RU2321551C1 - Method for treating sewage water of commercial pig units and farms for agricultural utilization - Google Patents

Abstract

FIELD: utilization of sewage water produced at commercial pig units and farms, may be used in agriculture for treating liquid wastes of commercial pig units and farms for irrigation and fertilization of agricultural lands.

SUBSTANCE: method involves sequentially introducing alkali coagulant - calcium carbide sludge suspension or mixture of lime milk and calcium carbide sludge suspension in the ratio of 1:2 in an amount of 1.0-3.0 g/dm³ on conversion to CaO and acidifying reactant to provide pH value of 6.5-8.5; separating resulted sediment; as acidifying reactant, using phosphoric acid production waste: mixture of suspensions of calcium sulfate dehydrate and common superphosphate in the ratio of 1:1 or mixture of suspensions of calcium sulfate dehydrate and double superphosphate in the ratio of 1:0.5.

EFFECT: provision for producing fertilizer of prolonged effect as to phosphorus oxide.

4 tbl, 6 ex

Description

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

The known method [US Pat. USA No. 5562829, С02F 1/52] wastewater treatment of a dairy farm, including treatment with a suspension of Ca (OH) ₂ at a dose of 0.2 - 1.0 g / dm ³ at a pH of 9.3 to 11.8.

The disadvantage of this method is the high cost of marketable lime, in addition, the liquid and solid phases obtained after processing have pH values of 11-12, which significantly reduces the scope of their application in agriculture.

The known 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 to prepare the 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 deodorization effect and, consequently, air pollution. These shortcomings limit the widespread use of liquid fractions and sludge in agricultural irrigation fields.

The closest analogue to the claimed technical solution is the method [2243170, С02F 1/52, 1/58 // С02F 103: 20] for the preparation of wastewater for agricultural use, including the introduction of an alkaline coagulant (slurry of calcium carbide or a mixture of milk of lime with a slurry suspension calcium carbide) to a pH of 10-12, and then acidification with suspensions of simple (or double) superphosphate to a pH of 6.5-8.5. After one and a half hour 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 disadvantage of this method is the high cost of mineral fertilizers; 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.

The invention is aimed at creating a technical method that would reduce the cost of the reagent treatment of liquid manure, reduce the number of stages of preparation of the acid reagent, increase the efficiency of the separation of runoff into liquid and solid fractions by increasing the degree of use of the active substance; to ensure the achievement of the deodorization effect, which will reduce atmospheric pollution of H ₂ S, N0 ₂ , NO, NH _{3 with} methyl mercaptan, reduce the size of sanitary protective fields, thereby expanding the range of wastewater use.

The problem is achieved in that an alkaline coagulant is introduced into the wastewater of pig-breeding complexes and farms for agricultural use to a pH of 10-11.5, then an acidifying reagent to a pH of 6.5-8.5, followed by precipitation of the resulting precipitate. As an acidifying reagent, a mixture of suspensions of calcium sulfate dihydrate and simple superphosphate in a ratio of 1: 1 or a mixture of suspensions of calcium sulfate dihydrate and double superphosphate in a ratio of 1: 0.5. As an alkaline coagulant, a suspension of calcium carbide slurry or a mixture of milk of lime with suspensions of calcium carbide slurry is used.

The technical result is achieved by increasing the amount of phosphorus in the phosphorus-containing reagent, which increases the value of the sediment - organic fertilizer. The total amount of active substance in a mixture of a suspension of calcium sulfate dihydrate and simple (double) superphosphate, subject to the stated conditions, accelerates the process of lowering the pH to the required limits of 6.5-8.5, which allows to improve the coagulation of residual solid particles in the liquid runoff fraction, thereby increasing the settling efficiency. Due to the process of settling accelerated by the active substance and more complete fractionation of the wastewater of pig-breeding complexes and farms, a higher deodorizing effect compared to the known method is achieved.

The use of calcium sulfate dihydrate is due to the need to reduce the number of operations for preparing its suspension than when preparing a suspension of superphosphate. Calcium sulfate dihydrate is a plastic precipitate with a moisture content of 30-40%, therefore, when preparing its suspension, the grinding operation necessary for the preparation of a suspension of superphosphate can be excluded. Also, when preparing a suspension of calcium sulfate dihydrate, the homogenization time of the mixture is reduced by 10-15 minutes.

The use of a mixture of suspensions of simple (double) superphosphate and calcium sulfate dihydrate as an acid reagent allows us to solve the problem of recycling phosphoric acid production wastes and reduce the cost of reagent treatment while maintaining the high fertilizer value of the obtained liquid and solid fractions. A suspension of calcium sulfate dihydrate or its mixture with superphosphate are interchangeable when used in the above doses as an acidic reagent.

The technology for the preparation of wastewater from pig farms and farms for agricultural use is as follows: liquid manure is treated with one of the alkaline coagulants to a pH of 10-11.5. Then, one of the acidic reagents is introduced to neutralize - a mixture of suspensions of calcium sulfate dihydrate and simple superphosphate in a ratio of 1: 1 or a mixture of suspensions of calcium sulfate dihydrate and double superphosphate in a ratio of 1: 0.5 in the amount of 8.0-20.0 g / dm ³ in terms of P ₂ O ₅ with continuous stirring for 1-2 minutes, thereby reducing the pH to 6.5-8.5. After settling, the mixture is separated into a transparent fraction and a precipitate, an organomineral fertilizer. The use of a mixture of suspensions of superphosphate and calcium sulfate dihydrate as an acidic reagent will make it possible to obtain a fertilizer with a more prolonged action on phosphorus oxide than using a suspension of calcium sulfate dihydrate or a suspension of superphosphate.

Example. The implementation of the reagent preparation of the daily consumption of liquid manure with a volume of 700 m ³ obtained after half an hour of settling.

According to the known method, liquid manure is treated with a 10% suspension of sludge of calcium carbide in an amount per 1 m ^{3 of} waste fluid 100 dm ^{3 of a} suspension, thereby reaching a pH of 11. To reduce the pH to 7.5, a mixture of 100 dm ^{3 of a} suspension of simple superphosphate was added. The settling time was 1.30 to 1.40 hours.

1. According to the proposed method, liquid manure is treated with a 10% suspension of sludge of calcium carbide or a mixture of milk of lime with a suspension of sludge of calcium carbide in a ratio of 1: 2 in an amount per 1 m ^{3 of} waste fluid 2.0 g / dm ^{3 of} suspension in terms of active CaO, thereby bringing the pH of the mixture to 11. To reduce the pH to 8.0, we introduce into the mixture suspensions of calcium sulfate dihydrate and simple superphosphate in a ratio of 1: 1 in an amount of 8 g / dm ³ in terms of P ₂ O ₅ . The settling time was 1.15 hours, i.e. This method allowed to reduce the settling time by 10-15 minutes. The results of testing pH, humidity, values of nitrogen concentrations: total, nitrates, nitrites, total phosphorus, total potassium are given in table 1.

2. According to the proposed method, liquid manure is treated with a 10% suspension of sludge of calcium carbide or a mixture of milk of lime with a suspension of sludge of calcium carbide in a ratio of 1: 2 in an amount per 1 m ^{3 of} waste fluid 2.0 g / dm ^{3 of} suspension in terms of active CaO, thereby bringing the pH of the mixture to 11. To reduce the pH to 7.5, we introduce into the mixture suspensions of calcium sulfate dihydrate and simple superphosphate in a ratio of 1: 1, in an amount of 15 g / dm ³ in terms of P ₂ O ₅ . The settling time was 1.15 hours, i.e. This method allowed to reduce the settling time by 10-15 minutes. The results of testing humidity, values of nitrogen concentrations: total, nitrates, nitrites, total phosphorus, total potassium slightly differ from those shown in example 1.

3. According to the proposed method, liquid manure is treated with a 10% suspension of calcium carbide sludge or a mixture of milk of lime with a suspension of calcium carbide sludge in a ratio of 1: 2 in an amount per 1 m ^{3 of} waste fluid 2.0 g / dm ^{3 of the} suspension in terms of active CaO thereby adjusting the pH of the mixture to 11. To reduce the pH to 6.5, we introduce into the mixture suspensions of calcium sulfate dihydrate and simple superphosphate in a ratio of 1: 1 in an amount of 20 g / dm ³ in terms of P ₂ O ₅ . The settling time was 1.15 hours, i.e. This method allowed to reduce the settling time by 10-15 minutes. The results of testing pH, humidity, and nitrogen concentrations: total, nitrates, nitrites, total phosphorus, total potassium are given in table 2.

4. According to the proposed method, liquid manure is treated with a 10% suspension of sludge of calcium carbide or a mixture of milk of lime with a suspension of sludge of calcium carbide in a ratio of 1: 2 in an amount per 1 m ^{2 of} waste fluid 2.0 g / dm ^{3 of} suspension in terms of active CaO, thereby bringing the pH of the mixture to 11. To reduce the pH to 8.0, we introduce a mixture of suspensions of calcium sulfate dihydrate and double superphosphate in a ratio of 1: 0.5 in an amount of 8 g / dm ³ in terms of P ₂ O ₅ . The settling time was 1.10 hours, i.e. This method allowed to reduce the settling time by 15-20 minutes. The results of testing pH, humidity, values of nitrogen concentrations: total, nitrates, nitrites, total phosphorus, total potassium are given in table 3.

5. According to the proposed method, liquid manure is treated with a 10% suspension of sludge of calcium carbide or a mixture of milk of lime with a suspension of sludge of calcium carbide in a ratio of 1: 2 in an amount per 1 m ^{3 of} waste fluid 2.0 g / dm ^{3 of} suspension in terms of active CaO, thereby bringing the mixture pH to 11. To reduce the pH to 7.5, we introduce a mixture of suspensions of calcium sulfate dihydrate and double superphosphate in a ratio of 1: 0.5 in an amount of 15 g / DM ³ in terms of P ₂ About ₅ . The settling time was 1.10 hours, i.e. This method allowed to reduce the settling time by 15-20 minutes. The results of testing pH, humidity, values of nitrogen concentrations: total, nitrates, nitrites, total phosphorus, total potassium slightly differ from those shown in example 4 (table 3).

6. According to the proposed method, liquid manure is treated with a 10% suspension of sludge of calcium carbide or a mixture of milk of lime with a suspension of sludge of calcium carbide in a ratio of 1: 2 in an amount per 1 m ^{3 of} waste fluid 2.0 g / dm ^{3 of} suspension in terms of active CaO, thereby bringing the pH of the mixture to 11. To reduce the pH to 6.5, we introduce a mixture of suspensions of calcium sulfate dihydrate and double superphosphate in a ratio of 1: 0.5 in an amount of 20 g / dm ³ in terms of P ₂ O ₅ . The settling time was 1.10 hours, i.e. This method allowed to reduce the settling time by 15-20 minutes. The results of testing pH, humidity, values of nitrogen concentrations: total, nitrates, nitrites, total phosphorus, total potassium are given in table 4.

Table 1 The results of studies of physico-chemical indicators and the content of nutrients in the initial products of hydraulic washing and after their reagent treatment known and proposed methods Indicators Liquid phase Solid phase Before processing After treatment with alkaline coagulant and superphosphate After treatment with an alkaline coagulant and a mixture of suspensions of simple superphosphate and calcium sulfate dihydrate Before processing After treatment with alkaline coagulant and superphosphate After treatment with an alkaline coagulant and a mixture of suspensions of simple superphosphate and calcium sulfate dihydrate pH 6.8 7.5 7.5 6.9 7.8 7.8 Humidity% 99.5 100.00 100.00 98.5 90.1 90.5 Nitrogen, mg / dm ³ total 600 240 220 200 300 300 NH ₄ 550 200 180 one hundred 200 230 NO ₂ 0 twenty 10 0 twenty fifteen NO ₃ twenty 10 fifteen 48 65 55 P ₂ About ₅ mg / dm ³ 600 one hundred 200 300 800 900 K ₂ O mg / dm ³ 300 40 40 300 560 560

table 2 The results of studies of physico-chemical indicators and the content of nutrients in the initial products of hydraulic washing and after their reagent treatment known and proposed methods Indicators Liquid phase Solid phase Before processing After treatment with alkaline coagulant and superphosphate After treatment with an alkaline coagulant and a mixture of suspensions of double superphosphate and calcium sulfate dihydrate Before processing After treatment with alkaline coagulant and superphosphate After treatment with an alkaline coagulant and a mixture of suspensions of superphosphate and calcium sulfate dihydrate pH 6.8 7.5 7.5 6.9 7.8 7.8 Humidity% 99.5 100.00 100.00 98.5 90.1 90.5 Nitrogen, mg / dm ³ total 600 230 220 200 300 270 NH ₄ 550 200 180 one hundred 200 230 NO ₂ 0 twenty 10 0 twenty fifteen NO ₃ twenty 10 fifteen 48 63 53 P ₂ About ₅ mg / dm ³ 600 one hundred 220 300 800 920 K ₂ O mg / dm ³ 300 40 40 300 560 560

Table 3 The results of studies of physico-chemical indicators and the content of nutrients in the initial products of hydraulic washing and after their reagent treatment known and proposed methods Indicators Liquid phase Solid phase Before processing After treatment with alkaline coagulant and superphosphate After treatment with an alkaline coagulant and a mixture of suspensions of simple superphosphate and calcium sulfate dihydrate Before processing After treatment with alkaline coagulant and superphosphate After treatment with an alkaline coagulant and a mixture of suspensions of simple superphosphate and calcium sulfate dihydrate pH 6.8 7.5 7.5 6.9 7.8 7.8 Humidity% 99,4 100.00 100.00 98.5 90.0 90,4 Nitrogen, mg / dm ³ total 600 240 220 200 300 300 NH ₄ 550 200 180 one hundred 200 230 NO ₂ 0 twenty 10 0 twenty fifteen NO ₃ twenty 10 fifteen 48 65 55 P ₂ About ₅ mg / dm ³ 600 one hundred 205 300 800 910 K ₂ O mg / dm ³ 300 40 40 300 560 560

Table 4 The results of studies of physico-chemical indicators and the content of nutrients in the initial products of hydraulic washing and after their reagent treatment known and proposed methods Indicators Liquid phase Solid phase Before processing After treatment with alkaline coagulant and superphosphate After treatment with an alkaline coagulant and a mixture of suspensions of double superphosphate and calcium sulfate dihydrate Before processing After treatment with alkaline coagulant and superphosphate After treatment with an alkaline coagulant and a mixture of suspensions of superphosphate and calcium sulfate dihydrate pH 6.8 7.5 7.5 6.9 7.8 7.8 Humidity% 99.5 100.00 100.00 98.5 90.1 90.5 Nitrogen, mg / dm ³ total 600 230 220 200 300 270 NH ₄ 550 200 180 one hundred 200 230 NO ₂ 0 twenty 10 0 twenty fifteen NO ₃ twenty 10 fifteen 48 63 53 P ₂ About ₅ mg / dm ³ 600 one hundred 226 300 800 927 K ₂ O mg / dm ³ 300 40 40 300 560 560

Claims (1)

A method of preparing wastewater of pig breeding complexes and farms for agricultural use, including the sequential introduction of an alkaline coagulant - a suspension of calcium carbide sludge or a mixture of lime milk with a suspension of calcium carbide sludge in a ratio of 1: 2 in an amount of 1.0-3.0 g / dm ³ in recalculation of CaO and an acidifying reagent to a pH of 6.5-8.5 with the formation of a precipitate, characterized in that the waste product of phosphoric acid is used as an acidifying reagent: a mixture of suspensions of calcium sulfate dihydrate I and simple superphosphate in a ratio of 1: 1 or a mixture of suspensions of calcium sulfate dihydrate and double superphosphate in a ratio of 1: 0.5.