DE19900071A1 - Fertilizer produced from farmyard slurry - Google Patents

Abstract

A fertilizer produced by processing anaerobically digested farmyard slurry with biogas production is new.

Description

The invention relates to a method for producing a fertilizer from the end products biochemical digestion processes.

Methods are known to gas from organic material by digestion processes to produce, which is called biogas. Biogas is a water vapor-saturated, flammable Mixed gas created by methane fermentation. The end product results in this Digestion process a more or less viscous liquid, which as a fertilizer Liquid fertilizer is to be addressed.

The digestion process is also known as anaerobic digestion. The priority is with the Anaerobic digestion does not change the properties of the slurry, but the extraction of biogas, i.e. energy. Through this process, oxygen is excluded especially the easily degradable organic substances are converted into biogas. Under this From the point of view, the other changes in manure are only to be regarded as side effects but important for recycling at the end of the biogas production process are. Finally, only about 3% of those used in the process of anaerobic fermentation organic matter - of whatever kind - converted into gas. The rest of the rest Liquid manure of 97% has different properties compared to "input liquid manure" (raw liquid manure).

Changed properties are:

Reduction in odor intensity,
Reduction of dry matter,
Hygienization by thermal treatment,
Change in fertilizer effect.

Chemical compounds in the slurry such as acetic acid, propionic acid, butyric acid, sulfur Hydrogen and ammonia are the cause of the bad smell of the manure: one Substance more, the other less. Due to the anaerobic fermentation, the proportions of these go Connections sharply back; overall around 40-50%. An exception is Ammonia: here the content increases because ammonia is broken down by the breakdown of proteins is released. However, ammonia influences the odor formation only to a small extent Part.

The percentage breakdown of organic matter is around 40%. The organic substance is about 70% of the total dry matter, so that a reduction in Dry matter of about 30-35% can be calculated.

The manure is hygienized over a longer period of time in normal storage under the conditions of outside temperatures. The process is accelerated in anaerobic digestion because it works at higher temperatures. One differentiates:

Psychochrophilic range: 0-20 ° C
Mesophilic range: 20-40 ° C
Thermophilic range: 40-60 ° C.

It is mainly used for anaerobic digestion in the mesophilic range because higher temperatures the gas quality becomes worse because of the lower content Methane. At these temperatures between 20-40 ° C can not be complete Hygiene can be expected.

The last of the changed properties is the change in the fertilizing effect. Experiments have shown that the anaerobically fermented manure works faster than that  unfermented manure, but not as resonant. Accordingly, it must not be an evenly flowing one Nitrogen source can be expected during the growing season of field and garden crops. This can be explained by the fact that the anaerobically fermented manure has a higher content of volatile ammonium and a smaller amount of organically bound nitrogen which is gradually released. It is a lack.

Anaerobic digestion means: a reduction in the bad smell, one Accelerated hygienization, a decrease in dry matter mass and ultimately a change in the fertilizing effect by increasing the immediate effect of the contained nitrogen.

All in all, the anaerobic fermentation results in a slight improvement in the Manure properties. But it is not enough to ensure the economy of biogas to significantly improve extraction.

To assess the economic viability of a process, the costs and revenues must be compared. The costs are the investment and operating costs counted. If these are biogas plants that only process liquid manure as a raw material, then raw material costs are to be set at zero. Are additional 5-10% organic raw materials used (co-fermentation) such. B. Biowaste, municipal crops and slaughter yard waste, then disposal proceeds of different sizes are profitable bring in. Further proceeds are generated through the utilization of the biogas: Warmth for own use and for the supply and above all electricity for the Own use and for supply to the network. The mentioned improvements in manure and thus ecology are not to be assessed economically.

It is known that profitability with anaerobic digestion of manure only increases could be achieved if the state supports the investment with 30%. At a Co-fermentation, i.e. in a biogas plant, the manure and organic residues together processed, profitability can be achieved under certain conditions. As Preconditions are favorable cases: 30% suitable organic residues with a disposal proceeds of 50-100 DM / t.

Whichever approach you take, 97% of liquid manure will still have to be applied as liquid fertilizer. The bad smell of the manure is largely reduced, but the other problems of the manure remain: the nitrate leaching after fertilization with manure and the anthropogenic entry of nitrogen into the environmental media soil, water and air. Human intervention - to a significant extent in agriculture - disturbs the balance of the ecosystem. As is known, there are the following harmful nitrogen effects:

Impairment of drinking and groundwater quality,
Long-term climate changes,
Destabilization of terrestic and aquatic ecosystems by eutrophication (hyper-trophation) and acidification,
Ecotoxicological damage to aquatic biocenoses (communities of plants and animals),
Accelerate corrosion of materials.

The present invention has set itself the task that with a biogas plant Larger input of liquid manure the anaerobically degassed liquid manure ecologically and economically to process and utilize and to eliminate the deficiencies mentioned. The following The described process and the resulting product are not only for manure and organic residues limited, but extend to any type of organic Starting materials from which biogas is obtained using known and practiced processes becomes.  

The process according to the invention is described as follows:
The digested slurry, or more generally: the digested organics, are mixed and / or agglomerated with relatively dry organics and then composted. Relatively dry organic matter is, for example, crop residues such as straw from various types of fruit and reeds. The moisture content should not exceed 12% by weight. A significant criterion for the permissible moisture content of a dry organic substance is its grindability.

According to the method of the invention, the dry organic matter is first crushed - the finer, the better - and with the digested liquid from the biogas plant mixed. It is advantageous for the subsequent composting to mix the digested organic matter and the ground dry organic matter agglomerate. Various known methods can be used for agglomeration become. Granulation in a pelletizing drum with one of the Entry up to discharge angle, because here an addition of about 15-25% by weight Dry substances are sufficient. The mixture is adjusted according to the invention so that the C / N ver Ratio is between 30-40. This mixture of the digested liquid and the drying agent is rolled up into spherical granules in the granulating drum. Of the The diameter of the spherical granules is between 10-50 mm. These granules are piled up for rent for composting. They have because of their spherical structure good air permeability. It is advantageous because the composting - like known - aerobic conditions required.

It belongs to the state of the art after fermentation in the production of biogas Separate remaining liquid end product and the resulting solid compost. By separating you get the liquid in the final product contained solid, but the vast majority of the liquid end product is still available. In contrast, the method according to the invention is limited in that none Separation takes place, but provide the liquid end product with so much drying agent is that it can be piled up to compost rents. However, it is technical possible to process the liquid remaining by separation according to the invention and recycle.

In comparison to the prior art, this invention renders the whole rotted liquid amount of organic matter composted. Since composting in the stratified rent temperatures between 60-70 ° C will be reached Hygiene of the entire end product instead. This will make the lack of sanitation of the end product from the production of biogas avoided. Because temperatures between 60-70 ° guarantee an almost complete killing of germs and Weed seeds. The composting period is about 2-3 to achieve a maturing compost Months.

The invention consists of several sub-steps (multi-stage process), although individually run means technical progress, but run overall to one product that is not a disposal product, but a product that is completely new Fertilizers must be classified.

After composting, ie as a second step of the invention, the compost agglomerated. As is well known, two main areas of agglomeration technology are known: the Roll agglomeration - also called granulation - and press agglomeration - also as Called pelleting. Machines such as are suitable for pelleting Ring die presses, flat die presses and screw presses. The pellets are cylindrical  and generally have a diameter between 4-8 mm and about two and a half times Length. Before the pelleting process, small amounts of organic fertilizers are added to the compost added, like guano, horn meal and blood meal and / or mineral fertilizers like Calcium ammonium nitrate, ammonium sulfate, superphosphate, hyperphos, potassium salt and others commercially available mineral fertilizers. The amount added varies on average 15-25%. It depends on which type of fruit should be fertilized with the pellets.

This measure not only changes the fertilizer effect of the anaerobic fermented manure and / or other organic residues balanced, but at the same time one surprising effect of the fertilizer applied to the agricultural land generated. The effect is multiple. It consists first of all in that an evenly flowing Nitrogen source has arisen. The property of the anaerobically fermented manure that due to the breakdown of organic matter during fermentation the binding relationships changed, leads to a faster release of the nutrients, especially the Nitrogen. This can be considered a deficiency because of the plant during the Growth period is not uniform and in sufficient quantities of nutrients, in particular Nitrogen.

The average nitrogen requirement of agricultural crops for fruit is around 112 kg of pure nitrogen per hectare. Anaerobically fermented cattle manure, for example, contains about 4 kg of nitrogen in one cubic meter. Theoretical: To cover the nitrogen requirement of one hectare of fruit, 28 m ^{3 of} anaerobically fermented manure would have to be applied, whereby deductions for atmospheric nitrogen deposition and biological nitrogen fixation were not taken into account; also surcharges for losses due to nitrate leaching, which can be up to 50% with a single application.

Acting according to the invention are only 1000 kg of pellets per hectare with a nitrogen content of approx. 30-50 kg as a spread rate. This - empirically determined - surprising effect is based on the combination of compost and organic and / or mineral fertilizers in the pellet shape described above. The advantages of this effect of the present invention are both ecological and economical.

Ecological because the disadvantages of spreading the anaerobically fermented manure: no complete sanitation, none sustainable fertilizing effect, no prevention of nitrate leaching and no urgent Necessary reduction of nitrogen emissions in the environmental media. So can be secured be considered that the increased nitrate levels mainly from agricultural used soils. One speaks of "inappropriate expenditure on mineral and organic nitrogen fertilizers ". According to the invention, the nitrogen input becomes demand adapted to the plants. According to the invention is almost completely hygienized The fertilizing effect is sustainable, the nitrate leaching is prevented and the nitrogen inputs into the environment are diminished. In addition, there is another advantage of the invention manufactured product: it can be "exported" from the region, from strong cattle agricultural regions in regions with predominantly arable farming structure.

The economic advantage of the invention is that the manure is fermented from anaerobic fermentation manufactured fertilizer is a cheap product and therefore the operation of biogas plants can be profitable, moreover, under certain conditions, state Funding will be waived.

Claims (7)

1. A process for the production of a fertilizer for fertilizing crops, in particular in the agricultural field, characterized in that the anaerobically fermented manure obtained in the production of biogas from manure and / or organic residues is processed. 2. The method according to claim 1, characterized in that the anaerobic fermented manure is processed into a fertilizer in a multi-stage process. 3. The method according to claims 1 and 2, characterized in that the Mixing, granulating, multistage processes from the process steps, compost and pelletize. 4. The method according to claim 3, characterized in that the anaerobic fermented manure mixed with dry and crushed organic matter and is then granulated. 5. The method according to claims 3 and 4, characterized in that the anaerobic liquid manure and dry matter existing granules are composted. 6. The method according to claims 3 to 5, characterized in that the Compost mixed with organic and / or mineral fertilizers and is pelleted. 7. The method according to claims 1-6, characterized in that for Fertilization of agricultural crops only a maximum of 60% of the usual Amount of nutrients in the form of pellets are scattered.