CN114105314A - Water environment restoration material and preparation method thereof - Google Patents

Abstract

The invention provides a water environment restoration material which comprises the following components in parts by weight: the water environment restoration material comprises 40-60 parts of a microorganism composite preparation, 8-16 parts of a photosynthetic reagent, 15-20 parts of an adsorbent and La (OH)₃4-7 parts. The water environment restoration material of the invention utilizes various microorganisms, photosynthetic reagents and adsorbents in the water environment restoration material, including complex populations formed by anaerobic, facultative, aerobic and other microorganisms, and fillers to adsorb organic matters, nitrogen, phosphorus and the like, and microorganisms are used for generatingThe synergistic effect between the substances and the assimilation and dissimilation effect of the microorganisms thoroughly decompose organic matters in water into carbon dioxide and water, convert organic nitrogen, inorganic nitrogen and the like into nitrogen to be discharged into air, convert phosphorus into sludge, remove residual sludge through discharge, purify water finally and operate for 3 months.

Description

Water environment restoration material and preparation method thereof

Technical Field

The invention relates to the technical field of environmental remediation, in particular to a water environment remediation material and a preparation method thereof.

Background

With the rapid development of social economy, population is rapidly increased, pollutant discharge amount is greatly increased, environmental protection is delayed, and the treatment level cannot follow the high development of economy, so that a large amount of pollutants enter a water body along with sewage, garbage, precipitation, runoff and the like, and the environmental quality is deteriorated. The runoff pollutants are directly discharged into rivers without being treated, so that the water body is seriously polluted. Especially in cities, for the requirement of flood discharge, only considering river transformation from the engineering perspective, bending and straightening the river channel, and solidifying three sides of two banks of the river by cement steel bars, the facility isolates the connection of river water with a river bed and a river bank system, so that the environment suitable for the survival of more organisms disappears, the ecological function and the net capacity thereof also degrade, a large amount of organisms in the river channel directly disappear, and the ecological system in the river channel water body is easily collapsed and collapsed by high-load pollution discharge, so that most urban river channels become black and odorous at the present stage, become typical odorous water ditches, and lose the flood discharge function basically when the urban river channels are seriously silted. At present, no ideal treatment method exists for the problems, most methods relate to dredging treatment, the investment cost is high, the actual problems cannot be fundamentally solved, and as long as 2016, 2, 16 days, no black and odorous water bodies are found in 295 and above ground levels of cities in the country. In the rest 218 cities, 1861 black and odorous water bodies were exhausted. Wherein, the river 1595 accounts for 85.7%; 266 lakes and ponds and 14.3 percent. In the seven major watersheds of China, pollution of the sea river, the Songliao watersheds and the like is serious, and the polluted river reach accounts for more than 60 percent.

The restoration engineering of the polluted environment in China should adopt strategies of mainly bioremediation and secondarily physicochemical restoration, the bioremediation engineering is an important component of the environmental engineering, although the emergence time is short, the development is very rapid, and the biological restoration engineering becomes an important growth point for the technical development of the environmental protection field, wherein the restoration of the water environment is particularly prominent, and the water quality is easily damaged by the water environment restoration materials on the market at present.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the water environment restoration material and the preparation method thereof, which have the advantages of difficulty in destroying water quality and the like, and solve the problem of destroying water quality. The technical scheme adopted by the invention is as follows:

an aqueous environmental remediation material wherein: the paint comprises the following components in parts by weight: the water environment restoration material comprises 40-60 parts of a microorganism composite preparation, 8-16 parts of a photosynthetic reagent, 15-20 parts of an adsorbent and La (OH)₃4-7 parts.

Preferably, the water environment remediation material comprises: the microbial composite preparation comprises 30-55 parts of a microbial preparation and 5-10 parts of a growth promoting agent, wherein the microbial preparation comprises 32-35% of nitrobacteria, 24-26% of denitrifying bacteria, 18-20% of Bacillus smithii, 4-8% of Bacillus laevorotatory lactis, 3-5% of Pseudomonas aeruginosa, 3-5% of purple bacteria and 1-16% of mucor.

Preferably, the water environment remediation material comprises: the growth promoter comprises 55-65% of humic acid, 10-12% of thiamine, 5-8% of beta-alanine, 3-5% of acetonitrile and 10-27% of arachidonic acid. The growth promoter can promote the growth of beneficial microorganisms in the water body, and leads pollutants in the water body to be assimilated into microbial thalli which are fixed on a biological membrane or decomposed into inorganic metabolites, thereby realizing the purification of the water body.

Preferably, the water environment remediation material comprises: the photosynthetic reagent comprises 10-15% of cyanobacteria, 20-25% of green bacteria, 5-10% of sodium carbonate, 4-8% of malonylurea, 1-3% of molybdenum nitrate pentahydrate and 39-60% of water. The photosynthetic reagent is synergistic through cyanobacteria and green bacteria, and sodium carbonate, malonylurea and molybdenum nitrate pentahydrate provide nutrients required by the cyanobacteria and the green bacteria, and jointly decompose organic matters.

Preferably, the water environment remediation material comprises: the adsorbent comprises 60-68% of activated carbon, 14-16% of chitosan, 8-10% of cyclodextrin and 6-18% of porous barium carbonate.

Preferably, the water environment remediation material comprises: the water environment repairing material also comprisesComprises 2 to 4 parts of Pr (OH)₃。

Preferably, the water environment remediation material comprises: the water environment restoration material also comprises 0.5-1 part of calcium chloride.

A preparation method of a water environment restoration material, wherein: the method comprises the following steps:

s1, preparing a microbial compound preparation: mixing nitrobacteria, denitrifying bacteria, bacillus smithii, bacillus laevigatus, pseudomonas aeruginosa, purple bacteria and trichoderma for 0.5-1 h, then adding humic acid, thiamine, beta-alanine, acetonitrile and arachidonic acid, mixing and stirring for 3-5 h to obtain a microorganism composite preparation;

s2, preparation of a photosynthetic reagent: sequentially adding cyanobacteria, green bacteria, sodium carbonate, malonylurea, molybdenum nitrate pentahydrate and water into a mixing device, and mixing and stirring for 0.5-2 h to obtain a photosynthetic reagent;

s3, preparation of an adsorbent: sequentially adding activated carbon, chitosan, cyclodextrin and porous barium carbonate into a mixing device, and mixing and stirring for 0.5-2 h to obtain an adsorbent;

s4, water environment restoration material: 40-60 parts of microbial compound preparation, 8-16 parts of photosynthetic reagent, 15-20 parts of adsorbent and 4-7 parts of La (OH)₃2 to 4 parts of Pr (OH)₃And 0.5-1 part of calcium chloride are mixed and stirred for 4-6 hours to obtain the water environment restoration material.

The invention has the advantages that:

(1) the water environment restoration material provided by the invention utilizes various microorganisms, photosynthetic reagents and adsorbents in the water environment restoration material, including complex populations formed by anaerobic, facultative, aerobic and other microorganisms, and fillers to adsorb organic matters, nitrogen and phosphorus, etc., so that the organic matters in water are thoroughly decomposed into carbon dioxide and water through the synergistic action among the microorganisms and the assimilation and dissimilation of the microorganisms, organic nitrogen, inorganic nitrogen, etc. are converted into nitrogen to be discharged into air, phosphorus is converted into sludge, residual sludge is discharged to be removed, and finally water quality is purified and runs for 3 months.

Detailed Description

The present invention will be further described with reference to the following specific examples.

Example 1

An aqueous environmental remediation material wherein: the paint comprises the following components in parts by weight: the water environment repairing material comprises 40 parts of microbial compound preparation, 8 parts of photosynthetic reagent, 15 parts of adsorbent and La (OH)₃4 parts, 2 parts of Pr (OH)₃0.5 part of calcium chloride.

The microbial compound preparation comprises 30 parts of microbial preparation and 10 parts of growth promoting agent, wherein the microbial preparation comprises 32% of nitrobacteria, 24% of denitrifying bacteria, 18% of Bacillus smithii, 4% of L-lactobacillus, 5% of Pseudomonas aeruginosa, 3% of purple bacteria and 16% of mucor.

The growth promoter comprises 55% of humic acid, 10% of thiamine, 5% of beta-alanine, 3% of acetonitrile and 27% of arachidonic acid.

The photosynthetic reagent comprises 10% of cyanobacteria, 20% of green bacteria, 5% of sodium carbonate, 4% of malonylurea, 1% of molybdenum nitrate pentahydrate and 60% of water.

The adsorbent comprises 60% of activated carbon, 14% of chitosan, 8% of cyclodextrin and 18% of porous barium carbonate.

A preparation method of a water environment restoration material, wherein: the method comprises the following steps:

s1, preparing a microbial compound preparation: mixing nitrobacteria, denitrifying bacteria, bacillus smithii, bacillus laevigatus, pseudomonas aeruginosa, purple bacteria and trichoderma for 0.5-1 h, then adding humic acid, thiamine, beta-alanine, acetonitrile and arachidonic acid, mixing and stirring for 3-5 h to obtain a microorganism composite preparation;

s2, preparation of a photosynthetic reagent: sequentially adding cyanobacteria, green bacteria, sodium carbonate, malonylurea, molybdenum nitrate pentahydrate and water into a mixing device, and mixing and stirring for 0.5-2 h to obtain a photosynthetic reagent;

s3, preparation of an adsorbent: sequentially adding activated carbon, chitosan, cyclodextrin and porous barium carbonate into a mixing device, and mixing and stirring for 0.5-2 h to obtain an adsorbent;

s4, water environment restoration material: will be provided with40 parts of microbial compound preparation, 8 parts of photosynthetic reagent, 15 parts of adsorbent and 4 parts of La (OH)₃2 parts of Pr (OH)₃And 0.5 part of calcium chloride are mixed and stirred for 4-6 hours to obtain the water environment restoration material.

Example 2

An aqueous environmental remediation material wherein: the paint comprises the following components in parts by weight: the water environment repairing material comprises 50 parts of microbial compound preparation, 10 parts of photosynthetic reagent, 18 parts of adsorbent and La (OH)₃5 parts, 3 parts of Pr (OH)₃0.7 part of calcium chloride.

The microbial compound preparation comprises 40 parts of microbial preparation and 10 parts of growth promoting agent, wherein the microbial preparation comprises 34% of nitrobacteria, 25% of denitrifying bacteria, 19% of Bacillus smithii, 6% of L-lactobacillus, 4% of Pseudomonas aeruginosa, 4% of purple bacteria and 8% of mucor.

The growth promoter comprises 60% of humic acid, 11% of thiamine, 7% of beta-alanine, 4% of acetonitrile and 18% of arachidonic acid.

The photosynthetic reagent comprises 12% of cyanobacteria, 22% of green bacteria, 8% of sodium carbonate, 6% of malonylurea, 2% of molybdenum nitrate pentahydrate and 50% of water.

The adsorbent comprises 66% of activated carbon, 15% of chitosan, 9% of cyclodextrin and 10% of porous barium carbonate.

A preparation method of a water environment restoration material, wherein: the method comprises the following steps:

s1, preparing a microbial compound preparation: mixing nitrobacteria, denitrifying bacteria, bacillus smithii, bacillus laevigatus, pseudomonas aeruginosa, purple bacteria and trichoderma for 0.5-1 h, then adding humic acid, thiamine, beta-alanine, acetonitrile and arachidonic acid, mixing and stirring for 3-5 h to obtain a microorganism composite preparation;

s2, preparation of a photosynthetic reagent: sequentially adding cyanobacteria, green bacteria, sodium carbonate, malonylurea, molybdenum nitrate pentahydrate and water into a mixing device, and mixing and stirring for 0.5-2 h to obtain a photosynthetic reagent;

s3, preparation of an adsorbent: sequentially adding activated carbon, chitosan, cyclodextrin and porous barium carbonate into a mixing device, and mixing and stirring for 0.5-2 h to obtain an adsorbent;

s4, water environment restoration material: 50 parts of microbial compound preparation, 10 parts of photosynthetic reagent, 18 parts of adsorbent and 5 parts of La (OH)₃3 parts of Pr (OH)₃And 0.7 part of calcium chloride are mixed and stirred for 4-6 hours to obtain the water environment restoration material.

Example 3

An aqueous environmental remediation material wherein: the paint comprises the following components in parts by weight: the water environment repairing material comprises 60 parts of microbial compound preparation, 16 parts of photosynthetic reagent, 20 parts of adsorbent and La (OH)₃7 parts, 4 parts of Pr (OH)₃1 part of calcium chloride.

The microbial compound preparation comprises 55 parts of a microbial preparation and 5 parts of a growth promoting agent, wherein the microbial preparation comprises 35% of nitrobacteria, 26% of denitrifying bacteria, 20% of bacillus smithii, 8% of bacillus laevigatus, 5% of pseudomonas aeruginosa, 5% of purple bacteria and 1% of mucor.

The growth promoter comprises 65% of humic acid, 12% of thiamine, 8% of beta-alanine, 5% of acetonitrile and 10% of arachidonic acid.

The photosynthetic reagent comprises 15% of cyanobacteria, 25% of green bacteria, 10% of sodium carbonate, 8% of malonylurea, 3% of molybdenum nitrate pentahydrate and 39% of water.

The adsorbent comprises 68% of activated carbon, 16% of chitosan, 10% of cyclodextrin and 6% of porous barium carbonate.

A preparation method of a water environment restoration material, wherein: the method comprises the following steps:

s1, preparing a microbial compound preparation: mixing nitrobacteria, denitrifying bacteria, bacillus smithii, bacillus laevigatus, pseudomonas aeruginosa, purple bacteria and trichoderma for 0.5-1 h, then adding humic acid, thiamine, beta-alanine, acetonitrile and arachidonic acid, mixing and stirring for 3-5 h to obtain a microorganism composite preparation;

s2, preparation of a photosynthetic reagent: sequentially adding cyanobacteria, green bacteria, sodium carbonate, malonylurea, molybdenum nitrate pentahydrate and water into a mixing device, and mixing and stirring for 0.5-2 h to obtain a photosynthetic reagent;

s3, preparation of an adsorbent: sequentially adding activated carbon, chitosan, cyclodextrin and porous barium carbonate into a mixing device, and mixing and stirring for 0.5-2 h to obtain an adsorbent;

s4, water environment restoration material: 60 parts of microbial compound preparation, 16 parts of photosynthetic reagent, 20 parts of adsorbent and 7 parts of La (OH)₃4 parts of Pr (OH)₃And 1 part of calcium chloride are mixed and stirred for 4-6 hours to obtain the water environment restoration material.

Comparative example 1

An aqueous environmental remediation material wherein: the paint comprises the following components in parts by weight: the water environment repairing material comprises 40 parts of microbial compound preparation, 8 parts of photosynthetic reagent, 15 parts of adsorbent and La (OH)₃4 parts, 2 parts of Pr (OH)₃0.5 part of calcium chloride.

The microbial compound preparation comprises 40 parts of microbial preparation, wherein the microbial preparation comprises 32% of nitrobacteria, 24% of denitrifying bacteria, 18% of Bacillus smithii, 4% of L-lactobacillus, 5% of Pseudomonas aeruginosa, 3% of purple bacteria and 16% of mucor.

The photosynthetic reagent comprises 10% of cyanobacteria, 20% of green bacteria, 5% of sodium carbonate, 4% of malonylurea, 1% of molybdenum nitrate pentahydrate and 60% of water.

The adsorbent comprises 60% of activated carbon, 14% of chitosan, 8% of cyclodextrin and 18% of porous barium carbonate.

A preparation method of a water environment restoration material, wherein: the method comprises the following steps:

s1, preparing a microbial compound preparation: mixing nitrobacteria, denitrifying bacteria, bacillus smithii, bacillus lactis, pseudomonas aeruginosa, purple bacteria and trichoderma for 0.5-1 h to obtain a microbial composite preparation;

s2, preparation of a photosynthetic reagent: sequentially adding cyanobacteria, green bacteria, sodium carbonate, malonylurea, molybdenum nitrate pentahydrate and water into a mixing device, and mixing and stirring for 0.5-2 h to obtain a photosynthetic reagent;

s3, preparation of an adsorbent: sequentially adding activated carbon, chitosan, cyclodextrin and porous barium carbonate into a mixing device, and mixing and stirring for 0.5-2 h to obtain an adsorbent;

s4, water environment restoration material: 40 parts of microbial compound preparation, 8 parts of photosynthetic reagent, 15 parts of adsorbent and 4 parts of La (OH)₃2 parts of Pr (OH)₃And 0.5 part of calcium chloride are mixed and stirred for 4-6 hours to obtain the water environment restoration material.

Comparative example 2

An aqueous environmental remediation material wherein: the paint comprises the following components in parts by weight: the water environment repairing material comprises 40 parts of microbial compound preparation, 15 parts of adsorbent and La (OH)₃4 parts, 2 parts of Pr (OH)₃0.5 part of calcium chloride.

The microbial compound preparation comprises 30 parts of microbial preparation and 10 parts of growth promoting agent, wherein the microbial preparation comprises 32% of nitrobacteria, 24% of denitrifying bacteria, 18% of Bacillus smithii, 4% of L-lactobacillus, 5% of Pseudomonas aeruginosa, 3% of purple bacteria and 16% of mucor.

The growth promoter comprises 55% of humic acid, 10% of thiamine, 5% of beta-alanine, 3% of acetonitrile and 27% of arachidonic acid.

The adsorbent comprises 60% of activated carbon, 14% of chitosan, 8% of cyclodextrin and 18% of porous barium carbonate.

A preparation method of a water environment restoration material, wherein: the method comprises the following steps:

s1, preparing a microbial compound preparation: mixing nitrobacteria, denitrifying bacteria, bacillus smithii, bacillus laevigatus, pseudomonas aeruginosa, purple bacteria and trichoderma for 0.5-1 h, then adding humic acid, thiamine, beta-alanine, acetonitrile and arachidonic acid, mixing and stirring for 3-5 h to obtain a microorganism composite preparation;

s2, preparation of an adsorbent: sequentially adding activated carbon, chitosan, cyclodextrin and porous barium carbonate into a mixing device, and mixing and stirring for 0.5-2 h to obtain an adsorbent;

s3, water environment restoration material: 40 parts of microbial compound preparation, 15 parts of adsorbent and 4 parts of La (OH)₃2 parts of Pr (OH)₃And 0.5 part of calcium chloride are mixed and stirred for 4-6 hours to obtain the water environment restoration material.

Comparative example 3

An aqueous environmental remediation material wherein: the paint comprises the following components in parts by weight: the water environment repairing material comprises 50 parts of microbial compound preparation, 10 parts of photosynthetic reagent and La (OH)₃5 parts, 3 parts of Pr (OH)₃0.7 part of calcium chloride.

The microbial compound preparation comprises 40 parts of microbial preparation and 10 parts of growth promoting agent, wherein the microbial preparation comprises 34% of nitrobacteria, 25% of denitrifying bacteria, 19% of Bacillus smithii, 6% of L-lactobacillus, 4% of Pseudomonas aeruginosa, 4% of purple bacteria and 8% of mucor.

The growth promoter comprises 60% of humic acid, 11% of thiamine, 7% of beta-alanine, 4% of acetonitrile and 18% of arachidonic acid.

The photosynthetic reagent comprises 12% of cyanobacteria, 22% of green bacteria, 8% of sodium carbonate, 6% of malonylurea, 2% of molybdenum nitrate pentahydrate and 50% of water.

A preparation method of a water environment restoration material, wherein: the method comprises the following steps:

s1, preparing a microbial compound preparation: mixing nitrobacteria, denitrifying bacteria, bacillus smithii, bacillus laevigatus, pseudomonas aeruginosa, purple bacteria and trichoderma for 0.5-1 h, then adding humic acid, thiamine, beta-alanine, acetonitrile and arachidonic acid, mixing and stirring for 3-5 h to obtain a microorganism composite preparation;

s2, preparation of a photosynthetic reagent: sequentially adding cyanobacteria, green bacteria, sodium carbonate, malonylurea, molybdenum nitrate pentahydrate and water into a mixing device, and mixing and stirring for 0.5-2 h to obtain a photosynthetic reagent;

s3, water environment restoration material: 50 parts of microbial compound preparation, 10 parts of photosynthetic reagent and 5 parts of La (OH)₃3 parts of Pr (OH)₃And 0.7 part of calcium chloride are mixed and stirred for 4-6 hours to obtain the water environment restoration material.

Comparative example 4

An aqueous environmental remediation material wherein: the paint comprises the following components in parts by weight: the water environment repairing material comprises 50 parts of microbial compound preparation, 10 parts of photosynthetic reagent and adsorptionAgent 18 parts, 3 parts Pr (OH)₃0.7 part of calcium chloride.

The microbial compound preparation comprises 40 parts of microbial preparation and 10 parts of growth promoting agent, wherein the microbial preparation comprises 34% of nitrobacteria, 25% of denitrifying bacteria, 19% of Bacillus smithii, 6% of L-lactobacillus, 4% of Pseudomonas aeruginosa, 4% of purple bacteria and 8% of mucor.

The growth promoter comprises 60% of humic acid, 11% of thiamine, 7% of beta-alanine, 4% of acetonitrile and 18% of arachidonic acid.

The photosynthetic reagent comprises 12% of cyanobacteria, 22% of green bacteria, 8% of sodium carbonate, 6% of malonylurea, 2% of molybdenum nitrate pentahydrate and 50% of water.

The adsorbent comprises 66% of activated carbon, 15% of chitosan, 9% of cyclodextrin and 10% of porous barium carbonate.

A preparation method of a water environment restoration material, wherein: the method comprises the following steps:

s1, preparing a microbial compound preparation: mixing nitrobacteria, denitrifying bacteria, bacillus smithii, bacillus laevigatus, pseudomonas aeruginosa, purple bacteria and trichoderma for 0.5-1 h, then adding humic acid, thiamine, beta-alanine, acetonitrile and arachidonic acid, mixing and stirring for 3-5 h to obtain a microorganism composite preparation;

s2, preparation of a photosynthetic reagent: sequentially adding cyanobacteria, green bacteria, sodium carbonate, malonylurea, molybdenum nitrate pentahydrate and water into a mixing device, and mixing and stirring for 0.5-2 h to obtain a photosynthetic reagent;

s3, preparation of an adsorbent: sequentially adding activated carbon, chitosan, cyclodextrin and porous barium carbonate into a mixing device, and mixing and stirring for 0.5-2 h to obtain an adsorbent;

s4, water environment restoration material: 50 parts of microbial compound preparation, 10 parts of photosynthetic reagent, 18 parts of adsorbent and 3 parts of Pr (OH)₃And 0.7 part of calcium chloride are mixed and stirred for 4-6 hours to obtain the water environment restoration material.

Comparative example 5

An aqueous environmental remediation material wherein: the paint comprises the following components in parts by weight: remediation of the aqueous environmentThe material comprises 60 parts of microbial compound preparation, 16 parts of photosynthetic reagent, 20 parts of adsorbent and La (OH)₃7 parts of calcium chloride and 1 part of calcium chloride.

The microbial compound preparation comprises 55 parts of a microbial preparation and 5 parts of a growth promoting agent, wherein the microbial preparation comprises 35% of nitrobacteria, 26% of denitrifying bacteria, 20% of bacillus smithii, 8% of bacillus laevigatus, 5% of pseudomonas aeruginosa, 5% of purple bacteria and 1% of mucor.

The growth promoter comprises 65% of humic acid, 12% of thiamine, 8% of beta-alanine, 5% of acetonitrile and 10% of arachidonic acid.

The photosynthetic reagent comprises 15% of cyanobacteria, 25% of green bacteria, 10% of sodium carbonate, 8% of malonylurea, 3% of molybdenum nitrate pentahydrate and 39% of water.

The adsorbent comprises 68% of activated carbon, 16% of chitosan, 10% of cyclodextrin and 6% of porous barium carbonate.

A preparation method of a water environment restoration material, wherein: the method comprises the following steps:

s1, preparing a microbial compound preparation: mixing nitrobacteria, denitrifying bacteria, bacillus smithii, bacillus laevigatus, pseudomonas aeruginosa, purple bacteria and trichoderma for 0.5-1 h, then adding humic acid, thiamine, beta-alanine, acetonitrile and arachidonic acid, mixing and stirring for 3-5 h to obtain a microorganism composite preparation;

s2, preparation of a photosynthetic reagent: sequentially adding cyanobacteria, green bacteria, sodium carbonate, malonylurea, molybdenum nitrate pentahydrate and water into a mixing device, and mixing and stirring for 0.5-2 h to obtain a photosynthetic reagent;

s3, preparation of an adsorbent: sequentially adding activated carbon, chitosan, cyclodextrin and porous barium carbonate into a mixing device, and mixing and stirring for 0.5-2 h to obtain an adsorbent;

s4, water environment restoration material: 60 parts of microbial compound preparation, 16 parts of photosynthetic reagent, 20 parts of adsorbent and 7 parts of La (OH)₃And 1 part of calcium chloride are mixed and stirred for 4-6 hours to obtain the water environment restoration material.

Comparative example 6

An aqueous environment-remediating material, wherein: the paint comprises the following components in parts by weight: the water environment repairing material comprises 60 parts of microbial compound preparation, 16 parts of photosynthetic reagent, 20 parts of adsorbent and La (OH)₃7 parts, 4 parts of Pr (OH)₃。

The microbial compound preparation comprises 55 parts of a microbial preparation and 5 parts of a growth promoting agent, wherein the microbial preparation comprises 35% of nitrobacteria, 26% of denitrifying bacteria, 20% of bacillus smithii, 8% of bacillus laevigatus, 5% of pseudomonas aeruginosa, 5% of purple bacteria and 1% of mucor.

The growth promoter comprises 65% of humic acid, 12% of thiamine, 8% of beta-alanine, 5% of acetonitrile and 10% of arachidonic acid.

The photosynthetic reagent comprises 15% of cyanobacteria, 25% of green bacteria, 10% of sodium carbonate, 8% of malonylurea, 3% of molybdenum nitrate pentahydrate and 39% of water.

The adsorbent comprises 68% of activated carbon, 16% of chitosan, 10% of cyclodextrin and 6% of porous barium carbonate.

A preparation method of a water environment restoration material, wherein: the method comprises the following steps:

s1, preparing a microbial compound preparation: mixing nitrobacteria, denitrifying bacteria, bacillus smithii, bacillus laevigatus, pseudomonas aeruginosa, purple bacteria and trichoderma for 0.5-1 h, then adding humic acid, thiamine, beta-alanine, acetonitrile and arachidonic acid, mixing and stirring for 3-5 h to obtain a microorganism composite preparation;

s2, preparation of a photosynthetic reagent: sequentially adding cyanobacteria, green bacteria, sodium carbonate, malonylurea, molybdenum nitrate pentahydrate and water into a mixing device, and mixing and stirring for 0.5-2 h to obtain a photosynthetic reagent;

s3, preparation of an adsorbent: sequentially adding activated carbon, chitosan, cyclodextrin and porous barium carbonate into a mixing device, and mixing and stirring for 0.5-2 h to obtain an adsorbent;

s4, water environment restoration material: 60 parts of microbial compound preparation, 16 parts of photosynthetic reagent, 20 parts of adsorbent and 7 parts of La (OH)₃4 parts of Pr (OH)₃And mixing and stirring for 4-6 h to obtain the water environment restoration material.

The results of the performance tests of examples and comparative examples are shown below, and the results are shown in Table 1

TABLE 1

The water environment restoration materials of examples 1 to 3 and comparative examples 1 to 6 were directly added to sewage in an amount of 3g/m³After the water environment restoration material is added in a water body for 3 months, various microorganisms, photosynthetic reagents and adsorbents in the water environment restoration material are utilized, including complex populations formed by anaerobic, facultative, aerobic and other microorganisms, and fillers adsorb organic matters, nitrogen, phosphorus and the like, the organic matters in the water are thoroughly decomposed into carbon dioxide and water through the synergistic action among the microorganisms and the assimilation and dissimilation action of the microorganisms, the organic nitrogen, the inorganic nitrogen and the like are converted into nitrogen to be discharged into the air, the phosphorus is converted into sludge, the residual sludge is removed through discharge, finally, the water quality is purified, and the water quality reaches the standard after the operation for 3 months; comparing examples 1-3 with comparative examples 1-6, it can be seen that the water environment restoration materials of examples 1-3 have better restoration effects than comparative examples 1-6.

Finally, it should be noted that the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to examples, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (8)

1. A water environment restoration material is characterized in that: the paint comprises the following components in parts by weight: the water environment restoration material comprises 40-60 parts of a microorganism composite preparation, 8-16 parts of a photosynthetic reagent, 15-20 parts of an adsorbent and La (OH)₃4-7 parts.

2. The water environment remediation material of claim 1, wherein: the microbial composite preparation comprises 30-55 parts of a microbial preparation and 5-10 parts of a growth promoting agent, wherein the microbial preparation comprises 32-35% of nitrobacteria, 24-26% of denitrifying bacteria, 18-20% of Bacillus smithii, 4-8% of Bacillus laevorotatory lactis, 3-5% of Pseudomonas aeruginosa, 3-5% of purple bacteria and 1-16% of mucor.

3. The water environment remediation material of claim 2, wherein: the growth promoter comprises 55-65% of humic acid, 10-12% of thiamine, 5-8% of beta-alanine, 3-5% of acetonitrile and 10-27% of arachidonic acid.

4. The water environment remediation material of claim 1, wherein: the photosynthetic reagent comprises 10-15% of cyanobacteria, 20-25% of green bacteria, 5-10% of sodium carbonate, 4-8% of malonylurea, 1-3% of molybdenum nitrate pentahydrate and 39-60% of water.

5. The water environment remediation material of claim 1, wherein: the adsorbent comprises 60-68% of activated carbon, 14-16% of chitosan, 8-10% of cyclodextrin and 6-18% of porous barium carbonate.

6. The water environment remediation material of claim 1, wherein: the water environment restoration material also comprises 2-4 parts of Pr (OH)₃。

7. The water environment remediation material of claim 1, wherein: the water environment restoration material also comprises 0.5-1 part of calcium chloride.

8. A preparation method of a water environment restoration material is characterized by comprising the following steps: the method comprises the following steps:

s1, preparing a microbial compound preparation: mixing nitrobacteria, denitrifying bacteria, bacillus smithii, bacillus laevigatus, pseudomonas aeruginosa, purple bacteria and trichoderma for 0.5-1 h, then adding humic acid, thiamine, beta-alanine, acetonitrile and arachidonic acid, mixing and stirring for 3-5 h to obtain a microorganism composite preparation;

s2, preparation of a photosynthetic reagent: sequentially adding cyanobacteria, green bacteria, sodium carbonate, malonylurea, molybdenum nitrate pentahydrate and water into a mixing device, and mixing and stirring for 0.5-2 h to obtain a photosynthetic reagent;

s3, preparation of an adsorbent: sequentially adding activated carbon, chitosan, cyclodextrin and porous barium carbonate into a mixing device, and mixing and stirring for 0.5-2 h to obtain an adsorbent;

s4, water environment restoration material: 40-60 parts of microbial compound preparation, 8-16 parts of photosynthetic reagent, 15-20 parts of adsorbent and 4-7 parts of La (OH)₃2 to 4 parts of Pr (OH)₃And 0.5-1 part of calcium chloride are mixed and stirred for 4-6 hours to obtain the water environment restoration material.