RU2336253C1 - Method of obtaining sapropelic fertiliser - Google Patents

Abstract

FIELD: chemistry, agriculture.

SUBSTANCE: method includes extraction of sapropel from lake, mixing it with natural organic filler, as such dried crushed peat with particle size up to 100 mcm and humidity up to 10% is used. Extracted from lake sapropel with natural humidity is mixed with said dried and crushed peat, taken in amount determined by formula:

where W_np is set humidity of fertilizer to be obtained, %, W_c is natural humidity of extracted sapropel, %, W_a is peat humidity, %, Q_c is volume of sapropel with natural humidity, supplied per a unit of time, in m³/min, Q_a is volume of peat, supplied per a unit of time, in m³/min until final product is obtained with set humidity.

EFFECT: invention will allow to obtain high-quality fertiliser with stable properties and regulated humidity with acceleration of technological process.

5 cl, 1 dwg

Description

The invention relates to the field of organic fertilizers, and more particularly to a method for producing sapropel fertilizer.

It is known that sapropel has a fairly high natural humidity, of the order of 90-100%, and therefore, when used to obtain fertilizers, excess moisture is removed from it. Moisture removal is carried out either by drying the sapropel in the open air in open alluvium or settling cards with periodic stirring, as described in RU patent No. 2041866, or by dehydration by a hygroscopic method, as described in RU patent No. 2233821. Both methods are focused on removing excess water from sapropel. Bound and free water contains all the nutrients contained in sapropel - these are humic acids, trace elements, vitamins. Naturally, along with the water removed from the sapropel, part of the listed nutrients is removed. Therefore, in order to restore the necessary level of nutrients, it is necessary to introduce fillers into the sapropel - either mineral or organic.

The closest technical solution in relation to the claimed method is a method for producing sapropel fertilizer described in patent RU No. 2041866. This known method involves the extraction of sapropel from the lake, subsequent drying of the sapropel with its periodic mixing and the introduction of a filler in the drying process and further packaging of the finished product (fertilizer). Sapropel is dried in the open air in an open alluvium map for a long time of the order of 2 months or more, and impurities are cleaned after drying of the sapropel.

In the described method, drying the raw sapropel with the filler introduced into it in the open air in an open alluvium map leads to the loss of its nutritional properties by the sapropel. In the open air, sapropel is rapidly oxidized, a large amount of nitrogen is volatilized, as mentioned above - nutrients are washed out with water. When dried, a hard crust forms on the surface of the sapropel, which must be crushed. In addition, this process requires a lot of time (several months) for the finished product (fertilizer) to have the necessary humidity of about 60%, since peat with a humidity of 50-55% is added to raw sapropel. Drying time will depend on weather conditions and precipitation. When drying in the open air, dust, seeds of weeds and other plants, as a rule, are blown into the sapropel, which affects the quality of the finished product. Since peat has a heterogeneous composition and its fractional composition is not regulated, the finished mixture will have foreign inclusions, namely lumps, fibers, wood inclusions.

In confirmation of the better quality of freshly produced than aged sapropel is the method of introducing freshly produced sapropel directly into the soil, followed by sowing. But it is applicable only in the immediate vicinity of the lake and farmland.

The technical task of the present invention is to obtain high-quality sapropel fertilizer with stable physico-chemical properties, not inferior in its nutritional properties to raw sapropel, with adjustable humidity while accelerating the process.

The technical problem is solved in that in the method according to the invention, dried and ground peat with a particle size of up to 100 μm and a moisture content of up to 10% is used as the named filler, and sapropel extracted from the lake with natural humidity is mixed with dried and ground peat taken in a volume determined by the formula:

where W _np is the specified humidity of the obtained fertilizer,%;

W _c is the natural moisture content of the extracted sapropel,%;

W _a - peat moisture,%;

Q _c is the volume of sapropel with natural moisture supplied per unit time, in m ³ / min;

Q _a is the volume of peat (adsorbent) supplied per unit time, in m ³ / min;

to obtain the finished product with a given humidity.

The technical result is achieved by the fact that the humidity of the finished product will be determined not by the drying time, measured in the prototype for several months, but by the ratio of the volumes and humidity of peat and sapropel supplied for mixing, calculated by the formula derived by the authors.

The product obtained by the method contains 100% of the nutrients contained in raw sapropel, because when preparing the product, there is no drying and 100% sapropelic moisture is stored in the finished product.

Wet sapropel has a finely dispersed structure (sapropel particle size less than 5 microns) and is in a jelly-like consistency. Ground dry peat has a dusty structure (particle size less than 100 microns). Mixing these two components provides the finished product with a homogeneous fine-grained friable structure (the size of the resulting grains is up to 1 mm, or up to 1000 microns).

The friability of the grains of the finished product is ensured by the fact that the peat particles are extremely small and as hygroscopic as possible. Because of their small size, they are “deeper” and comprehensively come into contact with a large number of sapropel particles, while absorbing part of the bound water from sapropel and forming larger grains. Swollen peat particles do not allow sapropel particles to stick together, thus creating a loose, loose, fine-grained fertilizer structure.

The bulk density of the resulting product is about 0.5-0.6 t / m ³ , i.e. it turns out that the “air structure” is emphasized, which ensures good aeration of the soil, especially of heavy (clay) types.

Obtained stably fine-grained and homogeneous fertilizer fraction is convenient to use it not only in agriculture, but also in household plots, in home floriculture.

The finished product is characterized by high moisture capacity. Overdried pure sapropel loses its ability to absorb and retain moisture.

Due to the simplicity of the process and independence from weather conditions, high productivity is achieved with the possibility of fertilizer production on the same line up to 2000 tons per month with the shipment of finished products in the shortest possible time (the finished product is shipped to the consumer on the day of sapropel production).

The method allows you to strictly maintain the proportions of the mixed components (peat and sapropel) according to their initial humidity. Despite the fact that dried peat with stable humidity (8-10%) is used, the moisture content of sapropel can fluctuate depending on the depth of the layer being developed.

The moisture content of the finished product is regulated by establishing (changing) the proportion of components.

The main idea of the invention is that, in contrast to conventional methods of processing sapropel, aimed at removing excess water from it by all possible methods, the claimed method consists in preserving all the moisture present in the sapropel using an organic filler with high adsorption capacity, taken in a predetermined volume. Such a filler can be prepared from peat by subjecting it to deep grinding and drying to specified parameters. The method allows for the rapid receipt of the finished product with a moisture content of 55 to 65%.

To speed up the technological process, it is proposed that the process of mixing given volumes of the named components be carried out continuously by introducing dried and ground peat into sapropel with natural humidity.

To improve the quality of sapropel fertilizer, sapropel with natural moisture is cleaned of foreign impurities before mixing with peat.

The proposed method is carried out by a device, a schematic diagram of which is presented in the accompanying drawing.

This device contains a dredger 1, equipped with a bucket, or a grab, or a pneumatic chamber pump, by means of which from the bottom 2 of the lake they extract sapropel with natural humidity from 90 to 100% to shore 3 via pipeline 4. The device also contains a storage hopper 5, in the upper part of which a mesh filter is installed (not shown), through which a crude sapropel is passed for cleaning from foreign impurities, while the hopper 5 is equipped with a screw dispenser 6, which feeds the purified sapropel with natural moisture with a shaft in a continuous two-shaft mixer 7.

The supply of sapropel in the storage hopper eliminates the possibility of getting into it various impurities brought in by the wind, which was the case in the prototype, and prevents significant oxidation of the sapropel by reducing its contact surface with air.

The device has a storage room 8 for peat, which is equipped with a conveyor 9 for feeding peat to a disintegrator 10. In this disintegrator, peat is ground and dried to a homogeneous dry ground peat mass with a grain size of 100 μm and a moisture content of up to 10%. Peat ground to the required size is accumulated in the hopper (accumulator) of the disintegrator 10, from which it is fed by a screw batcher 11 to the mixer 7. The disintegrator provides fast and high-quality grinding of peat simultaneously with its drying to the specified coarseness and humidity.

The principle of operation of the disintegrator is that the wet peat entering it enters the toroidal working cavity, in which a rotor-chopper in the form of metal rods rotates at a transonic speed. These rods, striking particles of peat, destroy them, grinding and giving them a high peripheral speed. By centrifugal forces, the mass of peat is thrown onto the walls of the torus, where peat particles rub against each other, due to which heat is released and moisture evaporates. The driest and smallest particles become lighter after moisture is released and are carried away by the air stream into the cyclone, from which they are poured into the disintegrator storage.

The rotational speeds of the screw dosers of sapropel 6 and peat 11 have the ability to be adjusted (equipped with variators or frequency controllers of rotation) to accurately compose the proportions of the components entering the mixer 7.

In the twin-shaft mixer 7, in which the components are loaded at one end of the elongated chamber, and the finished mixture is unloaded at the opposite end of the chamber, the raw sapropel is continuously mixed with the dry ground peat mass. As the components pass from one end of the chamber to the other due to the rotating shafts, the incoming components are continuously mixed and the finished product (fertilizer) is continuously unloaded with a moisture content of 55 to 65%.

The mixer 7 is equipped with a conveyor 12, which provides the supply of the finished product to the warehouse 13 or to the packaging line (not shown).

At the same time, to prevent possible oxidation of crude sapropel on the way from the deposit to the mixer, the contact surfaces of the equipment, including the pump, pipeline, strainer, hopper, metering screw and mixer, were made of an oxidation-neutral material, for example, stainless steel (except pressure pipeline, which is made of high density HDPE).

The presence of the storage hopper 5, mixer 7 and disintegrator 10 connected by screw batchers ensures the continuity of the production and sapropel fertilizer production process, reduces the cooking time of the product up to 1 hour from the moment the sapropel is removed to its packaging, while maintaining the nutritional properties of sapropel and high quality of the finished product product. With this method, sapropel does not come in contact with open air (ingress of foreign impurities is excluded), large areas for its storage are not required, and freezing of sapropel in winter conditions is excluded.

Due to the fact that raw peeled sapropel (with humidity up to 100%) is mixed in a closed volume (mixer) with a dry crushed mass of peat (humidity up to 10%), the moisture contained between the organic particles of sapropel does not disappear, but is redistributed to the entire volume of new a two-component product, including the volume of peat acting as an adsorbent. The required humidity of the finished product (fertilizer) of the order of 60% is achieved not by further drying it with loss (removal) of moisture (as it was in the prototype), but by adding the calculated volume of adsorbent (peat) with low humidity and redistributing moisture in an increased volume the resulting finished product (fertilizer). Moreover, all the nutritional properties of sapropel are preserved and the resulting fertilizer has the best physical and mechanical properties.

Claims (5)

1. A method of producing a sapropel fertilizer, comprising extracting sapropel from a lake, mixing it with a natural organic filler, characterized in that dried and ground peat with a particle size of up to 100 μm and a moisture content of up to 10%, and sapropel extracted from the lake are used as said filler with natural humidity is mixed with the aforementioned dried and chopped peat, taken in a volume determined by the formula:

where W _np - the specified humidity of the obtained fertilizer,%; W _c is the natural moisture content of the extracted sapropel,%; W _a - peat moisture,%; Q _c is the volume of sapropel with natural moisture supplied per unit time, m ³ / min; Q _a is the volume of peat (adsorbent) supplied per unit time, m ³ / min; to obtain the finished product with a given humidity. 2. The method according to claim 1, characterized in that the process of mixing predetermined volumes of these components is carried out continuously by introducing said dried and ground peat into sapropel with natural humidity. 3. The method according to any one of claims 1 and 2, characterized in that before mixing the sapropel with natural humidity is cleaned of impurities. 4. The method according to claim 3, characterized in that the said purification of sapropel with subsequent mixing with said peat is carried out in a volume isolated from the environment. 5. The method according to claim 1, characterized in that the mixing of these components is carried out to obtain the finished product with a homogeneous fine-grained friable structure with a particle size of up to 1 mm and / or up to 1000 microns.