RU2256635C1 - Method for preparing fertilizer - Google Patents

Abstract

FIELD: fertilizers.

SUBSTANCE: invention relates to producing organomineral fertilizers with using domestic sewage waters. Method involves mixing sewage waters with solution containing fulvic acids isolated from turf. Prepared suspension is heated to 40-55°C, activated in magnetic field and suspension is separated by centrifugation. Isolated solid phase is mixed with gel-like deposit containing humic acids isolated from turf and obtained product is treated with calcium hydroxide solution and subjected for aeration. Method provides enhancing quality of fertilizer due to reducing content of heavy metals in product.

EFFECT: improved method for preparing.

5 cl, 2 tbl, 1 ex

Description

The invention relates to the field of chemistry and can be used to obtain organic fertilizers using domestic wastewater.

A known method of processing sewage sludge with the aim of dehydration, which consists in mixing sewage sludge with lime taken in an amount of 50-350% by weight of dry sludge, subsequent compaction of the resulting mass to a moisture content of 93-96%, and then mechanical dehydration to a moisture content of 60 -80%. Dehydrated product is used in agriculture for fertilizing and alkalizing acidic soils (SU 468894, 1975).

There is a known method of producing fertilizer, according to which first from about 0.1 to about 3.0 wt.% Humic concentrate obtained by electrochemical method from natural gummites and caustobioliths of the coal series and containing hydrated humic acids, salts of humic acids and mineral components is first introduced into the wastewater starting coal gummites and caustobiolites of a carbon series chemically bound to the humic acids contained, and then about 1 to about 30 wt.% of at least one ground natural material is introduced, selected Nogo from the group consisting of calcium- and magnesium-containing minerals and rocks (RU 2125038, 1994).

The closest in technical essence and the achieved result is a method for producing fertilizer from wastewater and peat processing products, which includes peat treatment with an alkaline reagent, isolation of a solid fraction and a complex of humic acids, isolation of a low molecular weight fraction of humic acids and a high molecular weight fraction of fulvic acids from a complex of humic acids, dissolution low molecular weight fraction of humic acids in an alkaline solution of calcium hydroxide to obtain an alkaline solution of calcium humate, sol rhenium in the last ionic sorbent to obtain a suspension, which is mixed with wastewater containing organic components in a mixer with a rotating working body, moreover, the ionic sorbent is obtained by sequentially heat-treating the solid ballast fraction and forming a layer of granules, which is treated with an alkaline humate solution calcium, then washed with an aqueous solution of high molecular weight fraction of fulvic acids and conduct the aeration of the target product (RU 2216528, 2003).

The disadvantage of this method is that in the described sequence of stages, heavy and non-ferrous metals in wastewater pass into the composition of the obtained fertilizer, which is unacceptable at a high content.

The objective of the present invention is to improve the quality of fertilizer by providing the possibility in the process of its production to reduce the content of heavy metals in the target product.

The problem is solved by the described method of producing fertilizer, including the interaction of domestic wastewater with peat products and a calcium-containing compound, which is carried out in the following sequence: first, the wastewater is mixed with a solution containing fulvic acids isolated from peat, the resulting suspension is heated to 40-55 ° C activate in a magnetic field, separate the suspension by centrifugation, the separated solid phase is mixed with a gel-like precipitate containing humic acids, isolated and s peat, and then the resulting product is treated with a solution of calcium hydroxide, and the reaction product is subjected to aeration.

Preferably, the wastewater is mixed with a solution containing fulvic acids at a volume ratio of 5: 1, respectively.

Preferably, the isolated solid phase is mixed with a gel-like precipitate containing humic acids at a volume ratio of 30: 1, respectively.

The method provides that a solution containing fulvic acids is obtained by treating peat with a potassium hydroxide solution, separating the liquid phase, treating the liquid phase with sulfuric acid to pH 2 and gel formation and collecting the resulting supernatant.

The method provides that the precipitate containing humic acids is obtained by treating peat with a potassium hydroxide solution, separating the liquid phase, treating the liquid phase with sulfuric acid to pH 2 and collecting the obtained gel-like precipitate.

The following is an example of a specific implementation of the claimed method.

Example. To obtain organic fertilizer, household wastewater from the Shchelkovo aeration station containing metals is used, see table 1.

Table 1. 1 2 3 Items The initial content, mg / kg dry matter After treatment, mg / kg dry matter Cadmium 70 2.25 Zinc 4100 116.3 Copper 1800 439.0 Chromium 3200 12.7 Nickel 570 44.9 Lead 250 94.2 Manganese 520 96.0 Silver 2 0.2 Arsenic 25 4.37

A solution containing fulvic acids and a precipitate containing humic acids are preliminarily prepared from peat as follows.

Peat of the Melchevsky deposit is treated with 0.1% potassium hydroxide solution. The product is separated into solid and liquid phases. The liquid phase is treated with sulfuric acid to achieve a pH of 2.0. Settling is carried out for 2 hours. After this, the separation of the formed gel-like precipitate containing humic acids and the supernatant, i.e., a solution containing fulvic acids, is carried out.

Wastewater containing organic substances, suspensions, and metal ions are shown in table 1, mixed with the resulting solution containing fulvic acids with a liquid volume ratio of 5: 1, respectively. The resulting mixture in the form of a suspension is heated to 55 ° C, and, starting from a temperature of 40 ° C, increase the temperature to 55 ° C for 10 minutes in a linear manner. After that, the suspension is exposed to a constant magnetic field with a strength of 1 ke for 10 ms. The activated suspension is sedimented for 40 minutes, after which the solid and liquid phases are separated by centrifugation. The liquid phase containing the bulk of the heavy metals is taken out of production. The solid phase is mixed with the previously obtained gel-like precipitate in a ratio of 30: 1. The resulting mixture was treated with a 0.1% solution of Ca (OH) ₂ (lime flour) in a ratio of 30: 1 and subjected to aeration for 3 days. The chemical composition of the target product is shown in table 2. The residual metal content in the target product is presented in table 1 (column 3).

Table 2. The average chemical composition of the obtained fertilizer. Humidity% 76,4 The concentration of dry matter,% 23.6 Ash content by weight of dry matter,% 29.5 The concentration of organic matter by weight of dry matter,% 70.5 The composition of the mineral part in% by weight of dry matter CaO 9,4 MgO 5,6 SiO ₂ 8.5 Al ₂ O ₃ 0.01 Fe ₂ O ₃ 3.72 SO ₃ 1.7 P ₂ O ₅ 0.1 K ₂ O 0.17 Na ₂ O 0.19 Other items 0.11

Thus, in comparison with the prototype, it was possible to reduce the metal content in the fertilizer, and, in addition, increase the time of effective interaction of the fertilizer components with biostructures.

Claims (5)

1. A method of producing fertilizer, including the interaction of domestic wastewater with peat products and a calcium-containing compound and aeration of the interaction product, characterized in that the interaction is carried out in the following sequence: first, the wastewater is mixed with a solution containing fulvic acids extracted from peat, the resulting suspension is heated up to 40-55 ° C, activated in a magnetic field, the suspension is separated by centrifugation, the separated solid phase is mixed with a gel-like precipitate containing humic acids isolated from peat, and then the resulting product is treated with a solution of calcium hydroxide. 2. The method according to claim 1, characterized in that the wastewater is mixed with a solution containing fulvic acids, with a volume ratio of 5: 1, respectively. 3. The method according to claim 1, characterized in that the selected solid phase is mixed with a gel-like precipitate containing humic acids, with a volume ratio of 30: 1, respectively. 4. The method according to claim 1, characterized in that the solution containing fulvic acids is obtained by treating peat with a potassium hydroxide solution, separating the liquid phase, treating the liquid phase with sulfuric acid to pH 2 and gelation and collecting the resulting supernatant. 5. The method according to claim 1, characterized in that the precipitate containing humic acids is obtained by treating peat with a potassium hydroxide solution, separating the liquid phase, treating the liquid phase with sulfuric acid to pH 2 and collecting the obtained gel-like precipitate.