CN111333198A - Water quality improver for aquaculture water transfer and preparation method thereof - Google Patents

Abstract

The invention discloses a water quality modifier for aquaculture water transfer and a preparation method thereof, wherein the water quality modifier for aquaculture water transfer is composed of the following raw materials in parts by weight: 10-15% of bacteria liquid, 5-10% of brown sugar, 8-15% of porous adsorbent, 10-18% of polyferric sulfate, 10-20% of sodium peroxide sulfate, 10-12% of urea peroxide and 10-12% of isatis root.

Description

Water quality improver for aquaculture water transfer and preparation method thereof

Technical Field

The invention relates to the technical field of aquaculture, in particular to a water quality improver for aquaculture water transfer and a preparation method thereof.

Background

Modern aquaculture intensification degree is higher and higher, and high density breed mode will certainly lead to the feeding of a large amount of high protein fodder, consequently have a large amount of nitrogenous organic matters to be imported in the water, and the pollution of aquatic livestock excrement and urine wastes material, the degree of deterioration of breed water has been accelerated, especially the middle and later stage of breed management, the breed pond is in high temperature cultivation season, under the insufficient condition of dissolved oxygen, a large amount of water dissolved oxygen of above-mentioned nitrogenous organic matters and incomplete bait consumption, cause the not enough of water dissolved oxygen, seriously harm aquatic livestock's existence and growth.

In addition, in the process of preventing and treating aquatic animal diseases, disinfectants, antibiotics and the like are frequently applied, the balance of a good flora system of a water body and algae generating oxygen is also seriously damaged, residual baits, feces, dead animal and plant carcasses, disinfectants, antibiotics and the like accumulate for many years along with the culture pond, sludge at the bottom of the pond is deposited and contains rich organic matters, the sludge with the dominant anaerobic microorganisms consumes a large amount of dissolved oxygen in water, finally, the organic matters are incompletely oxidized due to insufficient dissolved oxygen to generate toxic and harmful reducing substances such as total ammonia nitrogen, nitrite, hydrogen sulfide and the like, the water quality indexes such as ammonia nitrogen, nitrite, hydrogen sulfide, dissolved oxygen and the like in the water body are difficult to regulate and control, and the normal growth, health and survival of aquatic animals are influenced.

Disclosure of Invention

The invention aims to provide a water quality modifier for aquaculture water transfer and a preparation method thereof, and aims to solve the problems in the background art.

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

a water quality modifier is composed of the following raw materials in parts by weight: 10-15% of bacteria liquid, 5-10% of brown sugar, 8-15% of porous adsorbent, 10-18% of polymeric ferric sulfate, 10-20% of sodium peroxide sulfate and 10-12% of urea peroxide.

Preferably, the water quality modifier consists of the following raw materials in parts by weight: 10-15% of bacteria culture solution, 5-10% of brown sugar, 8-15% of porous adsorbent, 10-18% of polymeric ferric sulfate, 10-20% of sodium peroxide sulfate, 10-12% of urea peroxide and 5-10% of biological enzyme.

Preferably, the water quality modifier consists of the following raw materials in parts by weight: 10-15% of bacteria culture solution, 5-10% of brown sugar, 8-15% of porous adsorbent, 10-18% of polymeric ferric sulfate, 10-20% of sodium peroxide sulfate, 10-12% of urea peroxide and 30-35% of corn.

Preferably, the porous adsorbent is one of zeolite powder, medical stone, bentonite and active carbon.

Preferably, the preparation process of the water quality modifier comprises the following steps:

the method comprises the following steps: weighing a certain weight of brown sugar, isatis root, polymeric ferric sulfate, sodium peroxide sulfate and urea peroxide according to a formula, placing the components in a container, mixing and stirring;

step two: processing the substances mixed and stirred in the step one by a ball mill to prepare powdery substances, and placing the powdery substances in a container;

step three: weighing a certain amount of bacterial liquid, putting the bacterial liquid into the powdery substance prepared in the step two, stirring to prepare a mixture, and drying the mixture until the mixture is completely dried;

step four: processing the dried mixture obtained in the third step by a ball mill to obtain a powdery substance;

step five: adding a porous adsorbent into the powdery substance prepared in the step four, and stirring;

step six: preparing the stirred substances in the fifth step into spherical particles by a particle preparation machine;

step seven: and (5) packaging the spherical particles prepared in the sixth step by a packaging bag to prepare the water quality modifier.

Preferably, the preparation process of the bacterial liquid comprises the following steps:

step A: weighing 5-10% of photosynthetic bacteria strain, 5-10% of bacillus strain, 20-30% of culture medium and 5-6% of water;

and B: pouring the culture medium into a container, pouring water into the same container, and uniformly stirring to obtain a culture solution;

and C: putting the weighed photosynthetic bacteria strains and bacillus strains into the culture solution, and uniformly stirring;

step D: and D, placing the liquid prepared in the step C in a warm light incubator for standing culture for 4 days to prepare a bacterial liquid.

Preferably, the preparation process of the culture medium comprises the following steps, taking 1L of culture medium as an example:

step a: weighing 0.5 g of monopotassium phosphate, 2 g of magnesium sulfate, 2 g of yeast extract and 1000 ml of sterilized seawater;

step b: pouring 950 ml of sterilized seawater into a container, putting dipotassium hydrogen phosphate, magnesium sulfate and yeast extract into the container, and uniformly stirring;

and c, dripping the sterilized seawater into the solution prepared in the step b through a dropper until the solution is one liter.

Preferably, the container for containing the culture medium in the step B is made of transparent material.

Preferably, the water weighed in step a is subjected to a disinfection treatment.

Preferably, the material of the packaging bag in the seventh step is a PE film, and the specification of the water quality modifier is one kilogram, three kilograms and twenty kilograms.

Compared with the prior art, the invention has the beneficial effects that: (the formula components do not respectively show the effects exerted by the components)

The photosynthetic bacteria can provide hydrogen and carbon sources by utilizing organic matters, ammonia nitrogen, nitrite and small molecular substances of hydrogen sulfide in a water body under the anaerobic illumination or aerobic dark condition, assimilate carbon dioxide by utilizing light energy to generate oxygen, have the functions of fixing nitrogen and decomposing organic matters, can reduce the toxicity of harmful substances in the water body, have the protein content of the photosynthetic bacteria of more than 60 percent, also contain various vitamins and carotenoids, have high nutritive value, and are water culture baits in aquaculture and are used as the basis of feed additive component substances;

the bacillus can secrete a large amount of protease, amylase, lipase and digestive enzyme, decompose macromolecular organic matters such as residual feed, excrement and the like in the water body, reduce the eutrophication degree of the water body, occupy the space advantage of flora and inhibit the growth and the propagation of harmful microorganisms such as harmful bacteria, pathogenic bacteria and the like;

the polyferric sulfate is an inorganic polymer coagulant with excellent performance, has obvious effect on purifying treatment of low-temperature and low-turbidity raw water containing micro-pollution and algae, has excellent effect on purifying high-turbidity raw water, and reduces the content of organic matters in a water layer to form precipitate;

the porous adsorbent adsorbs ammonia nitrogen, nitrite and organic debris in the water body, the water purification effect is outstanding, and microelements such as multiple minerals are supplemented, so that the pond water is suitable for fish survival;

the urea peroxide can directly increase oxygen, relieve the anoxic condition of the pond bottom, degrade most of toxic and harmful substances and organic matters, radically solve the problem of more organic matters in the pond bottom, and has remarkable effects of preventing and treating bacterial diseases;

the radix isatidis is a warm traditional Chinese medicine, can inhibit the growth of bacteria and prevent fish from being infected and attacked by the bacteria.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to specific embodiments.

Example 1

The formula of the water quality improver comprises the following raw materials in parts by weight:

10-15% of bacteria liquid, 5-10% of brown sugar, 8-15% of porous adsorbent, 10-18% of polymeric ferric sulfate, 10-20% of sodium peroxide sulfate and 10-12% of urea peroxide.

A process for preparing a water quality improver comprises the following steps:

the method comprises the following steps: weighing a certain weight of brown sugar, isatis root, polymeric ferric sulfate, sodium peroxide sulfate and urea peroxide according to a formula, placing the components in a container, mixing and stirring;

step two: processing the substances mixed and stirred in the step one by a ball mill to prepare powdery substances, and placing the powdery substances in a container;

step three: weighing a certain amount of bacterial liquid, putting the bacterial liquid into the powdery substance prepared in the step two, stirring to prepare a mixture, and drying the mixture until the mixture is completely dried;

step four: processing the dried mixture obtained in the third step by a ball mill to obtain a powdery substance;

step five: adding a porous adsorbent into the powdery substance prepared in the step four, and stirring;

step six: preparing the stirred substances in the fifth step into spherical particles by a particle preparation machine;

step seven: and (5) packaging the spherical particles prepared in the sixth step by a packaging bag to prepare the water quality modifier.

Example 2

The formula of the water quality improver comprises the following raw materials in parts by weight:

10-15% of bacteria culture solution, 5-10% of brown sugar, 8-15% of porous adsorbent, 10-18% of polymeric ferric sulfate, 10-20% of sodium peroxide sulfate, 10-12% of urea peroxide and 5-10% of biological enzyme.

A process for preparing a water quality improver comprises the following steps:

the method comprises the following steps: weighing a certain weight of brown sugar, isatis root, polymeric ferric sulfate, sodium peroxide sulfate and urea peroxide according to a formula, placing the components in a container, mixing and stirring;

step two: processing the substances mixed and stirred in the step one by a ball mill to prepare powdery substances, and placing the powdery substances in a container;

step three: weighing a certain amount of bacterial liquid, putting the bacterial liquid into the powdery substance prepared in the step two, stirring to prepare a mixture, and drying the mixture until the mixture is completely dried;

step four: adding biological enzyme into the dry mixture obtained in the third step, and treating the mixture by using a ball mill to obtain a powdery substance;

step five: adding a porous adsorbent into the powdery substance prepared in the step four, and stirring;

step six: preparing the stirred substances in the fifth step into spherical particles by a particle preparation machine;

step seven: and (5) packaging the spherical particles prepared in the sixth step by a packaging bag to prepare the water quality modifier.

Example 3

The formula of the water quality improver comprises the following raw materials in parts by weight:

10-15% of bacteria culture solution, 5-10% of brown sugar, 8-15% of porous adsorbent, 10-18% of polymeric ferric sulfate, 10-20% of sodium peroxide sulfate, 10-12% of urea peroxide and 30-35% of corn.

A process for preparing a water quality improver comprises the following steps:

the method comprises the following steps: weighing a certain weight of brown sugar, isatis root, polymeric ferric sulfate, sodium peroxide sulfate, corn and urea peroxide according to a formula, placing the components in a container, mixing and stirring;

step two: processing the substances mixed and stirred in the step one by a ball mill to prepare powdery substances, and placing the powdery substances in a container;

step three: weighing a certain amount of bacterial liquid, putting the bacterial liquid into the powdery substance prepared in the step two, stirring to prepare a mixture, and drying the mixture until the mixture is completely dried;

step four: processing the dried mixture obtained in the third step by a ball mill to obtain a powdery substance;

step five: adding a porous adsorbent into the powdery substance prepared in the step four, and stirring;

step six: preparing the stirred substances in the fifth step into spherical particles by a particle preparation machine;

step seven: and (5) packaging the spherical particles prepared in the sixth step by a packaging bag to prepare the water quality modifier.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. The water quality improver is characterized by comprising the following raw materials in parts by weight:

10-15% of bacteria liquid, 5-10% of brown sugar, 8-15% of porous adsorbent, 10-18% of polymeric ferric sulfate, 10-20% of sodium peroxide sulfate, 10-12% of urea peroxide and 10-12% of isatis root.

2. The water quality improver as claimed in claim 1, wherein the water quality improver comprises the following raw materials in parts by weight:

10-15% of bacteria culture solution, 5-10% of brown sugar, 8-15% of porous adsorbent, 10-18% of polymeric ferric sulfate, 10-20% of sodium peroxide sulfate, 10-12% of urea peroxide, 10-12% of radix isatidis and 5-10% of biological enzyme.

3. The water quality improver as claimed in claim 1, wherein the water quality improver comprises the following raw materials in parts by weight:

10-15% of bacteria culture solution, 5-10% of brown sugar, 8-15% of porous adsorbent, 10-18% of polymeric ferric sulfate, 10-20% of sodium peroxide sulfate, 10-12% of urea peroxide, 10-12% of radix isatidis and 30-35% of corn.

4. A water quality improver as claimed in claim 1, wherein the porous adsorbent is one of zeolite powder, medical stone, bentonite and activated carbon.

5. A water quality improver according to claim 1, wherein the water quality improver is prepared by a process comprising the steps of:

the method comprises the following steps: weighing a certain weight of brown sugar, isatis root, polymeric ferric sulfate, sodium peroxide sulfate and urea peroxide according to a formula, placing the components in a container, mixing and stirring;

step two: processing the substances mixed and stirred in the step one by a ball mill to prepare powdery substances, and placing the powdery substances in a container;

step three: weighing a certain amount of bacterial liquid, putting the bacterial liquid into the powdery substance prepared in the step two, stirring to prepare a mixture, and drying the mixture until the mixture is completely dried;

step four: processing the dried mixture obtained in the third step by a ball mill to obtain a powdery substance;

step five: adding a porous adsorbent into the powdery substance prepared in the step four, and stirring;

step six: preparing the stirred substances in the fifth step into spherical particles by a particle preparation machine;

step seven: and (5) packaging the spherical particles prepared in the sixth step by a packaging bag to prepare the water quality modifier.

6. A water quality improver according to claim 1, wherein the preparation process of the bacterial solution comprises the steps of:

step A: weighing 5-10% of photosynthetic bacteria strain, 5-10% of bacillus strain, 20-30% of culture medium and 5-6% of water;

and B: pouring the culture medium into a container, pouring water into the same container, and uniformly stirring to obtain a culture solution;

and C: putting the weighed photosynthetic bacteria strains and bacillus strains into the culture solution, and uniformly stirring;

step D: and D, placing the liquid prepared in the step C in a warm light incubator for standing culture for 4 days to prepare a bacterial liquid.

7. A water quality improver according to claim 6, wherein the preparation process of the culture medium comprises the following steps, taking 1L of culture medium as an example:

step a: weighing 0.5 g of dipotassium phosphate, 2 g of magnesium sulfate, 2 g of yeast extract and 1000 ml of sterilized seawater;

step b: pouring 950 ml of sterilized seawater into a container, putting dipotassium hydrogen phosphate, magnesium sulfate and yeast extract into the container, and uniformly stirring;

step c: and d, dripping the sterilized seawater into the solution prepared in the step b through a dropper until the solution is one liter.

8. A water quality improving agent according to claim 6, wherein the vessel for containing the medium in the step B is made of a transparent material.

9. A water quality improver according to claim 6 wherein the water weighed in step A is subjected to a sterilization treatment.

10. The water quality improver according to claim 5, wherein the material of the packaging bag in the seventh step is a PE film, and the specifications of the water quality improver are one kilogram, three kilograms and twenty kilograms.