UA69195A - A method for production of organo-mineral fertilizer - Google Patents

Abstract

A method for production of organo-mineral fertilizer consists in mixing of active silt with peat, composting with organic fillers and chemical meliorants of digested deposits of sewage.

Description

Description of the invention

The invention relates to methods of obtaining organo-mineral fertilizers by processing and utilization of 2 household waste and can be used in agriculture and communal farming. At the same time, the method concerns the process of obtaining organo-mineral fertilizers from fermented sewage sludge of sewage treatment plants.

A known method of utilization of sewage sludge (SWW) with the production of organic-mineral fertilizer (Patent

of the Russian Federation 2038345 under art. 6 СОБ5Е7/00 for 1991, Method of obtaining organo-mineral fertilizer, 70 op. in 1995, Bull. Mo18.), in which fermented OSV is mixed with a solution of sulfuric acid with a concentration of 0.52-0.8 bmol/dm? at a temperature of 40-702C for 10-20 minutes. After that, the resulting mixture is filtered on a drum vacuum filter, and the residual acidity of the sediment is neutralized with alkaline agents.

A known method of obtaining organo-mineral fertilizer (Patent of the Russian Federation 2039726 under clause 6

СО5Е7/00 for 1991, Method of obtaining organo-mineral fertilizer, op. in 1995 Bul. Mo20.) by treating t of fermented OSV with nitric acid solutions to remove heavy metals in an apparatus with a stirrer and heating.

Removal of metals from the solid phase is carried out with a solution of nitric acid with a concentration of 1.00-1.25 mol/dm at a temperature of 50-70 for 10-20 minutes. With solid:liquid phase ratios of 1:5 and Reynolds numbers of 51-10, the residual content of heavy metals in the solid phase meets the standards. After filtering the fermented ROS treated in this way, the residual acidity is neutralized with alkaline agents, such as 720 KOH, MH, OH, Saso." The metals are further precipitated from the solution and processed into sludge.

Both methods make it possible to reduce the content of heavy metals in the obtained organo-mineral fertilizers without significantly changing the composition and properties of the original organo-mineral components.

The closest technical essence to the proposed method is the method (Author's certificate for the invention 1532551 for class SOBR7/00, СО2Е11/12 of 1986, Method of obtaining organic fertilizer, op. in 1989.

Bul. Mo48.), in which fermented OSV (activated sludge) is obtained due to the biological treatment of wastewater, "this sludge is mixed with peat, and then the resulting mixture is dewatered by settling. To improve the quality of the received fertilizer by reducing the content of heavy metals in it, activated sludge (fermented OSV) with an ash content of 15-45965 is used, which is cultivated for 5-15 hours, and the mixing of activated sludge with peat is carried out at a ratio of 1:1-- 1:8.

The disadvantage of the prototype is that the obtained organo-mineral fertilizer is improved only in terms of the content of heavy metals in it, but remains poor in sanitary and bacteriological terms and not sufficiently balanced in terms of agrochemical indicators. This is due to the fact that fermented OSVs usually have a defined and not always optimal composition and ratio of plant-nutritive components, on the one hand, and //F) z5 On the other hand, they require a stage of disinfection and deworming. "co

The invention sets the goal of improving the balance of the organo-mineral fertilizer composition in terms of plant-nutritive components with simultaneous disinfection of the received fertilizer from pathogenic microflora and helminths and reducing the content of heavy metals both in general and in water-soluble forms.

The task set by the invention is achieved by the fact that in the method of obtaining organo-mineral fertilizer, with "

Using fermented sewage sludge, which includes mixing activated sludge with peat, according to the invention for disinfection from pathogenic microflora and helminths, reducing the content of heavy metals, fermented sewage sludge is subjected to composting with organic fillers and chemical meliorants taken from: weight ratio according to the index C:M-(20-50):1 on dry matter, for 1.5-2 months at a temperature of 55-607"C in the reaction mixture inside the burt, and the amount of gravity water in the grown activated sludge for every 100g of completely dry sludge substance is 70-80 g, in addition, lignin, peat, crushed straw of grain crops, sawdust or their mixtures are used as organic fillers, taken from the calculation of creating the optimal C: M ratio in the reaction mass and the dimensions of the side for the biothermal is) composting, as well as chemical meliorants phosphogypsum, phosphorite, phosphorite flour, feces are used as fillers.

The technical result obtained due to the use of all essential features in the scope of patent claims, and) is the production of organo-mineral fertilizer, which is balanced in terms of nutrients for agricultural crops, disinfected to normative values in terms of sanitary and bacteriological and has a reduced concentration of heavy metals.

Justification of the agrochemical characteristics of the proposed fertilizer.

As is known, WWTPs of treatment plants accumulate in significant quantities on sludge sites and unsuitable dumps, polluting the surrounding natural environment. At the same time, according to availability and content

With many nutrients, they can be classified as man-made formations valuable in agrochemical terms. By its composition, the fermented OSV corresponds to the average indicators given in Table 1, or it can be artificially brought to the specified conditions. However, the direct use of beneficial components of fermented ROS by agricultural crops is limited by the presence in it of other substances, components, microorganisms, helminth eggs, and ingredients that are harmful from an ecological and sanitary-bacteriological point of view. Therefore, it is necessary to additionally process the fermented OSV to the level of compliance of the final product with the existing agrochemical, sanitary-bacteriological and other norms. In addition, the preservation of OSV in open areas leads to the loss of chemical elements that are nutritious for agricultural crops (for nitrogen - from 45 to 75965, for phosphorus from 21 to 3890, for potassium - up to 37-4090).

and you

Peace elements gross mstv 0 and Uch PO x

Thus, the processing of fermented OSV into organo-mineral fertilizer is a cost-effective and ecologically safe way of OSV utilization, which is a significant part of modern technologies of biochemical wastewater treatment.

In order to reduce the loss of nutrients from OSV, and first of all nitrogen, this method is proposed to

Add chemical meliorants - phosphogypsum or phosphorites, phosphorite flour, feces to OSV.

The effect of phosphogypsum on fermented sewage sludge is due to the fact that sulfuric acid, which is part of it, binds ammonia to ammonium sulfate and then to complex compounds in the process of the following reactions:

VOZ 2MNI - (MNO" 804 " (mnoz 804 -savOd - (MN (VO 4

It was established that 6.14 kg of Sabo /02Н2»0 is needed to bind a kg of ammonia nitrogen. Phosphogypsum of the 1st grade contains about 8095 Sabo /02H2O, therefore, about 8 kg of phosphogypsum is needed to bind one kg of ammonia nitrogen. The need for it per 1 ton of sediment is shown in Table 2. It should be noted that phosphogypsum, in addition to its main purpose, improves the flowability of compost and reduces the unpleasant smell of sediments. Ge") -

Ф binding of ammonia nitrogen з Ф « лю 1100я4ово001000000вяв - з с ю011003о0010000006 з

In addition, the introduction of phosphogypsum makes it possible to increase the fertilizing value of compost, improve the sanitary and hygienic conditions of working with it, and reduce the risk of environmental pollution. In its (22) turn, the process of composting the mixture ensures not only the preservation and the most complete use of nutrients in the sediment, but also increases the volume of accumulation of the final product, which reduces the concentration of heavy metals in the fertilizer. - For the preparation of organo-mineral fertilizer, phosphogypsum of the 1st grade is most suitable, because it does not clump together and is a fine crystalline powder. According to TU 6-08-418-80 "Calcium sulfate (phosphogypsum) for agriculture (1989)" grade 1 phosphogypsum contains the main substance - СахоОодп2НьЁоО in terms of sl per dry dihydrate - not less than 92960, hygroscopic water - not more than 695 , water-soluble fluorine compounds (No|ZiIevi,

Ma»hIzZieviI, Collect., NE), in terms of fluorine no more than 0.395. In terms of physical properties, it is close to superphosphate. The volumetric weight of grade 1 phosphogypsum is 750-980 kg/m. 22 Another component of the mixture for obtaining a full-fledged organo-mineral fertilizer is organic p» fillers, as which it is suggested to use lignin, peat, crushed straw of grain crops, sawdust. Their type and quantity are determined by two technological criteria of the fertilizer production process: 1) creation of an optimal C:M ratio in the reaction mass for its biothermal processing and 2) formation of the required dimensions of the sides for heating the mass during composting. 60 Agrochemical characteristics of organic fillers are given in Table 3.

Moisture absorbent material Moisture, 95 Density, pH

Lignin 60-70 - 2.5-3.01...015 0.02 0.02

Straw-sulphur uleturpodryutenya) 1400005050 02000406 00203 075712. liva 11111111 vv | howl) 0 oivov | o2Bozv 0 oto

The data in this table allow you to choose the optimal and balanced compositions of any mixtures of the proposed organic fillers, adhering to the required C:M ratio in the reaction mass.

The set rate of water in activated sludge (70-8095 wt.) is a necessary condition for using the specified ratio of components in the reaction mass. If the humidity of the fermented OSV differs from the specified 70, then the required amount of organic filler can be selected according to table 4, while keeping the same amount of chemical meliorant. and organic materials (fillers) at different humidity levels of sediment 61

The ratio of the components of the reaction mass, which are mixed, is selected experimentally and allows the use of waste from various industries. At the same time, the specified additives (organic fillers, chemical meliorants), introduced in a given ratio, allow them to effectively interact with activated sludge microorganisms and, thereby, achieve their best aggregation and transformation into nutrient components of fertilizer. The latter is also true for the chemical ameliorant - phosphogypsum; at the same time, they carry out its disposal, "which is a big problem for the chemical industry of Ukraine.

It is established that the sides should have a height of 2.5-3.0 m, a width of at least 4 m and any length. The minimum weight of the board is 300 tons. If these requirements are met, the temperature inside the board rises to 56-6070 in 8-12 days.

Two weeks after reaching such a temperature, it is necessary to carry out cutting of the side. This contributes to Shcheo, the uniform flow of biothermal processes in all layers of the burt. At positive external temperatures, the composting process lasts 1.5-2 months.

The optimal mode of biothermal processing of the reaction mass provides disinfection and deworming (-Ж7 of fermented OSV to a safe level of phytotoxicity, characteristic of soils (table 5). Ф zv Ka processing of the reaction mass into fertilizer: I - at the beginning of composting, I! - in the finished product

General Colitis | Filaroid larvae (Ammonifier | Phosphorus Oligonitro | Bacteria that Actinomycetes, /Microsko | Phytotok-s ? contamination of positive samples of dry bacteria, mln./g mineral fungi, UKO fecal matter mln./g nitrogen, mln./g yew /g - with origin, ts million/g of dry matter

MI ns ost o portrait and pi erereniuvinnia not same mint mu miv -5 found

F AGA 17-17 -1-1-1-1- 2712711 A

Background -

The agrochemical efficiency of the organo-mineral fertilizer obtained by the specified method is not only in the amount of nutrient elements nitrogen, phosphorus, potassium, trace elements in it, but also in the presence of such components as humates, phosphogypsum. The peculiarity of the proposed fertilizer, which includes phosphogypsum, is that it is most appropriate to use it for row and winter crops, as well as for perennial grasses; phosphogypsum also increases the efficiency of fertilizer use when growing legumes and cruciferous crops, which are particularly demanding of calcium and sulfur nutrition.

On the other hand, the systematic use of large doses of such fertilizer can be limited by the accumulation of

P soil and plants of toxic elements, for example fluorine, the concentration of which should not exceed 200 mg/kg of dry soil. Since fluorine is the most important toxicant in the composition of the fertilizer, based on its content, a theoretical calculation of the maximum doses of fluorine that can be applied with the recommended agrochemical and practical norms of organic fertilizers for various agricultural crops was performed, the results of which are shown in Table 6.

Recommended rates of application of organic-mineral fertilizer for various agricultural crops (t/ha) b5 soil soil soil silage pcs r grain

THE PRESS BY MON NNYA MON y

The numerical values given in the table indicate that the critical limit of one-time application of the proposed organo-mineral fertilizer for fluorine is 100,000-25,000Ot/ha, which indicates its complete ecological safety.

In this way, it is possible to optimize the composition of the proposed organo-mineral fertilizer according to any limiting chemical ingredient, as well as to select the necessary ratio of components not only within the framework of the proposed invention, but also taking into account the type of soil, the existing raw material base and targeting specific agricultural crops.

The evaluation of the agrochemical efficiency of the organo-mineral fertilizer testifies to its following positive qualities in relation to the raw material (fermented sewage sludge): and (nitrogen, phosphorus, potassium, sulfur, organic matter); potassium, sulfur, organic matter, humates); harmful microflora; harmful microflora; metals; and arsenic due to non-normative use of OSV; a component of fertilizer when using increased doses of fertilizer; "-- - increasing the ash content of plants when using OSV from increasing the ash content of plants when using fertilizer without exceeding

F

- increase in the yield of the main agricultural crops by 10-2095 from F

Hence the economic expediency and ecological validity of the implementation of the proposed invention.

Organo-mineral fertilizer with optimal composition and properties is obtained in the following way. A homogeneous mixture of components for biothermal composting is prepared on an open site. To do this, organic filler - lignin, peat, crushed straw of grain crops, crushed ts turf or their mixtures - is first brought to the site. This filler is leveled and a layer 25-35 cm thick is formed. Phosphogypsum is spread on the pillow created in this "" way, for example with a RUM-5, RUM-8 machine or some other device. Then, the required amount of fermented sewage sludge is unloaded on the entire created surface and leveled with a bulldozer. After that, the mixture is mixed and, by the method of successive expansion, a side is formed weighing up to 3,000 tons with dimensions: width 20-25 m, length 90-100 m, and height 2.5-3 m. To increase the quality of fertilizer over time

Well, it is advisable to carry out composting several times. After the compost ripens (1.5-2 months in warm weather), the fertilizer is packaged and used as intended.

Example 1 - Burt for biothermal composting is formed with a sediment to filler ratio of 0.8:1 with SO 50 by adding 1095 phosphogypsum. Lignin is used as a filler. At an external air temperature of 12-18"С, the compost mass matures to a state of readiness within 3-4 months without mixing. The resulting fertilizer is a dark gray substrate with aggregates of different sizes from 5 to 20 mm. The fertilizer has the following composition, 9o wt.: organic matter - 30-32; humic components - 9-10; nitrogen - up to 1; phosphorus - up to 1.1; potassium - up to 1; magnesium - up to 0.6; sulfur - up to 9; microelement content Mp, Сy, 2p, Со, І, Вг - 0.26. oo Fertilizer is crushed, spread, packaged and used as intended. p Example 2

Preliminary preparation of the layers of components of the reaction mass is carried out as in example 1. For better mixing of the components, a bulldozer is used with a CH-2 type mixer attached to it. The compost mixture, after leveling with a bulldozer, is thoroughly mixed with a mixer. For this, when the unit moves forward, the mixer 60 is lowered into the working position. The cutting knife directs the layer of components to the intake auger, which grinds and mixes them. The unit moves around the site in a shuttle manner. At the end of each run, the mixer is transferred to the transport position. After mixing, the mixture is moved to the side. On the vacated site, the layers of components specified in example 1 are placed again, they are mixed and the resulting mixture is added to the side until the side of the required size is obtained. b5 At an external air temperature of 12-18", the compost mass is mixed (interrupted) every 2 weeks until the complete biothermal processing of the components within 1.5-2 months.

Fertilizer is obtained, which has the appearance of a dark gray substrate with aggregates up to 5 mm in size. The fertilizer has the following composition, 9% by weight: organic matter - 30-32; humic components - 10-12; nitrogen - 1.0-1.1; phosphorus - up to 1.1-1.2; potassium - 1; magnesium - up to 0.6; sulfur - up to 9; the content of trace elements Mp, Si, 2p, Co, I, Vg - 0.2-0.3.

Example C

The highest quality product is obtained during composting of fertilizer components in a stationary mechanized workshop.

For this, a stationary two-screw mixer is used. The reaction mass is not prepared layer by layer, but the components of the mixture are dosed and fed into the mixing lens. The ratio of components and modes of their biothermal 7/0 processing are similar to example 1.

At an external air temperature of 12-18", the compost mass is stirred (interrupted) every 2 weeks until complete biothermal processing of the components within 1.5-2 months.

Fertilizer is obtained, which has the appearance of a dark gray substrate with aggregate size of 2-5 mm. The fertilizer has the following composition, 9% by weight: organic matter - 30-32; humic components - 10-12; nitrogen - 1.0-1.1; phosphorus y75 7 TO 1.1-1.2; potassium - 1; magnesium - up to 0.6; sulfur - up to 9, the content of trace elements Mp, Si, 2p, Co, I, Vg - 0.2-0.3.

Claims (4)

The formula of the invention 1. The method of obtaining an organo-mineral fertilizer using fermented sewage sludge, which includes mixing activated sludge with peat, which is characterized by the fact that in order to disinfect pathogenic microflora and helminths, reduce the content of heavy metals, fermented sewage sludge is composted with organic fillers and chemical meliorants, taken in the weight ratio according to the C:IM-(20-50):1 indicator on dry matter, for 1.5-2 months at a temperature of 55-60"С in the reaction mixture inside the burt. 2. The method according to claim 1, which differs in that for obtaining fertilizer, the amount of gravity water in the grown activated sludge for every 100 g of dissolved dry sludge substance is 70-80 g. C. The method according to claim 71, which is distinguished by the fact that lignin, peat, crushed straw of grain crops, sawdust or their mixtures are used as organic fillers for obtaining fertilizer, taken from the calculation of the creation of the optimal C:M ratio in the reaction mass and the dimensions of the side for biothermal composting. b" 4. The method according to claims 1, C, which differs in that to obtain fertilizer with good agrochemical "- efficiency, chemical meliorants phosphogypsum, phosphorites, phosphorite flour, feces are used as fillers. (22) Zo triigya i " : " " : : pov ise) Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 8, 15.08.2004. State Department of Intellectual Property of the Ministry of Education and sciences of Ukraine." - with . and? (o) se) - Fo sl 60 b5