SU1724606A1 - Method of separation of farm sewage - Google Patents

Abstract

Usage: separation of livestock farms. Phosphogypsum is introduced into cattle-breeding effluents as coagulant in a weight ratio of 1: 3-2: 3, with natural sedimentation in the recycle cycle of the washout when cleaning livestock buildings. 1 hp ff, 5 tab.

Description

The invention relates to the field of effluent treatment and can be used on livestock farms primarily in the manure washout.

A recirculating system for washing manure is known, in which after the natural settling of manure, the liquid fraction from the manure store is re-fed to the manure washout. With such a system, less water is consumed than with a direct wash. However, this increases the air pollution in the rooms and the low degree of clarification of the liquid phase, since the colloidal particles are suspended.

A gravitational method is known for separating manure into liquid and solid fractions, which is carried out in a manure store or in a settling tank. To this end, the liquid manure accumulated in the manure or in the settler is naturally divided into fractions. A dense part of the manure is used to fertilize the soil, and the liquid part is fed to irrigate the fields.

The disadvantage of natural settling of slurry is the duration of the process, which lasts 40 days, and the stench that poisons the atmosphere when the manure is dried in an open area.

Closest to the present invention is a method for purifying wastewater from the production of phosphoric acid production, in which, during electrodialysis, phosphogypsum is additionally introduced into the suspension at a mass ratio of (16-80): 1.

However, the degree of utilization of phosphogypsum, which pollutes the environment, is very low. In addition, the use is associated with the cost of electricity.

The aim of the invention is to increase the efficiency of the process of dividing the time frame into fractions and reducing its duration.

This goal is achieved by using phosphogypsum as a coagulum wastewater, mainly livestock.

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farm with their natural sedimentation for the separation of liquid and solid fractions.

The essence of the invention is that in order to effectively separate the solid phase from the liquid, phosphogypsum (orthophosphoric acid production waste) is added to the effluent at mass ratios of 3: 1 - 3: 2 (25-40%). At the same time, phosphogypsum causes intensive coagulation of solid particles of manure, reducing the duration of the deposition process from 16-18 days to 1-2 hours, which is accompanied by accelerated sedimentation of the solid phase.

Table 1 shows the effect of coagulants on the separation of effluent into fractions.

According to the effectiveness of the coagulating action, phosphogypsum is not inferior to the known coagulant (aluminum sulfate). For the experiments, the dose of aluminum sulfate was chosen generally accepted (1% of the total mass), and the dose of phosphogypsum was taken as high as possible (40%), which is in the interest of utilization with experimental production data.

In accordance with the experimental data of Table 1, coagulation of livestock farms was carried out by mixing them with phosphogypsum in mass ratios of 3: 1 - 3: 2, followed by mixing, with the lower limit of phosphogypsum concentration in drains being 25% (3: 1) , an average of 33% (3: 1.5) and the top 40% (3: 2). For practical application, it is unprofitable to take below the lower concentration limit, since in this case the minimum of phosphogypsum is used, the utilization of which is an unsolved problem, and the coagulation process is slowed down.

When the concentration of phosphogypsum is above 40% (3: 2), the process of separation of fractions is difficult due to the lack of liquid, therefore, a further increase in the concentration of phosphogypsum is impractical.

Thus, the optimum ratios of mixing wastewater with phosphogypsum for coagulation are 3: 1 to 3: 2 or 25-40% phosphogypsum weight ratios.

The mechanism of coagulation of manure particles with phosphogypsum is complicated. Here electrolytic coagulation takes place, proceeding according to the SchulzeTardi rule; mutual coagulation occurring between oppositely charged colloidal particles; the interaction of cations with ionized groups of hydrophilic organic compounds, promoting coagulation and sedimentation; mechanical entrainment of manure flakes by coarse-dispersed phosphogypsum particles when they are deposited. In addition, the adsorption of organic substances occurs on the surface of phosphogypsum solid particles, accompanied by a sharp decrease in color, here a bridge mechanism of aggregation is possible: organic molecules,

adsorbing onto the surface of solid phosphogypsum particles, serve as a bridge between the particles and, binding them to each other, form large, fast-sedimentation aggregates.

After coagulation of livestock farms phosphogypsum, a clarified liquid and sediment are formed. The clarified liquid obtained from the coagulation of manure can be used for repeated flushing or irrigation of agricultural fields, and the sediment after separation from the liquid phase is kept in the sump for 20-30 days for disinfection by the oocycidal phosphogypsum (Table 1).

After disinfection, the sediment is a suspended organo-ameliorative fertilizer, the properties of which are presented in Table 2.

From Table 2 it can be seen that the physicochemical properties of the organelioration fertilizer meet the necessary requirements. When 20 tons of this fertilizer are applied per 1 ha, 8.8

tCazOz, 10 tons of liquid manure, 26-30 kg of nitrogen, 100-150 kg of phosphorus (PaOs) and 10-36 kg of potassium (K20).

When applying the proposed method in the recirculating system of washing manure after a one-time coagulation and reusing the clarified liquid for washing manure, phosphogypsum is again used to coagulate the next batch of liquid manure entering

in the manure, then this cycle is repeated until coagulation is stopped (extreme coagulation). At the same time, due to the antiseptic and adsorption effect of phosphogypsum, gas release is reduced, which improves the sanitary condition in the rooms. In addition, the clarification of the liquid fraction due to coagulation and sedimentation of the colloidal manure particles increases, and the recycling efficiency increases.

After marginal coagulation, phosphogypsum is completely saturated with organic fertilizer, therefore, the nutrient content of organic fertilizer increases significantly, which increases the profitability of using livestock farms (Table 3).

When applying 10 t per 1 ha of this fertilizer, for example, with a mass ratio

3: 1.5 100 kg of nitrogen, 200 kg of phosphorus (PaOs) and 116 kg of potassium (CgO) enter the soil.

The effect in field conditions obtained by the proposed method of organomeliorative fertilizers on the yield and grain quality of winter wheat is given in Table 4.

The experimental data of Table 4 show that the yield increases with the use of organo-fertilizing fertilizers. For example, the yield increase for winter wheat is 12.2-13.8 q / ha. At the same time, according to the content of protein and gluten, the experimental grain is not inferior to the grain of winter wheat grown with the use of ordinary tuk and exceeds the control (without fertilizers) by these indicators.

The study of the inorganic composition of winter wheat grains (Table 5) shows that the grain of all variants is little different in composition, with the exception of a few useful elements. So, for example, the winter wheat grain of the control variant contains 0.08% CaO, and in the experimental variants - 0.2%, which is explained by the desire of plants to preferentially absorb calcium, if the fertilizer applied to the soil contains, in a certain ratio, calcium and strontium. The analysis shows that the winter wheat grain of all variants does not contain fluorine, lead, strontium, arsenic, and other harmful elements,

Thus, the proposed method allows the disposal of two production wastes - cattle farms and phosphogypsum, ensures the profitability of the use of liquid manure, simplifies the technology of processing livestock wastes due to the ovocidal action of phosphogypsum. Moreover, the product of treatment of slurry with phosphogypsum is an organic melioration fertilizer, which increases the yield of agricultural crops. In addition, sanitation is improved and the efficiency of the washout is improved.

Example 1. Manure is mixed with phosphogypsum in a mass ratio of 3: 1 in a natural clarifier or a manure storage facility of a cattle-breeding farm. After coagulation of the manure, the clarified liquid is fed to the re-washing of the manure or to the agricultural fields for irrigation, and the residue after decontamination (20-30 days of exposure) is used as organelial fertilizer.

Example 2. In a natural clarifier or a manure deposit, liquid manure is mixed with phosphogypsum in a mass ratio of 3: 2. After coagulation and sedimentation of the manure, the clarified liquid is fed to the re-washing of manure or to agricultural fields for irrigation, and the residue after decontamination (20-30 days of exposure) is used as organ-reclamation fertilizer.

Example 3. In a natural clarifier or a manure deposit, liquid manure is mixed with phosphogypsum in a 4: 1 mass ratio. After coagulation and sedimentation of the manure, the clarified liquid is fed to the re-washing of manure or to agricultural fields for irrigation, and the residue after decontamination (20-30 days of exposure) is used as organ-reclamation fertilizer. However, in this case, a minimum of phosphogypsum is used, which is disadvantageous for the utilization of production waste that pollutes the environment.

Example 4 / Liquid manure is mixed with phosphogypsum in a mass ratio of 1: 1 in a natural settling tank or a manure. After coagulation and sedimentation of the manure, the clarified liquid is fed to the re-washing of manure or to agricultural fields for irrigation, and the residue after decontamination (20-30 days of exposure) is used as organ-reclamation fertilizer. However, at such a concentration of phosphogypsum, the process of separation of fractions due to lack of liquid is difficult, so the mass ratio of 1: 1 is impractical.

Example 5. In a septic tank of biological wastewater treatment, liquid biological sludge is mixed with phosphogypsum in a mass ratio of, for example, 3: 1.5. After coagulation and sedimentation of the sludge, the clarified liquid is fed to the irrigation of fields, and the residue after disinfection (30 days of exposure) is used as an irrigation and fertilizer.

Example 6. In the sump of biological wastewater treatment mix liquid biological sludge with phosphogypsum in a mass ratio of, for example, 3: 1. After coagulation and sedimentation of the sludge, the clarified liquid is fed to field irrigation, and the sediment is treated with mineral fertilizers to increase the concentration of active substances to 5-30% and after decontamination (20 days of exposure) is used as organo-decorative fertilizer.

Claims (2)

Invention Formula 1, A method for separating wastewaters, mainly livestock farms, including the introduction of phosphogypsum as a coagulant, settling down with subsequent separation into a liquid fraction and sediment, characterized in that, in order to increase the efficiency of the separation process, as well as to shorten its duration, phosphogypsum is introduced into drains in a ratio by weight of 1: 3 to 2: 3. 2. The method according to claim 1, wherein the phosphogypsum is introduced into the drains of livestock farms during natural settling in the recycle cycle of the washout when cleaning livestock buildings. Table 1 Freezing temperature, ° С -one -2 -12,3 -10,2 Table 3 Tables hell Varian Without fertilizer (control) Pb 2.2 0.26 0.5 0.08 80.0 180.0 400.0 28.0 7.0 4.0 0.12 0.0 . Experience options Fossyohyps VF + phosphogypsum 2.7 0.24 0.5 0.2 70.0 140.0 400.0 30.0 6.0 5.0 0.04 0.0