LV13629B - Method for producing fertilizer from sapropel - Google Patents

Abstract

Method for producing fertilizer contains: draw out from lake a sapropel, purification of them from foreign bodies and mixing thereof with dried and ground peat having measurement of particles to 100 micrometer and moisture content to.10 %. The purified sapropel having natural moisture content has mixed with peat in quantity being calculated by formula: Qa=((Wc-Wnp)Qc)/(Wnp-Wa) wherein Wnp - moisture content of producing fertilizer, %; Wc - natural moisture content of produced sapropel, %; Wa - moisture content of peat, %; Qc - volume of sapropel having natural moisture content and being fed in 1 time-unit, m3/min.; Qa amount of peat (adsorbent) being fed in 1 time-unit, m3/min. until product having prescribed moisture content is prepared.

Description

Method of obtaining fertilizer from sapropel

The invention relates to the field of organic fertilizer production, more particularly to the process of obtaining a fertilizer from a sapropel.

It is known that sapropel has a sufficiently high natural humidity, about 90-100%, so when used to obtain fertilizer, the excess moisture is removed. Moisture removal is accomplished by drying the sapropel either in open air in open leachate layers or in sedimentation shells with periodic mixing as described in patent RU 2041866, or by dehydration by the hygroscopic method described in patent RU 2233821. Both methods are based on the removal of excess water. The bound water and free water contain all the nutrients found in sapropel, such as humic acids, trace elements, vitamins. Naturally, along with the water to be removed, some of the named nutrient also flows from the sapropel. Therefore, fillers - either mineral or organic - should be administered to the sapropel to restore the required nutrient content.

The closest technical solution to the claimed process is to obtain a fertilizer from a sapropel described in patent RU 2041866. This known process involves depleting the sapropel from the lake, followed by periodic mixing and filling of the filler during drying, followed by the final product (fertilizer). Drying of the sapropel is carried out in the open air in an open rinse layer for a period of 2 months and several months, and the impurities are removed after drying of the sapropel. In the described method, the drying of the crude sapropel by the addition of a filler takes place in the open air in an open rinse layer, which leads to loss of nutrient properties of the fertilizer. Sapropel is rapidly oxidized in the open air, a large amount of nitrogen disappears, and as mentioned above, nutrients are rinsed with water. Drying on top of the sapropel forms a hard crust that needs to be crushed. In addition, this process takes quite a while (several months) until the final product (fertilizer) obtains the required moisture of 60%, so that the peat with a moisture content of 50-55% is mixed with the untreated sapropel. The drying time depends on the meteorological conditions and the amount of precipitation. During drying, dust, weeds and other seeds of the sapropel are exposed to the wind in the open air, which reduces the quality of the finished product. As the peat composition is not homogeneous and its fractional composition is not regulated, the finished mixture will be mixed with foreign bodies, ie with various pitches, fibers, wood inclusions.

For better quality performance of freshly obtained sapropel, a method of direct application of freshly obtained sapropel to the soil by plowing serves as confirmation. However, it is only suitable for agricultural land in the immediate vicinity of the lake.

The technical object of the present invention is to obtain high-quality fertilizers with stable physico-chemical properties, which are nutritious, unchanged from untreated sapropel, and with adjustable humidity, in an accelerated technological process from sapropel.

According to the invention, the technical problem is solved by using dried and comminuted peat with a particle size of up to 100 micrometres and a moisture content of up to 10% as filler. Sapropel from the lake, which has a natural moisture content, is mixed with dried and crushed peat, the volume of which is calculated according to the formula;

( ^W c ' ^W np)' ^Q c ( ^W n _P ' ^W a>

where;

W _np - moisture content of fertilizer,%;

W _c - natural moisture content of the obtained sapropel,%;

W _a - peat moisture content,%;

Q _c - volume of sapropel with natural moisture, which is introduced in time unit, m ³ / min;

Q _a (adsorbent) volume of peat introduced in units of time, m ³ / min, until the final product with the expected moisture content is obtained.

The technical result is achieved not as a prototype of the invention, where the moisture content of the final product depends on the drying time, measured over several months, but on the volume / moisture content ratio calculated by the authors' formula for peat and sapropel that is subjected to mixing.

According to the method described, the product obtained contains all 100% nutrients that are present in the crude sapropel, since the product is prepared without drying and all the moisture of the sapropel is 100% retained in the final product. The moist sapropel is a gelatinous consistency with a finely dispersed structure (the particle size of the sapropel is less than 5 micrometers). The mixing of the two components provides a homogeneous, fine-grained, loose structure in the final product (grain size up to 1 mm or up to 1000 micrometres).

The granularity of the finished product is ensured by the fact that the peat particles are as fine and hygroscopic as possible. Due to their small size, they get into deeper and more comprehensive contact with large quantities of sapropel particles, simultaneously absorbing some of the bound water from the sapropel and forming larger grains. Swollen peat particles prevent sapropel particles from sticking together to form a loose, loose, fine-grained fertilizer structure.

The resulting product has a mass of between 0.5 and 0.61 / m ³ , ie a very airy structure is achieved which provides good aeration of the soil, especially on heavy (clayey) soils.

The resulting fertilizer fraction with a stable fine-grained and homogeneous structure is easy to use not only in agriculture, but also in the cultivation of flowers in the backyard. The finished product has a high moisture content. When dried, pure sapropel loses its ability to absorb and retain moisture.

Because the process is simple and weather-independent, it is possible to achieve high throughput and to produce fertilizers in a single line up to 2000 tonnes per month by shipment of the finished product in the short term (the final product is shipped to the consumer on the day of acquisition).

The technique allows the proportions of the components (peat and sapropel) to be adhered to according to the initial humidity of these components.

Despite the use of dried peat with a stable moisture content (8 to 10%), the moisture content of the sapropel can vary depending on the depth of the layer to be developed. The moisture content of the finished product is controlled by setting (changing) the proportions of the components.

The main idea of the invention, unlike the conventional sapropel treatment methods, which are directed to the removal of excess water by all possible means, is to retain all the moisture contained in the sapropel by means of a high adsorbent organic filler which is taken in a predetermined amount. Such a filler can be prepared from peat by subjecting it to crushing and drying to the intended parameters. The method allows rapid production of the finished product with a moisture content of 55 to 65%.

In order to speed up the technological process, it is proposed to mix the calculated volumes of the said components in a continuous mode by introducing dried and crushed peat into the sapropel of natural moisture. In order to improve the quality of the fertilizer from the sapropel, the sapropel of natural moisture is cleaned of foreign matter before mixing with peat.

The proposed method is implemented in an apparatus whose principal scheme is shown in the accompanying drawing (Fig.1).

This unit contains a dredger (1) equipped with a bucket or grabber, or a pneumatic chamber type pump, which discharges sapropel from the bottom of the lake (2) to the shore (3) with natural moisture content is 90 to 100%. The apparatus comprises a storage hopper (5) having a filter screen (not shown) at the top, which passes through the unprepared sapropel to remove foreign bodies, the hopper being provided with a worm-type dispenser (6) which provides continuous operation of the purified natural moisture sapropel. in a bivalve mixer (7).

The supply of sapropel in the accumulation hopper eliminates the possibility of various wind-carried impurities entering the sapropel mass, which was not prevented by the inventive prototype, and prevents substantial sapropel oxidation by reducing the contact surface between the sapropel and the air.

The plant has a peat storage room (8) equipped with a conveyor (9) for feeding peat to the disintegrator (10). In the disintegrator the peat is crushed and dried until a homogeneous dry mass of peat with a particle size of 100 micrometres and a moisture content of up to 10% is obtained. To the required parameters, the crushed peat enters the storage hopper of the disintegrator (10), from which it is fed to the mixer (7) via a screw-type dispenser (11). The disintegrator provides fast and high quality peat grinding and drying to the set size and humidity at the same time.

The principle of the disintegrator is that the wet peat enters it into a toroidal working area, where a rotor-type metal rod rotates at a speed close to the sound speed of the rotor. These rods shatter and give them a high velocity when impacted against the peat particles. Under the influence of centrifugal forces, peat mass is thrown against the walls of the torus, where heat and moisture evaporation occur when the particles are rubbed together. The purest and finest particles become lighter and are transported by a stream of air to the cyclone, from which they collapse into the disintegrator's accumulation hopper.

The rotation speeds of the sapropel and peat auger metering units (6) and (11) can be adjusted (equipped with variators or rotary frequency regulators) to precisely set the proportions of the components to be introduced into the mixer (7).

In a bivalve mixer (7), in which the components are loaded at one end of the extended chamber and the finished mixture is unloaded at the opposite end of the chamber, the unprepared sapropel is continuously mixed with dry crushed peat. The rotating rollers allow the loaded components to be moved from one end of the chamber to the other, with continuous mixing, and continuously unload the finished product (fertilizer) with a moisture content of 55 to 65%.

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

In addition, to prevent possible oxidation of crude saprop from the sediment to the agitator, the contact surfaces of the machine, including the pump, pipeline, filter screen, hopper, auger, and agitator, are made of non-oxidizing material, such as stainless steel. (excluding pressure pipe made of high density polyethylene).

The accumulation hopper (5), mixer (7) and disintegrator (10) connected to the auger type feeders ensure the continuity of the process of obtaining the sapropel fertilizer, shortens the preparation time up to 1 hour from the moment of sapropel depletion to the finished product packaging. the preservation of the nutritional properties of the sapropel and the highest quality of the finished product. In this method, the sapropel does not come into contact with the open air (impurities are prevented), there is no need for large storage areas, and the sapropel does not freeze in winter conditions.

So that untreated but purified sapropel (with moisture content up to 100%) is mixed in a closed volume (mixer) with dry crushed peat (moisture content up to 10%), the moisture between the particles of sapropel organic matter does not disappear, but decomposes in a new two-component product. the total volume, including the volume of peat which serves as an adsorbent. The required moisture (about 60%) of the finished product (fertilizer) is not obtained by further drying by removal of moisture (as described in the prototype of the invention), but by adding a calculated amount of adsorbent (peat) with lower moisture content. the increased volume of the finished product (fertilizer). In addition, all the feed values of the sapropel are retained and the resulting fertilizer has good physical and mechanical properties.

Claims (5)

Claims of the Invention 1. The method of obtaining a fertilizer from a sapropel consists in depleting the sapropel from the lake and mixing it with a natural organic additive, characterized in that dried and comminuted peat with a particle size of up to 100 micrometres and a moisture content of up to 10% is used; the sapropel derived from the lake with its natural moisture content is mixed with the said dried and crushed peat taken in a volume calculated by the formula: ( ^W c - ^W n _p ) - ^Q c _{Qa =} ( ^W np - ^W a) where: W _np - moisture content of fertilizer,%; W _c - natural moisture content of the obtained sapropel,%; W _a - peat moisture content,%; Q _c - volume of sapropel with natural moisture, which is introduced in time unit, m ³ / min; Q _a (adsorbent) volume of peat introduced in units of time, m ³ / min, until the final product with the expected moisture content is obtained. 2. A process according to claim 1, wherein the amounts of said components are mixed in a continuous manner by introducing into the sapropel the dried and crushed peat with natural moisture content. 3. A process according to any one of claims 1 and 2, wherein the sapropel with its natural moisture content is purged of foreign matter prior to mixing. I J 4. A process according to claim 3, wherein said sapropel purification and further mixing with the above-mentioned peat is carried out in an enclosure isolated from the environment. 5. A process according to claim 1, characterized in that said components are mixed prior to obtaining a finished product with a homogeneous, fine-grained, loose structure having a particle size of up to 1 mm and / or 1000 micrometers.