CN117023899B - Livestock breeding sewage purification treatment process - Google Patents

Abstract

The invention discloses a livestock breeding sewage purification treatment process, and belongs to the technical field of environmental protection. The purification treatment process comprises the steps of solid-liquid separation, acid-base regulation, fermentation treatment, flocculation treatment, solid-liquid separation, disinfection and the like. Firstly, preliminarily filtering to remove suspended solid matters in livestock-raising wastewater, then adding a composite microbial agent for mixed fermentation, mixing the two bacteria in equal proportion, and then carrying out symbiotic cooperation and mutual promotion to realize the preliminary purification of main pollutants such as ammonia nitrogen in water; the sewage after fermentation treatment is further treated by using a composite flocculant, so that the efficient adsorption and fixation of pollutants in the sewage are realized; finally, secondary solid-liquid separation and disinfection treatment are carried out, and sewage is thoroughly purified.

Description

Livestock breeding sewage purification treatment process

Technical Field

The invention belongs to the technical field of environmental protection, and particularly relates to a livestock breeding sewage purification treatment process.

Background

The development speed of animal husbandry in China is steadily improved, and the total yield of animal husbandry products and the occupation amount of people are obviously increased. The development of animal husbandry gradually develops to large-scale, intensive and factory-like from original extensive, small-sized and decentralized animal husbandry, so that a large number of livestock and poultry are raised together in a centralized mode, a large amount of animal excreta and various sewage can cause serious pollution to surrounding natural environment and ecological environment, if the environment is not timely and reasonably solved, only more serious environmental problems are caused, and not only economic development is hindered, but also survival of people is threatened.

The sewage on the animal farm mainly comes from the excrement of animals, and various sterilized, cleaned and scrubbed sewage on the animal farm. Animal manure without treatment is decomposed through chemical reaction under anaerobic condition to generate a large amount of organic matters, heavy metals, pathogenic bacteria and microorganisms such as phenols and amine organic matters, which pollute drinking water sources to deteriorate water quality and further cause harm to health of livestock and poultry and human bodies. Due to the rapid large-scale development of animal husbandry, the number of the concentrated livestock and poultry raising is increased, and various pollutants are also increased. However, due to the driving of benefits, a plurality of livestock farms are not visible to the problem. The large amount of excrement and urine are piled up anywhere, sewage is discharged in disorder, and sanitation and disinfection of a farm are not taken into account, so that a sanitation and epidemic prevention system of the whole animal farm is paralyzed, the balance of the environment and an ecological system is seriously destroyed, and sustainable development of the animal farm is also hindered.

A plurality of farms adopt a water-flushing and manure-cleaning process, the flushing time is concentrated, the waste water amount is large, more manure is carried, the concentration of pollutants is high, and the treatment difficulty is high. In addition, some devices are used in the prior art to treat sewage, for example, patents with publication numbers of CN112591819A, CN110282822A and the like, but the technologies all depend on complex devices to treat sewage, so that the treatment difficulty and the treatment cost are increased, the market application rate is low, and the effective implementation cannot be realized. The sewage treatment modes of the breeding industry in the world can be summarized into two modes: one is a returning mode aiming at resource utilization, and the other is a manual strengthening treatment mode aiming at standard emission. The Chinese large-scale farms are generally concentrated in suburbs, insufficient land is available for absorbing manure, a returning mode is inconvenient to use, and most of the Chinese large-scale farms are manually reinforced by combining fermentation treatment and other methods. The sewage is fermented to remove most of organic matters, but the indexes such as N, P and COD are still high. If a large amount of high-concentration effluent water which is not subjected to subsequent treatment is directly discharged, huge harm to the environment is necessarily caused.

Therefore, the search for a simple and efficient sewage treatment agent is a technical problem to be solved urgently at present.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a novel livestock-raising sewage purification treatment process, which realizes the efficient purification of pollutants in the livestock-raising sewage in a mode of combining biological treatment and chemical adsorption.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

the livestock-raising sewage purifying treatment process comprises the following treatment steps:

(1) Solid-liquid separation; performing preliminary filtration on the sewage to remove solid suspended matters in the sewage, so as to obtain primary filtrate;

(2) Acid-base regulation: after the pH value of the primary filtrate is regulated to 6.8-7.2 by alkali liquor, the sewage to be treated is led to a flocculation tank;

(3) Fermentation treatment: adding a biological starter into a flocculation tank for fermentation to obtain fermentation liquor;

(4) Flocculation treatment: after fermentation is completed, adding a composite flocculation adsorbent into fermentation liquor according to a solid-to-liquid ratio of 10-20 g/ton, wherein the treatment time of flocculation adsorption treatment is 30-60min, and continuously stirring in the treatment process;

(5) Solid-liquid separation: carrying out solid-liquid separation on the flocculated wastewater by a continuous centrifuge to obtain solid and separated liquid, and discharging the separated liquid to a water collecting tank;

(6) And (3) disinfection: and finally disinfecting the separating liquid by utilizing ultraviolet rays or ozone.

Further, the alkali liquor in the step (2) is sodium hydroxide solution and/or potassium hydroxide solution, and the molar concentration is 1-3mol/L.

Further, the addition amount of the biological leavening agent in the step (3) is 100-300mL/m ³ The fermentation time is 24-36h; the preparation method of the biological starter comprises the following steps: activating two strains of Bacillus subtilis (Bacillus subtilis) and Pseudomonas glutinosa (Pseudomonas guguanensis), inoculating to LB culture medium, shake culturing at 30deg.C for 24 hr/min for 5min under constant temperature of 4000r/min, centrifuging, removing supernatant, collecting thallus, adding phosphate buffer to make thallus concentration of suspension reach 2×10 ⁹ CFU/mL, obtaining bacterial suspension, and mixing the bacterial suspensions of the two bacteria according to the volume ratio of 1:1 to obtain the biological starter.

The composition of the LB medium was: yeast extract 5g, tryptone 10g, sodium chloride 10g, distilled water 1000mL, pH 7.0; and steam sterilizing at 121deg.C for 20min.

Further, the bacillus subtilis is purchased from China General Microbiological Collection Center (CGMCC) 1.8955, and the original collection date is 2009, 2 months and 26 days; the Pseudomonas glutinosa is purchased from China general microbiological collection center, the collection number is CGMCC1.15627, and the original collection date is 2015, 2 months and 25 days.

Both strains related by the invention can be purchased through an ordering flow in the China general microbiological preservation management center.

Further, the composition of the composite flocculation adsorbent is as follows: 8-10 parts of polymeric ferric sulfate, 4-6 parts of polymeric aluminum sulfate, 8-10 parts of polyacrylamide, 4-8 parts of modified diatomite and 1-3 parts of sodium alginate.

Further, the preparation method of the modified diatomite comprises the following steps:

(1) Removing impurities from natural diatomite, crushing, sieving with a 200-mesh sieve, placing in a muffle furnace, calcining for 2 hours, cooling, and then, according to the solid-to-liquid ratio of 100g:1L is subjected to acid leaching for 6 hours by using a sulfuric acid solution with the mass concentration of 25 percent, and is washed by water until the pH value is neutral, so as to obtain pretreated diatomite;

(2) Sequentially soaking pretreated diatomite into nano silica sol solution with mass concentration of 3-5%, 10-12% and 20-22% for 1h, and fully drying after soaking to obtain the modified diatomite.

The average grain diameter of the nano silica sol is not more than 1 mu m.

Advantageous effects

(1) Firstly, primarily filtering to remove suspended solid matters in livestock breeding wastewater, and regulating the pH value of the system to be neutral. Secondly, adding a compound microbial agent for mixed fermentation, wherein the selected bacillus subtilis can utilize organic matters in a water body to carry out photosynthesis, so that COD and N, P content in the water body are reduced, the Pseudomonas glutinosa can degrade COD and N, P, and the secreted polymer substances are generally composed of polysaccharide substances, protein and lipid substances, and a large number of adsorption active groups are contained in molecules, so that a better adsorption effect on heavy metal ions in sewage can be generated, and after the two bacteria are mixed in equal proportion, the two bacteria are in symbiotic cooperation and mutual promotion, so that the functions of single bacteria are integrated, the cooperative symbiotic effect among the bacteria is increased, the pH of the water body can be stabilized, and the dissolved oxygen and transparency of the water body are improved;

(2) The sewage after fermentation treatment is further treated by using a composite flocculant, and the added polymeric ferric sulfate and polymeric aluminum sulfate cooperate with the formed floccule to carry out adsorption sedimentation on inorganic matters and organic matters of the sewage, so as to enhance flocculation; meanwhile, modified diatomite is added, and the modified diatomite is utilized to efficiently adsorb and fix pollutants in water. However, although diatomaceous earth has the characteristics of large specific surface area, high void fraction, strong adsorptivity, high chemical stability, low price, etc., the adsorption performance of natural diatomaceous earth is poor, and further improvement of adsorption performance by modification and loading of other materials is required. The method removes surface impurities of natural diatomite by acid etching, opens the surface and internal gaps of the diatomite, treats the diatomite by treating silica sol from low concentration to high concentration, ensures that the nano silica sol has extremely high adsorptivity and catalysis, can be fully adsorbed on the surface of the diatomite and the surface of an internal pore canal, increases the adsorption activity of the diatomite on one hand, can play a supporting role on the other hand, increases the strength, and finally realizes the efficient adsorption and fixation of pollutants in sewage;

(3) Finally, secondary solid-liquid separation and disinfection treatment are carried out, and sewage is thoroughly purified.

Drawings

FIG. 1 is a microscopic image of the diatomaceous earth of the present invention, wherein (a) is natural diatomaceous earth and (b-c) is modified diatomaceous earth obtained in example 3 of the present invention.

Detailed Description

The technical scheme of the present invention is further described below with reference to specific examples, but is not limited thereto.

Example 1

The livestock-raising sewage purifying treatment process comprises the following treatment steps:

(1) Solid-liquid separation; performing preliminary filtration on the sewage to remove solid suspended matters in the sewage, so as to obtain primary filtrate;

(2) Acid-base regulation: after the pH value of the primary filtrate is regulated to 6.8-7.2 by alkali liquor, the sewage to be treated is led to a flocculation tank;

(3) Fermentation treatment: adding a biological starter into a flocculation tank for fermentation to obtain fermentation liquor;

(4) Flocculation treatment: after fermentation is completed, adding a composite flocculation adsorbent into fermentation liquor according to a solid-to-liquid ratio of 10 g/ton, wherein the treatment time of flocculation adsorption treatment is 30min, and continuously stirring in the treatment process;

(5) Solid-liquid separation: carrying out solid-liquid separation on the flocculated wastewater by a continuous centrifuge to obtain solid and separated liquid, and discharging the separated liquid to a water collecting tank;

(6) And (3) disinfection: and finally disinfecting the separating liquid by utilizing ultraviolet rays or ozone.

The alkali liquor in the step (2) is sodium hydroxide solution, and the molar concentration is 1mol/L.

The addition amount of the biological leavening agent in the step (3) is 100mL/m ³ The fermentation time is 24 hours; the preparation method of the biological starter comprises the following steps: activating two strains of Bacillus subtilis and Pseudomonas glutinosa, inoculating to LB culture medium, shake culturing at constant temperature of 30deg.C for 24 hr at 200r/min for 5min, centrifuging at 4000r/min, removing supernatant, collecting thallus, adding phosphate buffer to make thallus concentration of suspension reach 2×10 ⁹ CFU/mL, obtaining bacterial suspension, and mixing the bacterial suspensions of the two bacteria according to the volume ratio of 1:1 to obtain the biological starter.

The composition of the LB medium was: yeast extract 5g, tryptone 10g, sodium chloride 10g, distilled water 1000mL, pH 7.0; and steam sterilizing at 121deg.C for 20min.

The bacillus subtilis is purchased from China General Microbiological Collection Center (CGMCC) 1.8955, and the original collection date is 2009, 2 months and 26 days; the Pseudomonas glutinosa is purchased from China general microbiological collection center, the collection number is CGMCC1.15627, and the original collection date is 2015, 2 months and 25 days.

Both strains related to this example can be purchased openly through the ordering process in the China general microbiological preservation management center.

The composite flocculation adsorbent comprises the following components: 8 parts of polymeric ferric sulfate, 4 parts of polymeric aluminum sulfate, 8 parts of polyacrylamide, 4 parts of modified diatomite and 1 part of sodium alginate.

The preparation method of the modified diatomite comprises the following steps:

(1) Removing impurities from natural diatomite, crushing, sieving with a 200-mesh sieve, placing in a muffle furnace, calcining for 2 hours, cooling, and then, according to the solid-to-liquid ratio of 100g:1L is subjected to acid leaching for 6 hours by using a sulfuric acid solution with the mass concentration of 25 percent, and is washed by water until the pH value is neutral, so as to obtain pretreated diatomite;

(2) Sequentially soaking pretreated diatomite into nano silica sol solution with mass concentration of 3-5%, 10-12% and 20-22% for 1h, and fully drying after soaking to obtain the modified diatomite.

The average grain diameter of the nano silica sol is not more than 1 mu m.

Example 2

The livestock-raising sewage purifying treatment process comprises the following treatment steps:

(1) Solid-liquid separation; performing preliminary filtration on the sewage to remove solid suspended matters in the sewage, so as to obtain primary filtrate;

(2) Acid-base regulation: after the pH value of the primary filtrate is regulated to 6.8-7.2 by alkali liquor, the sewage to be treated is led to a flocculation tank;

(3) Fermentation treatment: adding a biological starter into a flocculation tank for fermentation to obtain fermentation liquor;

(4) Flocculation treatment: after fermentation is completed, adding a composite flocculation adsorbent into fermentation liquor according to a solid-to-liquid ratio of 15 g/ton, wherein the treatment time of flocculation adsorption treatment is 40min, and continuously stirring in the treatment process;

(5) Solid-liquid separation: carrying out solid-liquid separation on the flocculated wastewater by a continuous centrifuge to obtain solid and separated liquid, and discharging the separated liquid to a water collecting tank;

(6) And (3) disinfection: and finally disinfecting the separating liquid by utilizing ultraviolet rays or ozone.

The alkali liquor in the step (2) is potassium hydroxide solution, and the molar concentration is 2mol/L.

The addition amount of the biological leaven in the step (3) is 200mL/m ³ The fermentation time is 30 hours; the preparation method of the biological starter comprises the following steps: activating two strains of Bacillus subtilis and Pseudomonas glutinosa, inoculating to LB culture medium, shake culturing at constant temperature of 30deg.C for 24 hr at 200r/min for 5min, centrifuging at 4000r/min, removing supernatant, collecting thallus, adding phosphate buffer to make thallus concentration of suspension reach 2×10 ⁹ CFU/mL, obtaining bacterial suspension, and mixing the bacterial suspensions of the two bacteria according to the volume ratio of 1:1 to obtain the biological starter.

The composition of the LB medium was: yeast extract 5g, tryptone 10g, sodium chloride 10g, distilled water 1000mL, pH 7.0; and steam sterilizing at 121deg.C for 20min.

The bacillus subtilis is purchased from China General Microbiological Collection Center (CGMCC) 1.8955, and the original collection date is 2009, 2 months and 26 days; the Pseudomonas glutinosa is purchased from China general microbiological collection center, the collection number is CGMCC1.15627, and the original collection date is 2015, 2 months and 25 days.

Both strains related to this example can be purchased openly through the ordering process in the China general microbiological preservation management center.

The composite flocculation adsorbent comprises the following components: 9 parts of polymeric ferric sulfate, 5 parts of polymeric aluminum sulfate, 9 parts of polyacrylamide, 6 parts of modified diatomite and 2 parts of sodium alginate.

The preparation method of the modified diatomite comprises the following steps:

(1) Removing impurities from natural diatomite, crushing, sieving with a 200-mesh sieve, placing in a muffle furnace, calcining for 2 hours, cooling, and then, according to the solid-to-liquid ratio of 100g:1L is subjected to acid leaching for 6 hours by using a sulfuric acid solution with the mass concentration of 25 percent, and is washed by water until the pH value is neutral, so as to obtain pretreated diatomite;

(2) Sequentially soaking pretreated diatomite into nano silica sol solution with mass concentration of 3-5%, 10-12% and 20-22% for 1h, and fully drying after soaking to obtain the modified diatomite.

The average grain diameter of the nano silica sol is not more than 1 mu m.

Example 3

The livestock-raising sewage purifying treatment process comprises the following treatment steps:

(1) Solid-liquid separation; performing preliminary filtration on the sewage to remove solid suspended matters in the sewage, so as to obtain primary filtrate;

(2) Acid-base regulation: after the pH value of the primary filtrate is regulated to 6.8-7.2 by alkali liquor, the sewage to be treated is led to a flocculation tank;

(3) Fermentation treatment: adding a biological starter into a flocculation tank for fermentation to obtain fermentation liquor;

(4) Flocculation treatment: after fermentation is completed, adding a composite flocculation adsorbent into fermentation liquor according to a solid-to-liquid ratio of 20 g/ton, wherein the treatment time of flocculation adsorption treatment is 60min, and continuously stirring in the treatment process;

(5) Solid-liquid separation: carrying out solid-liquid separation on the flocculated wastewater by a continuous centrifuge to obtain solid and separated liquid, and discharging the separated liquid to a water collecting tank;

(6) And (3) disinfection: and finally disinfecting the separating liquid by utilizing ultraviolet rays or ozone.

The alkali liquor in the step (2) is sodium hydroxide solution and/or potassium hydroxide solution, and the molar concentration is 3mol/L.

The addition amount of the biological leaven in the step (3) is 300mL/m ³ The fermentation time is 36h; the preparation method of the biological starter comprises the following steps: activating two strains of Bacillus subtilis and Pseudomonas glutinosa, inoculating to LB culture medium, shake culturing at constant temperature of 30deg.C for 24 hr at 200r/min for 5min, centrifuging at 4000r/min, removing supernatant, collecting thallus, adding phosphate buffer to make thallus concentration of suspension reach 2×10 ⁹ CFU/mL, obtaining bacterial suspension, and mixing the bacterial suspensions of the two bacteria according to the volume ratio of 1:1 to obtain the biological starter.

The composition of the LB medium was: yeast extract 5g, tryptone 10g, sodium chloride 10g, distilled water 1000mL, pH 7.0; and steam sterilizing at 121deg.C for 20min.

The bacillus subtilis is purchased from China General Microbiological Collection Center (CGMCC) 1.8955, and the original collection date is 2009, 2 months and 26 days; the Pseudomonas glutinosa is purchased from China general microbiological collection center, the collection number is CGMCC1.15627, and the original collection date is 2015, 2 months and 25 days.

Both strains related to this example can be purchased openly through the ordering process in the China general microbiological preservation management center.

The composite flocculation adsorbent comprises the following components: 10 parts of polymeric ferric sulfate, 6 parts of polymeric aluminum sulfate, 10 parts of polyacrylamide, 8 parts of modified diatomite and 3 parts of sodium alginate.

The preparation method of the modified diatomite comprises the following steps:

(1) Removing impurities from natural diatomite, crushing, sieving with a 200-mesh sieve, placing in a muffle furnace, calcining for 2 hours, cooling, and then, according to the solid-to-liquid ratio of 100g:1L is subjected to acid leaching for 6 hours by using a sulfuric acid solution with the mass concentration of 25 percent, and is washed by water until the pH value is neutral, so as to obtain pretreated diatomite;

(2) Sequentially soaking pretreated diatomite into nano silica sol solution with mass concentration of 3-5%, 10-12% and 20-22% for 1h, and fully drying after soaking to obtain the modified diatomite.

The average grain diameter of the nano silica sol is not more than 1 mu m.

Comparative example 1

The livestock-raising sewage purifying treatment process comprises the following treatment steps:

(1) Solid-liquid separation; performing preliminary filtration on the sewage to remove solid suspended matters in the sewage, so as to obtain primary filtrate;

(2) Acid-base regulation: after the pH value of the primary filtrate is regulated to 6.8-7.2 by alkali liquor, the sewage to be treated is led to a flocculation tank;

(3) Fermentation treatment: adding a biological starter into a flocculation tank for fermentation to obtain fermentation liquor;

(4) Flocculation treatment: after fermentation is completed, adding a composite flocculation adsorbent into fermentation liquor according to a solid-to-liquid ratio of 20 g/ton, wherein the treatment time of flocculation adsorption treatment is 60min, and continuously stirring in the treatment process;

(5) Solid-liquid separation: carrying out solid-liquid separation on the flocculated wastewater by a continuous centrifuge to obtain solid and separated liquid, and discharging the separated liquid to a water collecting tank;

(6) And (3) disinfection: and finally disinfecting the separating liquid by utilizing ultraviolet rays or ozone.

The alkali liquor in the step (2) is sodium hydroxide solution and/or potassium hydroxide solution, and the molar concentration is 3mol/L.

The addition amount of the biological leaven in the step (3) is 300mL/m ³ The fermentation time is 36h; the preparation method of the biological starter comprises the following steps: activating bacillus subtilis strain, inoculating to LB culture medium, shake culturing at 30deg.C for 24 hr at 200r/min for 5min, centrifuging at 4000r/min, removing supernatant, collecting thallus, adding phosphate buffer solution to make thallus concentration of suspension reach 2×10 ⁹ CFU/mL to obtain bacterial suspension, namely the biological starter.

The composition of the LB medium was: yeast extract 5g, tryptone 10g, sodium chloride 10g, distilled water 1000mL, pH 7.0; and steam sterilizing at 121deg.C for 20min.

The bacillus subtilis is purchased from China General Microbiological Collection Center (CGMCC) 1.8955, and the original collection date is 2009, 2 months and 26 days.

The composite flocculation adsorbent comprises the following components: 10 parts of polymeric ferric sulfate, 6 parts of polymeric aluminum sulfate, 10 parts of polyacrylamide, 8 parts of modified diatomite and 3 parts of sodium alginate.

The preparation method of the modified diatomite comprises the following steps:

(1) Removing impurities from natural diatomite, crushing, sieving with a 200-mesh sieve, placing in a muffle furnace, calcining for 2 hours, cooling, and then, according to the solid-to-liquid ratio of 100g:1L is subjected to acid leaching for 6 hours by using a sulfuric acid solution with the mass concentration of 25 percent, and is washed by water until the pH value is neutral, so as to obtain pretreated diatomite;

(2) Sequentially soaking pretreated diatomite into nano silica sol solution with mass concentration of 3-5%, 10-12% and 20-22% for 1h, and fully drying after soaking to obtain the modified diatomite.

The average grain diameter of the nano silica sol is not more than 1 mu m.

In this comparative example, the raw materials and the preparation process were the same as in example 3, except that only Bacillus subtilis was used in the biological agent.

Comparative example 2

The livestock-raising sewage purifying treatment process comprises the following treatment steps:

(1) Solid-liquid separation; performing preliminary filtration on the sewage to remove solid suspended matters in the sewage, so as to obtain primary filtrate;

(2) Acid-base regulation: after the pH value of the primary filtrate is regulated to 6.8-7.2 by alkali liquor, the sewage to be treated is led to a flocculation tank;

(3) Fermentation treatment: adding a biological starter into a flocculation tank for fermentation to obtain fermentation liquor;

(4) Flocculation treatment: after fermentation is completed, adding a composite flocculation adsorbent into fermentation liquor according to a solid-to-liquid ratio of 20 g/ton, wherein the treatment time of flocculation adsorption treatment is 60min, and continuously stirring in the treatment process;

(5) Solid-liquid separation: carrying out solid-liquid separation on the flocculated wastewater by a continuous centrifuge to obtain solid and separated liquid, and discharging the separated liquid to a water collecting tank;

(6) And (3) disinfection: and finally disinfecting the separating liquid by utilizing ultraviolet rays or ozone.

The alkali liquor in the step (2) is sodium hydroxide solution and/or potassium hydroxide solution, and the molar concentration is 3mol/L.

The addition amount of the biological leaven in the step (3) is 300mL/m ³ The fermentation time is 36h; the preparation method of the biological starter comprises the following steps: activating two strains of Pseudomonas glutinosa, inoculating to LB culture medium, centrifuging at 200deg.C for 24 hr/min under shaking culture at 30deg.C for 5min, removing supernatant, collecting thallus, adding phosphate buffer solution to make thallus concentration of suspension reach 2×10 ⁹ CFU/mL to obtain bacterial suspension, namely the biological starter.

The composition of the LB medium was: yeast extract 5g, tryptone 10g, sodium chloride 10g, distilled water 1000mL, pH 7.0; and steam sterilizing at 121deg.C for 20min.

The Pseudomonas glutinosa is purchased from China general microbiological collection center, the collection number is CGMCC1.15627, and the original collection date is 2015, 2 months and 25 days.

The composite flocculation adsorbent comprises the following components: 10 parts of polymeric ferric sulfate, 6 parts of polymeric aluminum sulfate, 10 parts of polyacrylamide, 8 parts of modified diatomite and 3 parts of sodium alginate.

The preparation method of the modified diatomite comprises the following steps:

(1) Removing impurities from natural diatomite, crushing, sieving with a 200-mesh sieve, placing in a muffle furnace, calcining for 2 hours, cooling, and then, according to the solid-to-liquid ratio of 100g:1L is subjected to acid leaching for 6 hours by using a sulfuric acid solution with the mass concentration of 25 percent, and is washed by water until the pH value is neutral, so as to obtain pretreated diatomite;

(2) Sequentially soaking pretreated diatomite into nano silica sol solution with mass concentration of 3-5%, 10-12% and 20-22% for 1h, and fully drying after soaking to obtain the modified diatomite.

The average grain diameter of the nano silica sol is not more than 1 mu m.

In this comparative example, the raw materials and the preparation process were the same as in example 3, except that only Pseudomonas glutinosa was used in the biological starter.

Comparative example 3

This comparative example was the same as example 3 except that only a nano silica sol solution having a mass concentration of 3 to 5% was used for the treatment in the preparation of the modified diatomaceous earth. The method comprises the following steps:

the preparation method of the modified diatomite comprises the following steps:

(1) Removing impurities from natural diatomite, crushing, sieving with a 200-mesh sieve, placing in a muffle furnace, calcining for 2 hours, cooling, and then, according to the solid-to-liquid ratio of 100g:1L is subjected to acid leaching for 6 hours by using a sulfuric acid solution with the mass concentration of 25 percent, and is washed by water until the pH value is neutral, so as to obtain pretreated diatomite;

(2) Sequentially soaking pretreated diatomite in a nano silica sol solution with the mass concentration of 3-5%, wherein the soaking time is 1h, and fully drying after the soaking is finished to obtain the modified diatomite.

Comparative example 4

This comparative example was the same as example 3 except that in the preparation of modified diatomaceous earth, only a 10-12% by mass nano silica sol solution was used for the treatment. The method comprises the following steps:

the preparation method of the modified diatomite comprises the following steps:

(1) Removing impurities from natural diatomite, crushing, sieving with a 200-mesh sieve, placing in a muffle furnace, calcining for 2 hours, cooling, and then, according to the solid-to-liquid ratio of 100g:1L is subjected to acid leaching for 6 hours by using a sulfuric acid solution with the mass concentration of 25 percent, and is washed by water until the pH value is neutral, so as to obtain pretreated diatomite;

(2) Sequentially soaking pretreated diatomite into a nano silica sol solution with the mass concentration of 10-12%, wherein the soaking time is 1h, and fully drying after the soaking is finished to obtain the modified diatomite.

Comparative example 5

This comparative example was the same as example 3 except that in the preparation of modified diatomaceous earth, only a nano silica sol solution having a mass concentration of 20 to 22% was used for the treatment. The method comprises the following steps:

the preparation method of the modified diatomite comprises the following steps:

(1) Removing impurities from natural diatomite, crushing, sieving with a 200-mesh sieve, placing in a muffle furnace, calcining for 2 hours, cooling, and then, according to the solid-to-liquid ratio of 100g:1L is subjected to acid leaching for 6 hours by using a sulfuric acid solution with the mass concentration of 25 percent, and is washed by water until the pH value is neutral, so as to obtain pretreated diatomite;

(2) Sequentially soaking pretreated diatomite into a nano silica sol solution with the mass concentration of 20-22%, wherein the soaking time is 1h, and fully drying after the soaking is finished to obtain the modified diatomite.

Performance testing

Experimental verification of the purification Effect of the Process of examples 1-3 and comparative examples 1-5

Cultivation sewage for test

The water sample is taken from a large pig farm in Yi-Lin-city, mengyin county in Shandong province

Detection method

The water quality index is detected according to the national standard method, and is specifically shown in table 1:

TABLE 1 Water quality measurement index and method

The water quality of the culture wastewater treated according to the above examples and comparative examples was measured, and the results are shown in Table 2:

TABLE 2 Water purification effect

As can be seen from the data in Table 2, the treatment process of the embodiment of the invention has good purification effect on the livestock-raising sewage, while the comparative examples 1-2 with changed strain composition and the comparative examples 3-5 with changed diatomite treatment process have reduced purification effect due to disappearance of synergy among strains and incomplete diatomite modification. The process steps and the selection of raw materials are critical to realizing the efficient purification effect of the livestock breeding sewage, and the lack of the efficient purification effect is weak.

It should be noted that the above-mentioned embodiments are merely some, but not all embodiments of the preferred mode of carrying out the invention. It is evident that all other embodiments obtained by a person skilled in the art without making any inventive effort, based on the above-described embodiments of the invention, shall fall within the scope of protection of the invention.

Claims (2)

1. The livestock-raising sewage purification treatment process is characterized by comprising the following treatment steps:

(1) Solid-liquid separation; performing preliminary filtration on the sewage to remove solid suspended matters in the sewage, so as to obtain primary filtrate;

(2) Acid-base regulation: after the pH value of the primary filtrate is regulated to 6.8-7.2 by alkali liquor, the sewage to be treated is led to a flocculation tank;

(3) Fermentation treatment: adding a biological starter into a flocculation tank for fermentation to obtain fermentation liquor;

(4) Flocculation treatment: after fermentation is completed, adding a composite flocculation adsorbent into fermentation liquor according to a solid-to-liquid ratio of 10-20 g/ton, wherein the treatment time of flocculation adsorption treatment is 30-60min, and continuously stirring in the treatment process;

(5) Solid-liquid separation: carrying out solid-liquid separation on the flocculated wastewater by a continuous centrifuge to obtain solid and separated liquid, and discharging the separated liquid to a water collecting tank;

(6) And (3) disinfection: finally sterilizing the separating liquid by utilizing ultraviolet rays or ozone;

the addition amount of the biological leaven in the step (3) is 100-300mL/m ³ The fermentation time is 24-36h; the preparation method of the biological starter comprises the following steps: activating two strains of Bacillus subtilis (Bacillus subtilis) and Pseudomonas glutinosa (Pseudomonas guguanensis), inoculating to LB culture medium, shake culturing at 30deg.C for 24 hr/min for 5min under constant temperature of 4000r/min, centrifuging, removing supernatant, collecting thallus, adding phosphate buffer to make thallus concentration of suspension reach 2×10 ⁹ CFU/mL is adopted to obtain bacterial suspension, and then the bacterial suspension of the two bacteria is mixed according to the volume ratio of 1:1 to obtain the biological fermentation agent;

the bacillus subtilis is purchased from China General Microbiological Collection Center (CGMCC) 1.8955; the Pseudomonas glutinosa is purchased from China general microbiological collection center, and the collection number is CGMCC1.15627;

the composite flocculation adsorbent comprises the following components: 8-10 parts of polymeric ferric sulfate, 4-6 parts of polymeric aluminum sulfate, 8-10 parts of polyacrylamide, 4-8 parts of modified diatomite and 1-3 parts of sodium alginate;

the preparation method of the modified diatomite comprises the following steps:

(1) Removing impurities from natural diatomite, crushing, sieving with a 200-mesh sieve, placing in a muffle furnace, calcining for 2 hours, cooling, and then, according to the solid-to-liquid ratio of 100g:1L is subjected to acid leaching for 6 hours by using a sulfuric acid solution with the mass concentration of 25 percent, and is washed by water until the pH value is neutral, so as to obtain pretreated diatomite;

(2) Sequentially soaking pretreated diatomite into nano silica sol solution with mass concentration of 3-5%, 10-12% and 20-22% for 1h, and fully drying after soaking to obtain the modified diatomite.

2. The livestock-raising sewage purification treatment process according to claim 1, wherein the alkali liquor in the step (2) is sodium hydroxide solution and/or potassium hydroxide solution, and the molar concentration is 1-3mol/L.