or subsequent mechanical crushing to the required grain size should be carried out in the shortest possible time to avoid the loss of fertilizer, since the ammonium ion (NH ₄ ⁺) converted to ammonia (NH ₃ ) sublimes slightly. For the same reasons, the combination fertilizer should be packed as gas-tight as possible (plastic bags).

Already while dispersing the anhydrite, Hemihydrate or hydrate or a mixture of The same in the manure are usually other mines ralic plant nutrients such as phosphates, potassium and magnesium salts according to the application of the fertilizer.

Claims (8)

1. Combined mineral and organic fertilizer with soil and plant fertilising elements, mineral and or ganic growing medium, characterized in that the present solid state form of fertilizer amounts of gypsum and animal and / or men Schlichem feces and / or urine is. 2. Fertilizer according to claim 1, characterized in that the fertilizer contains plant remains. 3. Fertilizer according to claim 1 and 2, characterized records that the fertilizer the decomposition pro at least widely of the organic components has inhibiting water content. 4. Fertilizer according to claim 1 to 3, characterized records that the fertilizer further mineral and / or contains organic nutrient substrates. 5. Fertilizer according to claim 1 to 4, characterized records that the fertilizer in the form of granules is present.   6. Fertilizer according to claim 1 to 5, characterized records that the granules have a nitrification contains inhibitor and / or a water solubility has an inhibiting covering. 7. The method for producing the fertilizer according to claim 1 to 6, characterized in that
a) Powdered anhydrite (CaSO ₄ ) and / or hemihydrate (CaSO ₄ · H ₂ O) and / or hydrate (CaSO ₄ · 2H ₂ O) dispersed in liquid manure or liquid manure
b) then the water is removed from the dispersion (drying)
c) and simultaneously or subsequently mechanically comminuted the hardened fertilizer. 8. The method according to claim 7, characterized in net that the mixture in process step a) rend dispersing other fertilizers and / or nitrification-inhibiting substances added the.