CN110054302A - Inhibit the processing material and preparation method thereof of algal grown - Google Patents
Inhibit the processing material and preparation method thereof of algal grown Download PDFInfo
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- CN110054302A CN110054302A CN201910258784.0A CN201910258784A CN110054302A CN 110054302 A CN110054302 A CN 110054302A CN 201910258784 A CN201910258784 A CN 201910258784A CN 110054302 A CN110054302 A CN 110054302A
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F3/00—Biological treatment of water, waste water, or sewage
- C02F3/34—Biological treatment of water, waste water, or sewage characterised by the microorganisms used
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F3/00—Biological treatment of water, waste water, or sewage
- C02F3/34—Biological treatment of water, waste water, or sewage characterised by the microorganisms used
- C02F3/348—Biological treatment of water, waste water, or sewage characterised by the microorganisms used characterised by the way or the form in which the microorganisms are added or dosed
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2101/00—Nature of the contaminant
- C02F2101/10—Inorganic compounds
- C02F2101/105—Phosphorus compounds
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2101/00—Nature of the contaminant
- C02F2101/10—Inorganic compounds
- C02F2101/16—Nitrogen compounds, e.g. ammonia
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2101/00—Nature of the contaminant
- C02F2101/30—Organic compounds
- C02F2101/38—Organic compounds containing nitrogen
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2103/00—Nature of the water, waste water, sewage or sludge to be treated
- C02F2103/20—Nature of the water, waste water, sewage or sludge to be treated from animal husbandry
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2303/00—Specific treatment goals
- C02F2303/04—Disinfection
Abstract
The present invention provides a kind of processing materials and preparation method thereof for inhibiting algal grown, including I composite material, II composite material and III composite material;The mass ratio of I composite material, II composite material and III composite material is (0.01~0.03): (0.04~0.06): (3~5);I composite material of the invention can efficiently remove the total phosphorus in water body, and II composite material can remove the total nitrogen in water body, to effectively inhibit the growth of Measures of Algae in Water Body substance, while effectively pathogen can also be inhibited to breed;III composite material can also remove other polluters in water body;So that processing material can effectively remove total nitrogen and total phosphorus in water body, to effectively inhibit the algal grown in water body, and secondary pollution will not be caused to water body, improve water body purification effect.
Description
Technical field
The present invention relates to inhibit algal grown field, especially a kind of processing material for inhibiting algal grown and its preparation side
Method.
Background technique
In recent years, the booming of intensive aquaculture mode largely meets people to the need of aquatic products
It asks, solves the problems, such as nature fishery resources relative shortage.It is fast with yield however as constantly expanding for aquaculture scale
Surge and add, a series of ecological environment problems gradually reveal.Eutrophication, environmental degradation, disease sprawling of breeding water body etc.
Have become the outstanding problem for restricting culture fishery sustainable and healthy development and environmental protection from now on.To contaminated breeding water body
Repaired, it has also become socio-economic development and improvement of the ecological environment there is an urgent need to.In addition, in aquaculture process, water
Matter situation quality is to determine the principal element of cultured output.The principal element for causing water quality deterioration is a large amount of residual bait excrement in pond
The accumulation of pool bottom, microorganisms in water quickly by residual bait excrement and urine utilization and cannot be converted into nutriment required for algal grown.
With the eutrophication of water body, water body algae mutually also gradually switchs to based on the harmful algaes such as dinoflagellate, Euglena, cyanobacteria, while night
Algae respiration can be such that water body dissolved oxygen amount quickly reduces, and lead to water hypoxia.Oxygen content of water reduces, biological community structure
Also it can change therewith, gradually based on anaerobe, generate the poisonous and harmful substances such as ammonia nitrogen, nitrite, hydrogen sulfide.
Environment constantly deteriorates, and eventually leads to cultivated animals and is poisoned or hypoxia death, causes a large amount of economic losses.
Currently, the purification of water quality of aquaculture wastewater mainly passes through chemicals, however, most chemicals in the market all holds
Secondary pollution easily is brought to pond, is not only easily destroyed the biology community structure in pond, but also is unfavorable for pond culture biology
Growth.
Summary of the invention
The present invention proposes a kind of processing material and preparation method thereof for inhibiting algal grown, can effectively remove in water body
Total nitrogen and total phosphorus improve water body purification effect to effectively inhibit the algal grown in water body.
The technical scheme of the present invention is realized as follows:
A kind of processing material inhibiting algal grown, including I composite material, II composite material and III composite material;
The mass ratio of I composite material, II composite material and III composite material is (0.01~0.03):
(0.04~0.06): (3~5);
It include 1~2 part of I composite bacteria, 100~200 part of I biologic ferment, 30~50 parts of bean cake powders, 10 in I composite material
~20 parts of spirulina protein powder, 20~30 parts of molasses and 2~5 parts of sesame oil;
In II composite material include 1~2 part of II compound bacteria, 100~200 part of II biologic ferment, 20~30 parts of vinasse, 10~
20 parts of spirulina protein powder, 20~30 parts of wheat wheat-middlings and 20~30 parts of glucose;
It include 30~50 parts of xanthan gum, 20~30 parts of chitins, 20~30 parts of humic acid, 30~40 parts in III composite material
Atlapulgite, 15~25 parts of sodium thiosulfate, 30~50 parts of non-ionic polyacrylamides and 20~30 parts of calcium carbonate.
Preferably, I composite bacteria is aerobic dephosphorization bacterial, lemon yellow red bacillus and pseudomonad, the aerobic dephosphorization
The number of viable ratio of bacterium, the lemon yellow red bacillus and the pseudomonad is (3~4): (2~3): (5~6).
Preferably, II composite bacteria is Denitrifying Phosphate Accumulating Organisms and Bali Ali pseudomonad, the denitrification phosphorus-collecting
Bacterium, Bali Ali pseudomonad number of viable ratio be (5~8): (1~1.5): (2~4).
Preferably, I biologic ferment is formed using mulberry fruit, tomato, black fungus, semen sojae atricolor as fermenting raw materials.
Preferably, the mulberry fruit, the tomato, the black fungus, the semen sojae atricolor mass ratio be (0.6~1): (4
~6): (0.4~0.8): (2~3).
Preferably, II biologic ferment is formed with brown rice, pachyrhizus, grape pip, jujube, lemon peel fermenting raw materials.
Preferably, the brown rice, the pachyrhizus, the grape pip, the jujube, the lemon peel mass ratio be (6~
9): (2~3): (0.8~1.5): (2~3): (1~1.5).
Preferably, the vinasse are spirit stillage.
The present invention also provides a kind of above-mentioned preparation methods for the processing material for inhibiting algal grown, comprising the following steps:
A) I composite material
I composite bacteria, I biologic ferment, bean cake powder, spirulina protein powder, molasses and sesame oil are uniformly mixed, in room temperature
3~4d of lower fermentation to get;
B) II composite material
II compound bacteria, II biologic ferment, vinasse, spirulina protein powder, wheat wheat-middlings and glucose are uniformly mixed, in room
Temperature 3~4d of lower fermentation to get;
C) III composite material
Xanthan gum, chitin, humic acid, atlapulgite, sodium thiosulfate, non-ionic polyacrylamide and calcium carbonate mixing
Uniformly to get;
D) inhibit the processing material of algal grown
By step a), b), c) be uniformly mixed, and at room temperature fermentation 5~7d to get.
The present invention provides a kind of processing material and preparation method thereof for inhibiting algal grown, including it is I composite material, II multiple
Condensation material and III composite material;The mass ratio of I composite material, II composite material and III composite material is (0.01~0.03):
(0.04~0.06): (3~5);It include 1~2 part of I composite bacteria, 100~200 part of I biologic ferment, 30~50 in I composite material
Part bean cake powder, 10~20 parts of spirulina protein powder, 20~30 parts of molasses and 2~5 parts of sesame oil;It include 1~2 in II composite material
It is part II compound bacteria, 100~200 part of II biologic ferment, 20~30 parts of vinasse, 10~20 parts of spirulina protein powder, 20~30 parts small
Wheat wheat-middlings and 20~30 parts of glucose;It include 30~50 parts of xanthan gum, 20~30 parts of chitins, 20~30 parts in III composite material
Humic acid, 30~40 parts of atlapulgites, 15~25 parts of sodium thiosulfate, 30~50 parts of non-ionic polyacrylamides and 20~30 parts
Calcium carbonate.I composite material of the invention can efficiently remove the total phosphorus in water body, and II composite material can remove total in water body
Nitrogen to effectively inhibit the growth of Measures of Algae in Water Body substance, while effectively can also inhibit pathogen to breed;III composite material is also
Other polluters in water body can be removed;So that processing material can effectively remove total nitrogen and total phosphorus in water body,
To effectively inhibit the algal grown in water body, and secondary pollution will not be caused to water body, improve water body purification effect.
Specific embodiment
A kind of processing material inhibiting algal grown proposed by the present invention, including I composite material, II composite material and III are multiple
Condensation material;
The mass ratio of I composite material, II composite material and III composite material is (0.01~0.03): (0.04~0.06):
(3~5);
It include 1~2 part of I composite bacteria, 100~200 part of I biologic ferment, 30~50 parts of bean cake powders, 10 in I composite material
~20 parts of spirulina protein powder, 20~30 parts of molasses and 2~5 parts of sesame oil;
In II composite material include 1~2 part of II compound bacteria, 100~200 part of II biologic ferment, 20~30 parts of vinasse, 10~
20 parts of spirulina protein powder, 20~30 parts of wheat wheat-middlings and 20~30 parts of glucose;
It include 30~50 parts of xanthan gum, 20~30 parts of chitins, 20~30 parts of humic acid, 30~40 parts in III composite material
Atlapulgite, 15~25 parts of sodium thiosulfate, 30~50 parts of non-ionic polyacrylamides and 20~30 parts of calcium carbonate.
In the present invention, I composite material can efficiently remove the total phosphorus in water body, and II composite material can remove in water body
Total nitrogen to effectively inhibit the growth of Measures of Algae in Water Body substance, while effectively can also inhibit pathogen to breed;III composite material
Other polluters in water body can also be removed;So that processing material can effectively remove total nitrogen in water body and total
Phosphorus improves water body purification effect to effectively inhibit the algal grown in water body.
In an embodiment of the present invention, the mass ratio of I composite material, II composite material and III composite material be (0.01~
0.03): (0.04~0.06): (3~5).
It in the present invention, include I composite bacteria, I biologic ferment, bean cake powder, spirulina protein powder, sugar in I composite material
Honey and sesame oil
In an embodiment of the present invention, I composite bacteria includes aerobic dephosphorization bacterial, lemon yellow red bacillus and pseudomonad;?
In preferred embodiment, the deposit number of aerobic dephosphorization bacterial is CCTCC M 2011210, and the deposit number of lemon yellow red bacillus is
CCTCC M 2016156, the deposit number of pseudomonad are CCTCC NO:M2016474;In other embodiments, aerobic dephosphorization
The number of viable ratio of bacterium, lemon yellow red bacillus and capsula Rhodopseudomonas is (3~4): (2~3): (5~6).
Above-mentioned I composite bacteria can effectively remove the total phosphorus in water body, and total tp removal rate is high.
In an embodiment of the present invention, the parts by weight of I composite bacteria are 1~2 part;In a preferred embodiment, I is compound
The parts by weight of strain are 1.5~1.8 parts.
In an embodiment of the present invention, I biologic ferment using mulberry fruit, tomato, black fungus, semen sojae atricolor as fermenting raw materials and
At;In a preferred embodiment, the preparation method of I biologic ferment, comprising the following steps: a) by mulberry fruit, tomato, black wood
Water is cleaned after ear, semen sojae atricolor cleaning, carry out break process is added water, is beaten, obtains slurries;B) in the slurries obtained to step a)
Saccharomycetes to make fermentation is accessed, I fermentation liquid is obtained;C) I fermentation liquid obtained to step b) accesses lactic acid bacteria, lactobacillus bulgaricus hair
Ferment obtains II fermentation liquid;D) II fermentation liquid for obtaining step c) is filtered, and obtains I biologic ferment.
Wherein, mulberry fruit, tomato are fresh vegetables and fruits, and black fungus is the black wood that the humidity after being impregnated with room temperature water is 70%
Ear.
It should be noted that the mass ratio of mulberry fruit, tomato, black fungus, semen sojae atricolor is (0.6~1): (4~6): (0.4
~0.8): (2~3);The deposit number of saccharomycete is CGMCC No.10621, and the deposit number of lactic acid bacteria is CGMCC No.13457,
The deposit number of lactobacillus bulgaricus is CGMCCNo.9646.
Mulberry fruit, tomato, black fungus, semen sojae atricolor are able to extend the proliferative phase of I composite bacteria, slough conducive to I composite bacteria
Total phosphorus in water body.
It is also to be noted that zymogenic viable count is 12~1,800,000,000/mL, the work of I Lactic Acid from Fermentation Broth bacterium in slurries
Bacterium number amount is 10~1,200,000,000/mL, and the number of viable of lactobacillus bulgaricus is 5~800,000,000/mL.
In an embodiment of the present invention, the parts by weight of bean cake powder are 30~50 parts;In a preferred embodiment, bean cake powder
Parts by weight be 35~45 parts.The present invention is not particularly limited the source of bean cake powder, ripe using those skilled in the art
The commercially available bean cake powder known.
In an embodiment of the present invention, the parts by weight of spirulina protein powder are 10~20 parts;In a preferred embodiment,
The parts by weight of spirulina protein powder are 13~16 parts.The present invention is not particularly limited the source of spirulina protein powder, adopts
With commercially available spirulina protein powder well known to those skilled in the art.
Molasses can provide nutriment for the flourish of I composite bacteria.In an embodiment of the present invention, the weight of molasses
Measuring number is 20~30 parts;In a preferred embodiment, the parts by weight of molasses are 23~26 parts.Source of the present invention to molasses
It is not particularly limited, using commercially available molasses well known to those skilled in the art.
Sesame oil can delay I composite bacteria aging.In an embodiment of the present invention, the parts by weight of sesame oil are 2~5
Part;In a preferred embodiment, the parts by weight of sesame oil are 3~4 parts.The present invention does not limit the source of sesame oil particularly
System, using commercially available sesame oil well known to those skilled in the art.
It include II compound bacteria, II biologic ferment, vinasse, spirulina protein powder, wheat wheat-middlings and grape in II composite material
Sugar;
In an embodiment of the present invention, II composite bacteria is Denitrifying Phosphate Accumulating Organisms, Bali Ali pseudomonad;Preferred
In embodiment, the deposit number of Denitrifying Phosphate Accumulating Organisms is CGMCC No.10290, and the deposit number of Bali Ali pseudomonad is GDMCC
No.60335。
Denitrifying Phosphate Accumulating Organisms, Bali Ali pseudomonad number of viable ratio be (5~8): (1~1.5).
Above-mentioned II composite bacteria can effectively remove the total nitrogen in water body, and nitrogen removal rate is high.
In an embodiment of the present invention, the parts by weight of II compound bacteria are 1~2 part, and in a preferred embodiment, II is compound
The parts by weight of bacterium are 1.2~1.5 parts.
In an embodiment of the present invention, II biologic ferment with brown rice, pachyrhizus, grape pip, jujube, lemon peel fermenting raw materials and
At;In a preferred embodiment, the preparation method of II biologic ferment, comprising the following steps: a) by brown rice, pachyrhizus, grape pip, red
Water is cleaned after jujube, lemon peel cleaning, carry out break process is added water, is beaten, obtains slurries;B) slurries obtained to step a)
Middle access saccharomycetes to make fermentation, obtains III fermentation liquid;C) I fermentation liquid the access lactic acid bacteria, bulgarian milk bar obtained to step b)
Bacterium fermentation, obtains IV fermentation liquid;D) II fermentation liquid for obtaining step c) is filtered, and obtains II biologic ferment.
Wherein, pachyrhizus is fresh pachyrhizus, and the humidity of jujube is 30%, and lemon peel is the lemon peel that humidity is 20%.
It should be noted that brown rice, pachyrhizus, grape pip, jujube, lemon peel mass ratio be (6~9): (2~3): (0.8
~1.5): (2~3): (1~1.5);The deposit number of saccharomycete is CGMCC No.10621, and the deposit number of lactic acid bacteria is CGMCC
No.13457, the deposit number of lactobacillus bulgaricus are CGMCCNo.9646.
Brown rice, pachyrhizus, grape pip, jujube, lemon peel are able to extend the proliferative phase of II compound bacteria, improve total nitrogen in water body
Removal efficiency.
It is also to be noted that zymogenic viable count is 12~1,800,000,000/mL, the work of III Lactic Acid from Fermentation Broth bacterium in slurries
Bacterium number amount is 10~1,200,000,000/mL, and the number of viable of lactobacillus bulgaricus is 5~800,000,000/mL.
In an embodiment of the present invention, the parts by weight of vinasse are 20~30 parts;In a preferred embodiment, the weight of vinasse
Measuring number is 23~26 parts.The present invention is not particularly limited the source of vinasse, using city well known to those skilled in the art
The vinasse sold.In an embodiment of the present invention, vinasse are spirit stillage.
In an embodiment of the present invention, the parts by weight of spirulina protein powder are 10~20 parts;In a preferred embodiment,
The parts by weight of spirulina protein powder are 13~16 parts.The present invention is not particularly limited the source of spirulina protein powder, adopts
With commercially available spirulina protein powder well known to those skilled in the art.
In an embodiment of the present invention, the parts by weight of wheat wheat-middlings are 20~30 parts;In a preferred embodiment, wheat
The parts by weight of wheat-middlings are 24~26 parts.The present invention is not particularly limited the source of wheat wheat-middlings, using art technology
Commercially available wheat wheat-middlings known to personnel.
In an embodiment of the present invention, the parts by weight of glucose are 20~30 parts;In a preferred embodiment, glucose
Parts by weight be 24~26 parts.The present invention is not particularly limited the source of glucose, ripe using those skilled in the art
The commercially available glucose known.
It include xanthan gum, chitin, humic acid, atlapulgite, sodium thiosulfate, nonionic polypropylene in III composite material
Amide and calcium carbonate.
Above-mentioned III composite material can remove the polluters such as suspended matter, organic matter, heavy metal in water body, improve water body
Clean-up effect.
In an embodiment of the present invention, the parts by weight of xanthan gum are 30~50 parts;In a preferred embodiment, xanthan gum
Parts by weight be 34~45 parts.The present invention is not particularly limited the source of xanthan gum, ripe using those skilled in the art
The commercially available xanthan gum known.
In an embodiment of the present invention, the parts by weight of chitin are 20~30 parts;In a preferred embodiment, chitin
Parts by weight be 23~27 parts.The present invention is not particularly limited the source of chitin, ripe using those skilled in the art
The commercially available chitin known.
In an embodiment of the present invention, the parts by weight of humic acid are 20~30 parts;In a preferred embodiment, humic acid
Parts by weight be 23~27 parts.The present invention is not particularly limited the source of humic acid, ripe using those skilled in the art
The commercially available humic acid known.
In an embodiment of the present invention, the parts by weight of atlapulgite are 30~40 parts;In a preferred embodiment, active
The parts by weight of carclazyte are 33~37 parts.The present invention is not particularly limited the source of atlapulgite, using art technology
Commercially available atlapulgite known to personnel.In an embodiment of the present invention, the partial size of atlapulgite is 500~1000nm.
Sodium thiosulfate can play complexing, can agglomerate the excessive suspended matter in water body.In the embodiment of the present invention
In, the parts by weight of sodium thiosulfate are 15~25 parts;In a preferred embodiment, the parts by weight of sodium thiosulfate be 18~
22 parts.The present invention is not particularly limited the source of sodium thiosulfate, using commercially available sulphur well known to those skilled in the art
Sodium thiosulfate.
In an embodiment of the present invention, the parts by weight of non-ionic polyacrylamide are 30~50 parts;Preferably implementing
In example, the parts by weight of non-ionic polyacrylamide are 35~45 parts.The present invention does not have the source of non-ionic polyacrylamide
Special limitation, using commercially available non-ionic polyacrylamide well known to those skilled in the art.
In an embodiment of the present invention, the parts by weight of calcium carbonate are 20~30 parts;In a preferred embodiment, calcium carbonate
Parts by weight be 24~26 parts.The present invention is not particularly limited the source of calcium carbonate, ripe using those skilled in the art
The commercially available calcium carbonate known.
The present invention also provides a kind of above-mentioned preparation methods for the processing material for inhibiting algal grown, comprising the following steps:
A) I composite bacteria, I biologic ferment, bean cake powder, spirulina protein powder, molasses and sesame oil are uniformly mixed, in room
3~4d is to get I fermentation liquid for the lower fermentation of temperature;
B) II compound bacteria, II biologic ferment, vinasse, spirulina protein powder, wheat wheat-middlings and glucose are uniformly mixed,
3~4d ferment at room temperature to get II fermentation liquid;
C) xanthan gum, chitin, humic acid, atlapulgite, sodium thiosulfate, non-ionic polyacrylamide and calcium carbonate are mixed
It closes uniformly to get mixture;
D) by I fermentation liquid of step a), b) II fermentation liquid, c) mixture be uniformly mixed to get.
In the present invention, I fermentation liquid that step a) is obtained can effectively remove the total phosphorus in water body, and total tp removal rate is high;
II fermentation liquid that step b) is obtained can effectively remove the total nitrogen in water body, and nitrogen removal rate is high;The mixing that step c) is obtained
Object can remove the polluters such as suspended matter, organic matter, heavy metal in water body, improve the clean-up effect of water body.The present invention mentions
The processing material of confession can remove total nitrogen and total phosphorus in water body, to effectively inhibit algal grown, improve water body purification effect.
In order to further illustrate the present invention, below with reference to embodiment to a kind of place for inhibiting algal grown provided by the invention
Reason material and preparation method thereof is described in detail, but they cannot be interpreted as limiting the scope of the present invention.
In Examples 1 to 5, mulberry fruit, tomato are fresh vegetables and fruits, and black fungus is that the humidity after being impregnated with room temperature water is
70% black fungus.Pachyrhizus is fresh pachyrhizus, and the humidity of jujube is 30%, and lemon peel is the lemon peel that humidity is 20%, vinasse
The spirit stillage for being 20% for humidity.
Embodiment 1
Inhibit the processing material of algal grown, including I composite material, II composite material and III composite material;
The mass ratio of I composite material, II composite material and III composite material is 0.015:0.055:3;
It include 1.5 part of I composite bacteria, 100 part of I biologic ferment, 30 parts of bean cake powders, 16 portions of spirulina eggs in I composite material
White powder, 30 parts of molasses and 2 sesame oil;
It than the deposit number for 3.7:2.7:5.8 is that the aerobic of CCTCC M 2011210 removes that I composite bacteria, which includes number of viable,
The false unit cell that the lemon yellow red bacillus and deposit number that phosphorus bacterium, deposit number are CCTCC M 2016156 are CCTCC NO:M2016474
Bacterium;
I biologic ferment using mass ratio be the mulberry fruit of 0.7:5:0.8:2.2, tomato, black fungus, semen sojae atricolor is fermenting raw materials
It forms;
The preparation method of I biologic ferment, comprising the following steps:
A) water will be cleaned after mulberry fruit, tomato, black fungus, semen sojae atricolor cleaning, adds water carry out break process, is beaten,
Obtain slurries;The additional amount of water is mulberry fruit, tomato, black fungus, 0.5 times of semen sojae atricolor gross mass;
B) saccharomycete is accessed in the slurries obtained to step a), ferment 100h at being 25 DEG C in temperature, obtains I fermentation liquid;
The deposit number of saccharomycete is CGMCC No.10621, and zymogenic viable count is 1,200,000,000/mL in slurries;
C) I fermentation liquid the access lactic acid bacteria, lactobacillus bulgaricus obtained to step b), ferments at being 25 DEG C in temperature
72h obtains II fermentation liquid;The deposit number of lactic acid bacteria is CGMCC No.13457, and the deposit number of lactobacillus bulgaricus is
CGMCCNo.9646;The number of viable of I Lactic Acid from Fermentation Broth bacterium is 1,000,000,000/mL, and the number of viable of lactobacillus bulgaricus is 5
Hundred million/mL;
D) II fermentation liquid for obtaining step c) is filtered, and obtains I biologic ferment;
It include 1.2 part of II compound bacteria, 130 part of II biologic ferment, 20 parts of vinasse, 16 parts of spirulina proteins in II composite material
Powder, 20 parts of wheat wheat-middlings and 26 parts of glucose;
II composite bacteria includes the denitrification phosphorus-collecting that number of viable is CGMCC No.10290 than the deposit number for 5:1.4
Bacterium, Bali Ali pseudomonad that deposit number is GDMCC No.60335;
II biologic ferment is for the brown rice of 7:2.2:1.5:2:1.5, pachyrhizus, grape pip, jujube, lemon peel original with mass ratio
Material ferments;
The preparation method of II biologic ferment, comprising the following steps:
A) water will be cleaned after brown rice, pachyrhizus, grape pip, jujube, lemon peel cleaning, adds water carry out break process, beats
Slurry, obtains slurries;The additional amount of water is brown rice, pachyrhizus, grape pip, jujube, 0.5 times of lemon peel gross mass;
B) saccharomycete is accessed in the slurries obtained to step a), ferment 100h at being 25 DEG C in temperature, obtains III fermentation liquid;
The deposit number of saccharomycete is CGMCC No.10621, and zymogenic viable count is 1,200,000,000/mL in slurries;
C) III fermentation liquid the access lactic acid bacteria, lactobacillus bulgaricus obtained to step b), ferments at being 25 DEG C in temperature
72h obtains IV fermentation liquid;The deposit number of lactic acid bacteria is CGMCC No.13457, and the deposit number of lactobacillus bulgaricus is
CGMCCNo.9646;The number of viable of III Lactic Acid from Fermentation Broth bacterium is 1,000,000,000/mL, and the number of viable of lactobacillus bulgaricus is 5
Hundred million/mL
D) II fermentation liquid for obtaining step c) is filtered, and obtains II biologic ferment.
Include in III composite material 30 parts of xanthan gum, 27 parts of chitins, 23 parts of humic acid, 30 parts of partial sizes be 500~
The atlapulgite of 1000nm, 15 parts of sodium thiosulfate, 35 parts of non-ionic polyacrylamides and 26 parts of calcium carbonate.
Inhibit the preparation method of the processing material of algal grown, comprising the following steps:
A) I composite material
I composite bacteria, I biologic ferment, bean cake powder, spirulina protein powder, molasses and sesame oil are uniformly mixed, in room temperature
Lower fermentation 3d to get;
B) II composite material
II compound bacteria, II biologic ferment, vinasse, spirulina protein powder, wheat wheat-middlings and glucose are uniformly mixed, in room
The lower fermentation 4d of temperature to get;
C) III composite material
Xanthan gum, chitin, humic acid, atlapulgite, sodium thiosulfate, non-ionic polyacrylamide and calcium carbonate mixing
Uniformly to get;
D) inhibit the processing material of algal grown
By step a), b), c) be uniformly mixed, and at room temperature fermentation 7d to get.
Embodiment 2
Inhibit the processing material of algal grown, including I composite material, II composite material and III composite material;
The mass ratio of I composite material, II composite material and III composite material is 0.025:0.045:4.5;
It include 1.8 part of I composite bacteria, 200 part of I biologic ferment, 35 parts of bean cake powders, 13 portions of spirulina eggs in I composite material
White powder, 20 parts of molasses and 3 sesame oil;
I composite bacteria includes number of viable than the aerobic dephosphorization that the deposit number for 3.2:2.2:5 is CCTCC M 2011210
The false unit cell that the lemon yellow red bacillus and deposit number that bacterium, deposit number are CCTCC M 2016156 are CCTCC NO:M2016474
Bacterium;
I biologic ferment using mass ratio be the mulberry fruit of 0.8:4:0.7:3, tomato, black fungus, semen sojae atricolor as fermenting raw materials and
At;
The preparation method of I biologic ferment, comprising the following steps:
A) water will be cleaned after mulberry fruit, tomato, black fungus, semen sojae atricolor cleaning, adds water carry out break process, is beaten,
Obtain slurries;The additional amount of water is mulberry fruit, tomato, black fungus, 0.5 times of semen sojae atricolor gross mass;
B) saccharomycete is accessed in the slurries obtained to step a), ferment 100h at being 25 DEG C in temperature, obtains I fermentation liquid;
The deposit number of saccharomycete is CGMCC No.10621, and zymogenic viable count is 1,800,000,000/mL in slurries;
C) I fermentation liquid the access lactic acid bacteria, lactobacillus bulgaricus obtained to step b), ferments at being 25 DEG C in temperature
72h obtains II fermentation liquid;The deposit number of lactic acid bacteria is CGMCC No.13457, and the deposit number of lactobacillus bulgaricus is
CGMCCNo.9646;The number of viable of I Lactic Acid from Fermentation Broth bacterium is 1,200,000,000/mL, and the number of viable of lactobacillus bulgaricus is 8
Hundred million/mL;
D) II fermentation liquid for obtaining step c) is filtered, and obtains I biologic ferment;
It include 2 part of II compound bacteria, 100 part of II biologic ferment, 30 parts of vinasse, 10 parts of spirulina proteins in II composite material
Powder, 30 parts of wheat wheat-middlings and 24 parts of glucose;
II composite bacteria includes the denitrification phosphorus-collecting that number of viable is CGMCC No.10290 than the deposit number for 7:1.5
Bacterium, Bali Ali pseudomonad that deposit number is GDMCC No.60335;
II biologic ferment is for the brown rice of 8:2.8:0.8:3:1, pachyrhizus, grape pip, jujube, lemon peel raw material with mass ratio
It ferments;
The preparation method of II biologic ferment, comprising the following steps:
A) water will be cleaned after brown rice, pachyrhizus, grape pip, jujube, lemon peel cleaning, adds water carry out break process, beats
Slurry, obtains slurries;The additional amount of water is brown rice, pachyrhizus, grape pip, jujube, 0.5 times of lemon peel gross mass;
B) saccharomycete is accessed in the slurries obtained to step a), ferment 100h at being 25 DEG C in temperature, obtains III fermentation liquid;
The deposit number of saccharomycete is CGMCC No.10621, and zymogenic viable count is 1,800,000,000/mL in slurries;
C) III fermentation liquid the access lactic acid bacteria, lactobacillus bulgaricus obtained to step b), ferments at being 25 DEG C in temperature
72h obtains IV fermentation liquid;The deposit number of lactic acid bacteria is CGMCC No.13457, and the deposit number of lactobacillus bulgaricus is
CGMCCNo.9646;The number of viable of III Lactic Acid from Fermentation Broth bacterium is 1,200,000,000/mL, and the number of viable of lactobacillus bulgaricus is 8
Hundred million/mL
D) II fermentation liquid for obtaining step c) is filtered, and obtains II biologic ferment.
Include in III composite material 45 parts of xanthan gum, 30 parts of chitins, 30 parts of humic acid, 40 parts of partial sizes be 500~
The atlapulgite of 1000nm, 22 parts of sodium thiosulfate, 40 parts of non-ionic polyacrylamides and 30 parts of calcium carbonate.
Inhibit the preparation method of the processing material of algal grown, comprising the following steps:
A) I composite material
I composite bacteria, I biologic ferment, bean cake powder, spirulina protein powder, molasses and sesame oil are uniformly mixed, in room temperature
Lower fermentation 4d to get;
B) II composite material
II compound bacteria, II biologic ferment, vinasse, spirulina protein powder, wheat wheat-middlings and glucose are uniformly mixed, in room
The lower fermentation 3d of temperature to get;
C) III composite material
Xanthan gum, chitin, humic acid, atlapulgite, sodium thiosulfate, non-ionic polyacrylamide and calcium carbonate mixing
Uniformly to get;
D) inhibit the processing material of algal grown
By step a), b), c) be uniformly mixed, and at room temperature fermentation 5~7d to get.
Embodiment 3
Inhibit the processing material of algal grown, including I composite material, II composite material and III composite material;
The mass ratio of I composite material, II composite material and III composite material is 0.01:0.06:5;
It include 2 part of I composite bacteria, 170 part of I biologic ferment, 50 parts of bean cake powders, 20 parts of spirulina proteins in I composite material
Powder, 26 parts of molasses and 4 sesame oil;
I composite bacteria include number of viable than the aerobic dephosphorization bacterial that the deposit number for 3:2:6 is CCTCC M 2011210,
The pseudomonad that the lemon yellow red bacillus and deposit number that deposit number is CCTCC M 2016156 are CCTCC NO:M2016474;
I biologic ferment using mass ratio be the mulberry fruit of 0.6:6:0.5:2, tomato, black fungus, semen sojae atricolor as fermenting raw materials and
At;
The preparation method of I biologic ferment, comprising the following steps:
A) water will be cleaned after mulberry fruit, tomato, black fungus, semen sojae atricolor cleaning, adds water carry out break process, is beaten,
Obtain slurries;The additional amount of water is mulberry fruit, tomato, black fungus, 0.5 times of semen sojae atricolor gross mass;
B) saccharomycete is accessed in the slurries obtained to step a), ferment 100h at being 25 DEG C in temperature, obtains I fermentation liquid;
The deposit number of saccharomycete is CGMCC No.10621, and zymogenic viable count is 1,500,000,000/mL in slurries;
C) I fermentation liquid the access lactic acid bacteria, lactobacillus bulgaricus obtained to step b), ferments at being 25 DEG C in temperature
72h obtains II fermentation liquid;The deposit number of lactic acid bacteria is CGMCC No.13457, and the deposit number of lactobacillus bulgaricus is
CGMCCNo.9646;The number of viable of I Lactic Acid from Fermentation Broth bacterium is 1,100,000,000/mL, and the number of viable of lactobacillus bulgaricus is 7
Hundred million/mL;
D) II fermentation liquid for obtaining step c) is filtered, and obtains I biologic ferment;
It include 1 part of II compound bacteria, 200 part of II biologic ferment, 26 parts of vinasse, 13 parts of spirulina proteins in II composite material
Powder, 24 parts of wheat wheat-middlings and 20 parts of glucose;
II composite bacteria include number of viable than the Denitrifying Phosphate Accumulating Organisms that the deposit number for 6:1 is CGMCC No.10290,
Deposit number is Bali Ali pseudomonad of GDMCC No.60335;
II biologic ferment is for the brown rice of 6:2:1:2.3:1.4, pachyrhizus, grape pip, jujube, lemon peel raw material with mass ratio
It ferments;
The preparation method of II biologic ferment, comprising the following steps:
A) water will be cleaned after brown rice, pachyrhizus, grape pip, jujube, lemon peel cleaning, adds water carry out break process, beats
Slurry, obtains slurries;The additional amount of water is brown rice, pachyrhizus, grape pip, jujube, 0.5 times of lemon peel gross mass;
B) saccharomycete is accessed in the slurries obtained to step a), ferment 100h at being 25 DEG C in temperature, obtains III fermentation liquid;
The deposit number of saccharomycete is CGMCC No.10621, and zymogenic viable count is 1,500,000,000/mL in slurries;
C) III fermentation liquid the access lactic acid bacteria, lactobacillus bulgaricus obtained to step b), ferments at being 25 DEG C in temperature
72h obtains IV fermentation liquid;The deposit number of lactic acid bacteria is CGMCC No.13457, and the deposit number of lactobacillus bulgaricus is
CGMCCNo.9646;The number of viable of III Lactic Acid from Fermentation Broth bacterium is 1,000,000,000/mL, and the number of viable of lactobacillus bulgaricus is 6
Hundred million/mL
D) II fermentation liquid for obtaining step c) is filtered, and obtains II biologic ferment.
Include in III composite material 50 parts of xanthan gum, 20 parts of chitins, 20 parts of humic acid, 37 parts of partial sizes be 500~
The atlapulgite of 1000nm, 25 parts of sodium thiosulfate, 45 parts of non-ionic polyacrylamides and 20 parts of calcium carbonate.
Inhibit the preparation method of the processing material of algal grown, comprising the following steps:
A) I composite material
I composite bacteria, I biologic ferment, bean cake powder, spirulina protein powder, molasses and sesame oil are uniformly mixed, in room temperature
Lower fermentation 3d to get;
B) II composite material
II compound bacteria, II biologic ferment, vinasse, spirulina protein powder, wheat wheat-middlings and glucose are uniformly mixed, in room
The lower fermentation 4d of temperature to get;
C) III composite material
Xanthan gum, chitin, humic acid, atlapulgite, sodium thiosulfate, non-ionic polyacrylamide and calcium carbonate mixing
Uniformly to get;
D) inhibit the processing material of algal grown
By step a), b), c) be uniformly mixed, and at room temperature fermentation 7d to get.
Embodiment 4
Inhibit the processing material of algal grown, including I composite material, II composite material and III composite material;
The mass ratio of I composite material, II composite material and III composite material is 0.03:0.04:3.5;
It include 1 part of I composite bacteria, 130 part of I biologic ferment, 45 parts of bean cake powders, 10 parts of spirulina proteins in I composite material
Powder, 23 parts of molasses and 5 sesame oil;
I composite bacteria includes number of viable than the aerobic dephosphorization that the deposit number for 4:3:5.2 is CCTCC M 2011210
The false unit cell that the lemon yellow red bacillus and deposit number that bacterium, deposit number are CCTCC M 2016156 are CCTCC NO:M2016474
Bacterium;
I biologic ferment using mass ratio be the mulberry fruit of 1:4.5:0.4:2.8, tomato, black fungus, semen sojae atricolor is fermenting raw materials
It forms;
The preparation method of I biologic ferment, comprising the following steps:
A) water will be cleaned after mulberry fruit, tomato, black fungus, semen sojae atricolor cleaning, adds water carry out break process, is beaten,
Obtain slurries;The additional amount of water is mulberry fruit, tomato, black fungus, 0.5 times of semen sojae atricolor gross mass;
B) saccharomycete is accessed in the slurries obtained to step a), ferment 100h at being 25 DEG C in temperature, obtains I fermentation liquid;
The deposit number of saccharomycete is CGMCC No.10621, and zymogenic viable count is 1,200,000,000/mL in slurries;
C) I fermentation liquid the access lactic acid bacteria, lactobacillus bulgaricus obtained to step b), ferments at being 25 DEG C in temperature
72h obtains II fermentation liquid;The deposit number of lactic acid bacteria is CGMCC No.13457, and the deposit number of lactobacillus bulgaricus is
CGMCCNo.9646;The number of viable of I Lactic Acid from Fermentation Broth bacterium is 1,000,000,000/mL, and the number of viable of lactobacillus bulgaricus is 5
Hundred million/mL;
D) II fermentation liquid for obtaining step c) is filtered, and obtains I biologic ferment;
It include 1.5 part of II compound bacteria, 160 part of II biologic ferment, 23 parts of vinasse, 20 parts of spirulina proteins in II composite material
Powder, 26 parts of wheat wheat-middlings and 30 parts of glucose;
II composite bacteria includes the denitrification phosphorus-collecting that number of viable is CGMCC No.10290 than the deposit number for 8:1.2
Bacterium, Bali Ali pseudomonad that deposit number is GDMCC No.60335;
II biologic ferment is for the brown rice of 9:3:1.3:2.7:1.2, pachyrhizus, grape pip, jujube, lemon peel original with mass ratio
Material ferments;
The preparation method of II biologic ferment, comprising the following steps:
A) water will be cleaned after brown rice, pachyrhizus, grape pip, jujube, lemon peel cleaning, adds water carry out break process, beats
Slurry, obtains slurries;The additional amount of water is brown rice, pachyrhizus, grape pip, jujube, 0.5 times of lemon peel gross mass;
B) saccharomycete is accessed in the slurries obtained to step a), ferment 100h at being 25 DEG C in temperature, obtains III fermentation liquid;
The deposit number of saccharomycete is CGMCC No.10621, and zymogenic viable count is 1,800,000,000/mL in slurries;
C) III fermentation liquid the access lactic acid bacteria, lactobacillus bulgaricus obtained to step b), ferments at being 25 DEG C in temperature
72h obtains IV fermentation liquid;The deposit number of lactic acid bacteria is CGMCC No.13457, and the deposit number of lactobacillus bulgaricus is
CGMCCNo.9646;The number of viable of III Lactic Acid from Fermentation Broth bacterium is 1,000,000,000/mL, and the number of viable of lactobacillus bulgaricus is 8
Hundred million/mL
D) II fermentation liquid for obtaining step c) is filtered, and obtains II biologic ferment.
Include in III composite material 35 parts of xanthan gum, 23 parts of chitins, 27 parts of humic acid, 33 parts of partial sizes be 500~
The atlapulgite of 1000nm, 18 parts of sodium thiosulfate, 30 parts of non-ionic polyacrylamides and 24 parts of calcium carbonate.
Inhibit the preparation method of the processing material of algal grown, comprising the following steps:
A) I composite material
I composite bacteria, I biologic ferment, bean cake powder, spirulina protein powder, molasses and sesame oil are uniformly mixed, in room temperature
Lower fermentation 3d to get;
B) II composite material
II compound bacteria, II biologic ferment, vinasse, spirulina protein powder, wheat wheat-middlings and glucose are uniformly mixed, in room
The lower fermentation 3d of temperature to get;
C) III composite material
Xanthan gum, chitin, humic acid, atlapulgite, sodium thiosulfate, non-ionic polyacrylamide and calcium carbonate mixing
Uniformly to get;
D) inhibit the processing material of algal grown
By step a), b), c) be uniformly mixed, and at room temperature fermentation 7d to get.
Embodiment 5
Inhibit the processing material of algal grown, including I composite material, II composite material and III composite material;
The mass ratio of I composite material, II composite material and III composite material is 0.02:0.05:4;
It include 1.6 part of I composite bacteria, 150 part of I biologic ferment, 40 parts of bean cake powders, 15 portions of spirulina eggs in I composite material
White powder, 25 parts of molasses and 3.5 sesame oil;
It than the deposit number for 3.4:2.5:5.5 is that the aerobic of CCTCC M 2011210 removes that I composite bacteria, which includes number of viable,
The false unit cell that the lemon yellow red bacillus and deposit number that phosphorus bacterium, deposit number are CCTCC M 2016156 are CCTCC NO:M2016474
Bacterium;
I biologic ferment using mass ratio be the mulberry fruit of 0.75:5.5:0.6:2.5, tomato, black fungus, semen sojae atricolor is raw materials
It ferments;
The preparation method of I biologic ferment, comprising the following steps:
A) water will be cleaned after mulberry fruit, tomato, black fungus, semen sojae atricolor cleaning, adds water carry out break process, is beaten,
Obtain slurries;The additional amount of water is mulberry fruit, tomato, black fungus, 0.5 times of semen sojae atricolor gross mass;
B) saccharomycete is accessed in the slurries obtained to step a), ferment 100h at being 25 DEG C in temperature, obtains I fermentation liquid;
The deposit number of saccharomycete is CGMCC No.10621, and zymogenic viable count is 12~1,800,000,000/mL in slurries;
C) I fermentation liquid the access lactic acid bacteria, lactobacillus bulgaricus obtained to step b), ferments at being 25 DEG C in temperature
72h obtains II fermentation liquid;The deposit number of lactic acid bacteria is CGMCC No.13457, and the deposit number of lactobacillus bulgaricus is
CGMCCNo.9646;The number of viable of I Lactic Acid from Fermentation Broth bacterium is 1,100,000,000/mL, and the number of viable of lactobacillus bulgaricus is 6.5
Hundred million/mL;
D) II fermentation liquid for obtaining step c) is filtered, and obtains I biologic ferment;
It include 1.4 part of II compound bacteria, 140 part of II biologic ferment, 24 parts of vinasse, 15 parts of spirulina proteins in II composite material
Powder, 25 parts of wheat wheat-middlings and 25 parts of glucose;
II composite bacteria includes the denitrification phosphorus-collecting that number of viable is CGMCC No.10290 than the deposit number for 6.5:1.3
Bacterium, Bali Ali pseudomonad that deposit number is GDMCC No.60335;
II biologic ferment is for the brown rice of 7.5:2.6:1.2:2.5:1.3, pachyrhizus, grape pip, jujube, lemon with mass ratio
Skin fermenting raw materials form;
The preparation method of II biologic ferment, comprising the following steps:
A) water will be cleaned after brown rice, pachyrhizus, grape pip, jujube, lemon peel cleaning, adds water carry out break process, beats
Slurry, obtains slurries;The additional amount of water is brown rice, pachyrhizus, grape pip, jujube, 0.5 times of lemon peel gross mass;
B) saccharomycete is accessed in the slurries obtained to step a), ferment 100h at being 25 DEG C in temperature, obtains III fermentation liquid;
The deposit number of saccharomycete is CGMCC No.10621, and zymogenic viable count is 1,500,000,000/mL in slurries;
C) III fermentation liquid the access lactic acid bacteria, lactobacillus bulgaricus obtained to step b), ferments at being 25 DEG C in temperature
72h obtains IV fermentation liquid;The deposit number of lactic acid bacteria is CGMCC No.13457, and the deposit number of lactobacillus bulgaricus is
CGMCCNo.9646;The number of viable of III Lactic Acid from Fermentation Broth bacterium is 1,100,000,000/mL, and the number of viable of lactobacillus bulgaricus is
6.5 hundred million/mL
D) II fermentation liquid for obtaining step c) is filtered, and obtains II biologic ferment.
Include in III composite material 40 parts of xanthan gum, 26 parts of chitins, 25 parts of humic acid, 35 parts of partial sizes be 500~
The atlapulgite of 1000nm, 20 parts of sodium thiosulfate, 40 parts of non-ionic polyacrylamides and 25 parts of calcium carbonate.
Inhibit the preparation method of the processing material of algal grown, comprising the following steps:
A) I composite material
I composite bacteria, I biologic ferment, bean cake powder, spirulina protein powder, molasses and sesame oil are uniformly mixed, in room temperature
Lower fermentation 4d to get;
B) II composite material
II compound bacteria, II biologic ferment, vinasse, spirulina protein powder, wheat wheat-middlings and glucose are uniformly mixed, in room
The lower fermentation 3d of temperature to get;
C) III composite material
Xanthan gum, chitin, humic acid, atlapulgite, sodium thiosulfate, non-ionic polyacrylamide and calcium carbonate mixing
Uniformly to get;
D) inhibit the processing material of algal grown
By step a), b), c) be uniformly mixed, and at room temperature fermentation 6d to get.
6L water is taken out from the polluted water region of Hefei, detection chlorophyll a is 120.12mg/m3, total nitrogen 13.26mg/L, always
Phosphorus 0.89mg/L, COD 12.36mg/L;It is 6 parts by 6L moisture, every part of 1L is divided into experimental group 1~5 and control group;Experimental group 1
The processing material of the middle inhibition algal grown that 5g embodiment 1 is added, the inhibition algal grown of 5g embodiment 2 is added in experimental group 2
Processing material, the processing material of the inhibition algal grown of 5g embodiment 3 is added in experimental group 3,5g is added in experimental group 4 and implements
The processing material of the inhibition algal grown of 5g embodiment 5 is added in experimental group 5 for the processing material of the inhibition algal grown of example 4, right
It is not put into any cleanser according to group;Experimental group 1~5 and control group are placed in external environment after 30d, after measuring 15d respectively
Chlorophyll a, total nitrogen, total phosphorus and COD with after 30d in water body, the results are shown in Table 1.
1 experimental group 1~5 of table and control group repair result to water ecology
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention
Within oily mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.
Claims (9)
1. a kind of processing material for inhibiting algal grown, which is characterized in that compound including I composite material, II composite material and III
Material;
The mass ratio of I composite material, II composite material and III composite material is (0.01~0.03): (0.04
~0.06): (3~5);
It include 1~2 part of I composite bacteria, 100~200 part of I biologic ferment, 30~50 parts of bean cake powders, 10~20 in I composite material
Part spirulina protein powder, 20~30 parts of molasses and 2~5 parts of sesame oil;
It include 1~2 part of II compound bacteria, 100~200 part of II biologic ferment, 20~30 parts of vinasse, 10~20 parts in II composite material
Spirulina protein powder, 20~30 parts of wheat wheat-middlings and 20~30 parts of glucose;
It include 30~50 parts of xanthan gum, 20~30 parts of chitins, 20~30 parts of humic acid, 30~40 parts of activity in III composite material
Carclazyte, 15~25 parts of sodium thiosulfate, 30~50 parts of non-ionic polyacrylamides and 20~30 parts of calcium carbonate.
2. the processing material according to claim 1 for inhibiting algal grown, which is characterized in that I composite bacteria is preferably
Oxygen dephosphorization bacterial, lemon yellow red bacillus and pseudomonad, the aerobic dephosphorization bacterial, the lemon yellow red bacillus and the pseudomonad
Number of viable ratio be (3~4): (2~3): (5~6).
3. the processing material according to claim 1 for inhibiting algal grown, which is characterized in that II composite bacteria is anti-
Nitrify polyP bacteria, Bali Ali pseudomonad, the Denitrifying Phosphate Accumulating Organisms, Bali Ali pseudomonad number of viable ratio
For (5~8): (1~1.5).
4. the processing material according to claim 1 for inhibiting algal grown, which is characterized in that I biologic ferment is with mulberry
Sorosis, tomato, black fungus, semen sojae atricolor form for fermenting raw materials.
5. the processing material according to claim 1 for inhibiting algal grown, which is characterized in that the mulberry fruit, the west
Red persimmon, the black fungus, the semen sojae atricolor mass ratio be (0.6~1): (4~6): (0.4~0.8): (2~3).
6. the processing material according to claim 1 for inhibiting algal grown, which is characterized in that II biologic ferment is with rough
Rice, pachyrhizus, grape pip, jujube, lemon peel fermenting raw materials form.
7. it is according to claim 6 inhibit algal grown processing material, which is characterized in that the brown rice, the pachyrhizus,
The grape pip, the jujube, the lemon peel mass ratio be (6~9): (2~3): (0.8~1.5): (2~3): (1~
1.5)。
8. the processing material according to claim 1 for inhibiting algal grown, which is characterized in that the vinasse are white wine wine
Grain.
9. a kind of preparation method of the processing material as described in any one of claims 1 to 8 for inhibiting algal grown, feature exist
In, comprising the following steps:
A) I composite material
I composite bacteria, I biologic ferment, bean cake powder, spirulina protein powder, molasses and sesame oil are uniformly mixed, sent out at room temperature
3~4d of ferment to get;
B) II composite material
II compound bacteria, II biologic ferment, vinasse, spirulina protein powder, wheat wheat-middlings and glucose are uniformly mixed, at room temperature
Ferment 3~4d to get;
C) III composite material
Xanthan gum, chitin, humic acid, atlapulgite, sodium thiosulfate, non-ionic polyacrylamide and calcium carbonate mixing are equal
It is even to get;
D) inhibit the processing material of algal grown
By step a), b), c) be uniformly mixed, and at room temperature fermentation 5~7d to get.
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Cited By (2)
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CN110999850A (en) * | 2019-12-24 | 2020-04-14 | 海南晨海水产有限公司 | Method for controlling density of algae in shrimp pond |
WO2021077452A1 (en) * | 2019-10-24 | 2021-04-29 | 南京大学 | Pseudomonas balearica and application thereof in treating landfill leachate membrane concentrated solution |
-
2019
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2021077452A1 (en) * | 2019-10-24 | 2021-04-29 | 南京大学 | Pseudomonas balearica and application thereof in treating landfill leachate membrane concentrated solution |
CN110999850A (en) * | 2019-12-24 | 2020-04-14 | 海南晨海水产有限公司 | Method for controlling density of algae in shrimp pond |
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Application publication date: 20190726 |