RU2379236C1 - Method for preparation of stock-raising sewage water for agricultural use - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: in order to realise method, alkaline coagulant and oxidising reagent are serially introduced until pH of 6.5-8.5 with release of produced residue. Preparation is carried out in two stages in vortex sheet devices with movable ferromagnetic particles. Simultaneously treatment is carried out with alkaline coagulant until pH of 10-11.5 in the first device of vortex sheet with magnetic induction of 0.1-0.13 tesla and with oxidising reagent in the second device of vortex sheet with magnetic induction of 0.17-0.25 tesla. Alkaline coagulant used is 10% suspension of calcium carbine sludge in amount of 0.5-2.0 g/dm³ or 10% lime milk in amount of 0.1-1.0 g/dm³. Oxidising reagent used is mixture of calcium sulfate dihydrate suspension with orthophosphoric acid in ratio of volume of 500:1 in amount of 6.0-15.0 g/dm³. After treatment with reagents and participation of vortex sheet with movable ferromagnetic particles, waste water is sent to unit of thin-layer sedimentation, and disinfected residue is produced - organic mineral fertiliser.

EFFECT: complete disinfection of waste water in stock-raising farms.

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Description

The invention relates to the disposal of wastewater generated on livestock complexes and farms, and can be used in agriculture for the preparation of liquid waste from livestock complexes and farms for irrigation and fertilizing agricultural land.

The known method [2243170, C02F 1/52, 1/58 // C02F 103: 20] the preparation of wastewater for agricultural use, including the introduction of an alkaline coagulant (slurry slurry of calcium carbide or a mixture of milk of lime with a slurry of calcium carbide slurry) to a pH of 10- 12, and then acidification with suspensions of simple (or double) superphosphate to pH 6.5-8.5. After one and a half hours of settling, the mixture is separated into a transparent liquid fraction and a precipitate containing insoluble particles of sludge from calcium carbide and superphosphate and which is an organomineral fertilizer.

The disadvantages of this method are: the high cost of mineral fertilizers - superphosphate; applied doses of simple or double superphosphate determine the high cost of reagent treatment; high content of heavy metal ions; the complexity of preparing for the use of superphosphate, the need for grinding granules before use; no wastewater disinfection occurs.

The closest analogue is the method [1231004, C02F 1/58, C05F 7/00, 05/15/86. Bull. No. 18] the preparation of wastewater for agricultural use, including the introduction of an alkaline coagulant - 10% milk of lime, to a pH of 9-11, then acidification with a 10% suspension of simple superphosphate to a pH of 6.0-8.5. After two hours of settling, the mixture is separated into a transparent liquid fraction and a precipitate containing insoluble particles of lime and superphosphate, which is an organomineral fertilizer.

The disadvantages of this method are: the high cost of simple superphosphate used for the preparation of an acidic reagent; applied doses of simple superphosphate determine the high cost of reagent treatment; the complexity of preparing for the use of simple superphosphate, due to the need for grinding the reagent; the duration of the process of settling the mixture; lack of disinfection effect. These shortcomings limit the widespread use of liquid fractions and sludge in agricultural irrigation fields.

The invention is aimed at reducing the cost of preparing wastewater of livestock farms for agricultural use, reducing the consumption of reagents by increasing their activity, achieving a complete disinfecting effect in the vortex layer apparatus with moving ferromagnetic particles, ensuring the achievement of a deodorization effect that will reduce atmospheric pollution H ₂ S, NO ₂ , NO, NH ₃ , methyl mercaptan, reduce the size of sanitary protective fields, thereby expanding the range of wastewater applications.

The problem is achieved in that in the method of preparing livestock wastewater by fractionation using suspensions of alkaline coagulants and an acidifying reagent, while the vortex layer with moving ferromagnetic particles is simultaneously processed in the apparatus, followed by the isolation of the disinfected sediment in the process of thin-layer sedimentation, according to the proposed technical solution waste water is exposed to a vortex field with moving ferromagnetic particles. In the first apparatus (with a magnetic induction value of 0.1-0.13 T), one of the alkaline coagulants (calcium carbide sludge or milk of lime in the amount of CaO active ingredient, g / dm ³ : 0.5-2.0 and, respectively, 0.1-1.0), the processing time is 30-120 s, while reaching pH values of 10-11.5. At this stage, primary disinfection occurs. After that, wastewater with a coagulant is supplied to the second device of the vortex layer with moving ferromagnetic particles (with a magnetic induction of 0.17-0.25 T), where an acidifying reagent (mixture of a suspension of calcium sulfate dihydrate with phosphoric acid in a ratio by volume of 500 is introduced) : 1 in an amount (according to the active substance P ₂ O ₅ ) of 6.0-15.0 g / dm ³ ) with reaching a pH of 6.5-8.5, the processing time is 30-120 s. Here the final complete disinfection of wastewater from livestock farms takes place. The created induction of a vortex layer with moving ferromagnetic particles allows one to accelerate the processes of fractionation and sedimentation while reducing the consumption of reagents with the achievement of the disinfecting effect of wastewater from livestock farms.

The preparation technology includes a two-stage wastewater treatment of livestock farms in the vortex layer apparatus with moving ferromagnetic particles. At the first stage, one of the alkaline coagulants is introduced into the apparatus with the achievement of the required pH values of 10-11.5. At this stage, primary disinfection occurs. After that, wastewater with a coagulant is supplied to the second apparatus of the vortex layer with moving ferromagnetic particles, where one of the acidifying reagents is simultaneously introduced to achieve the required pH values of 6.5-8.5. Here the final complete disinfection of wastewater from livestock farms takes place. Moreover, the processing time in the first and second stages is 30-120 s. After treatment with reagents involving a vortex field with moving ferromagnetic particles, the waste water is sent to a thin-layer sedimentation unit. As a result, we get a disinfected sediment - an organomineral fertilizer that is sent to dehydration, and a transparent liquid fraction. The drawing shows a flow chart of the preparation of wastewater of livestock farms for agricultural use. According to the proposed scheme, the wastewater is collected in the reservoir (1), after which the wastewater accumulated for 6 hours is transferred to the grinder (2), from where it is pumped (3) to the first vortex layer apparatus (5), where the alkaline coagulant from dosing tank 1 (4). The resulting mixture of alkaline coagulant and wastewater is then sent to the second apparatus of the vortex layer (5), where acidifying reagent is simultaneously supplied from the metering tank 2 (6). Reagent-treated wastewater enters a thin-layer sump (7), where it is separated into a liquid fraction and sediment. In turn, the liquid fraction is directed to the fields (8), and the sludge to dehydration (9).

The technical result is achieved due to ferromagnetic particles, which, under the influence of an electromagnetic field, intensively mix the wastewater and reagents entering the reaction zone. Studies have shown that the use of vortex layer apparatuses with moving ferromagnetic particles not only reduces the consumption of reagents and accelerates the settling process, but also promotes disinfection, which simplifies the scheme for preparing wastewater from livestock farms for agricultural use (Logvinenko D.D., Shelyakov O.P. Intensification of technological processes in devices with a vortex layer. "Technique", 1976; Adoshev A. Ferromagnetic apparatus for the treatment of liquid manure // Rural mechanizer, 2007, No. 6).

Examples. Implementation of the preparation of a daily consumption of wastewater of livestock farms with a volume of 400 m ³ obtained after half-hour settling

1. According to the proposed method, the wastewater of livestock farms is treated with a 10% suspension of calcium carbide sludge in an amount of 1 g ^{3 of} wastewater 1.5 g / dm ³ (CaO) while being processed in a vortex field with an induction of 0.13 T, the pH is adjusted to 11. To reduce the pH to 8.5, we introduce into the mixture a suspension of calcium sulfate dihydrate and phosphoric acid in an amount of 7.0 g / dm ³ (according to P ₂ O ₅ ) while processing in a vortex field with an induction value of 0 , 17 T. As a result, there is a decrease in the consumption of reagents and a decrease in the settling time to 1.15 hours with complete disinfection of wastewater from pathogenic microorganisms (Table 1).

2. According to the proposed method, the wastewater of livestock farms is treated with a 10% suspension of calcium carbide sludge in an amount of 1 g ^{3 of} wastewater 0.8 g / dm ³ (by CaO) while processing in a vortex field with an induction of 0.10 T, while the pH is adjusted to 10.5. To reduce the pH to 6.5, we introduce into the mixture a suspension of calcium sulfate dihydrate and phosphoric acid in an amount of 12.0 g / dm ³ (according to P ₂ O ₅ ) while processing in a vortex field with an induction value of 0.25 T. As a result, there is a decrease in the consumption of reagents and a decrease in the settling time to 1.1 hours with complete disinfection of wastewater from pathogenic microorganisms (Table 2).

3. According to the proposed method, the wastewater of livestock farms is treated with 10% milk of lime in an amount of 1 m ^{3 of} wastewater 0.75 g / dm ³ (CaO) while processing in a vortex field with induction of 0.10 T, while The pH is adjusted to 11. To reduce the pH to 8.5, we introduce in a mixture of a suspension of calcium sulfate dihydrate and phosphoric acid in an amount of 7.0 g / dm ³ (according to P ₂ O ₅ ) while processing in a vortex field with an induction value of 0.25 T. As a result, there is a decrease in the consumption of reagents and a decrease in the settling time to 1.15 hours with complete disinfection of wastewater from pathogenic microorganisms (Table 3).

4. According to the proposed method, the wastewater of livestock farms is treated with 10% milk of lime in an amount of 1 m ^{3 of} wastewater 0.45 g / dm ³ (CaO) while processing in a vortex field with induction of 0.13 T, while The pH is adjusted to 10.5. To reduce the pH to 6.5, we introduce into the mixture a suspension of calcium sulfate dihydrate and phosphoric acid in an amount of 12.0 g / dm ³

(according to P ₂ O ₅ ) while processing in a vortex field with an induction value of 0.17 T. As a result, there is a decrease in the consumption of reagents by 10% and a decrease in the settling time to 1.1 hours with complete disinfection of wastewater from pathogenic microorganisms (Table 4).

Table 1 The results of the determination of physico-chemical, sanitary indicators and the content of nutrients in the initial wastewater of livestock farms and after their processing by the proposed method Indicators Liquid phase Solid phase Before processing After processing Before processing After processing pH 7.2 8.4 7.3 8.5 Humidity% 95.0 100.0 96.5 90.1 Total nitrogen, mg / dm ³ 600,0 240.0 200,0 300,0 P ₂ O ₅ , mg / dm ³ 700,0 340.0 300,0 950.0 K ₂ O, mg / dm ³ 300,0 80.0 300,0 600,0 The total microbial number in 1 ml 4 * 10 ⁶ are absent 1,5 * 10 ⁷ Are absent The content of helminth eggs, pcs / dm ³ 2 * 10 ⁴ traces 4 * 10 ⁴ Are absent

table 2 The results of the determination of physico-chemical, sanitary indicators and the content of nutrients in the initial wastewater of livestock farms and after treatment by the proposed method Indicators Liquid phase Solid phase Before processing After processing Before processing After processing pH 7.2 6.5 7.3 6.7 Humidity% 95.0 100.0 96.5 90.1 Total nitrogen, mg / dm ³ 600,0 240.0 200,0 300,0 P ₂ O ₅ , mg / dm ³ 700,0 420.0 300,0 980.0 K ₂ O, mg / dm ³ 300,0 85.0 300,0 620.0 The total microbial number in 1 ml 4 * 10 ⁶ are absent 1,5 * 10 ⁷ Are absent The content of helminth eggs, pcs / dm ³ 2 * 10 ⁴ traces 4 * 10 ⁴ Are absent

Table 3 The results of the determination of physico-chemical, sanitary indicators and the content of nutrients in the initial wastewater of livestock farms and after treatment by the proposed method Indicators Liquid phase Solid phase Before processing After processing Before processing After processing pH 7.2 8.5 7.3 8.6 Humidity% 95.0 100.0 96.5 90.1 Total nitrogen, mg / dm ³ 610.0 250,0 207.0 330.0 P ₂ O ₅ , mg / dm ³ 700,0 335.0 300,0 940.0 K ₂ O, mg / dm ³ 300,0 80.0 300,0 605.0 The total microbial number in 1 ml 4 * 10 ⁶ are absent 1,5 * 10 ⁷ Are absent The content of helminth eggs, pcs / dm ³ 2 * 10 ⁴ traces 4 * 10 ⁴ Are absent

Table 4 The results of the determination of physico-chemical, sanitary indicators and the content of nutrients in the initial wastewater of livestock farms and after treatment by the proposed method Indicators Liquid phase Solid phase Before processing After processing Before processing After processing pH 7.2 6.5 7.3 6.7 Humidity% 95.0 100.0 96.5 90.1 Total nitrogen, mg / dm ³ 610.0 245.0 205.0 310.0 P ₂ O ₅ , mg / dm ³ 700,0 410.0 300,0 960.0 K ₂ O, mg / dm ³ 300,0 85.0 300,0 620.0 The total microbial number, MT / ml 4 * 10 ⁶ are absent 1.5 * 10 ⁷ Are absent The content of helminth eggs, pcs / dm ³ 2 * 10 ⁴ traces 4 * 10 ⁴ Are absent

Claims (1)

A method of preparing wastewater of livestock complexes for agricultural use, comprising the sequential introduction of an alkaline coagulant and an acidifying reagent to a pH of 6.5-8.5 with the formation of a precipitate, characterized in that the preparation is carried out in two stages in a vortex layer apparatus with moving ferromagnetic particles at simultaneous treatment with an alkaline coagulant to a pH of 10-11.5 in the first vortex layer apparatus with magnetic induction of 0.1-0.13 T and an acidifying reagent in the second vortex layer apparatus with by induction of 0.17-0.25 T, with an alkaline coagulant using a 10% suspension of calcium carbide sludge in an amount of 0.5-2.0 g / dm ³ or 10% milk of lime in an amount of 0.1-1, 0 g / dm ³ , and as an acidifying reagent, a mixture of a suspension of calcium sulfate dihydrate with phosphoric acid in a ratio of 500: 1 in an amount of 6.0-15.0 g / dm ^{3 is used} .

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