KR20070048372A - Water improvement agent improved durability and manufacturing method thereof - Google Patents

Abstract

The present invention relates to an improved water quality improver and a method for manufacturing the same, and to improve water quality continuously, and in particular, to provide an improved water quality improver suitable for improving water quality of shrimp and sea cucumber farms, and a method of manufacturing the same. The present invention for this purpose is 55 to 65% by weight of zeolite mixed with different particle sizes, 3 to 7% by weight of ganbanite, 11 to 19% by weight of waste fossil, 3 to 7% by weight of calcite, and 3 to limestone. It comprises 7 wt%, 2 to 4 wt% carbon, and 6 to 8 wt% ocher. By the above configuration, the present invention can improve the water quality of seawater, such as polluted offshore farms, and can also remove odors, such as various wastewater and leachate, to restore the environment, pH of the sea and fresh water By improving the water quality to less than pH 6.5 ~ 8.5 to prevent red tide and green algae, it is possible to improve the productivity of aquaculture farms, in particular, it is very suitable for shrimp and sea cucumber farming, which has the effect of greatly improving the yield. .

Zeolite, Water Quality Improvement Agent, Green Algae, Red Tide, Water Pollution

Description

Water improvement agent improved durability and manufacturing method

The present invention relates to an improved water quality improving agent and a method for manufacturing the same, and in particular, by mixing zeolite having pluralities with natural minerals having a purification function and the like in a certain ratio to improve the characteristics of each natural mineral to provide simple purification of water quality. In addition, the present invention relates to an improved water quality improving agent capable of continuously improving water quality by improving soil quality of a sea or river bottom, and a method of manufacturing the same.

In general, the main cause of seawater pollution, such as freshwater such as rivers, lakes and reservoirs, is the algal phenomena naturally caused by constant high temperatures in the summer, in addition to the discharge of artificially input waste and unpurified wastewater, or Powerful solar radiation includes red tide that occurs when the surface water temperature rises, or when nutrients increase due to the inflow of fresh water due to heavy rains, or when the mixing of sea water decreases due to continued windless conditions.

Among them, naturally occurring green algae and red algae are caused by abnormal growth of phytoplankton, which is a food for fish, by eutrophication and the like, and have a fatal effect on fish farming in offshore farms.

That is, the amount of dissolved oxygen in the water is greatly reduced as the phytoplankton, which is a food for fish, is greatly increased, thereby killing fish and aquatic organisms.

In addition, when looking at the liquid waste that pollutes water by component, it is divided into inorganic substances, microorganisms, radioactive substances, heat, organic substances, etc. Among them, organic substances are biochemically decomposed by bacteria, fungi, etc., in which dissolved oxygen Since is consumed, if too much organic matter is produced, the oxygen in the water is deficient and adversely affects the living organisms requiring the oxygen supply.

Thus, in the absence of oxygen, harmful hydrogen sulfide, etc. are generated, water becomes acidic, and chemical components deteriorate, smell, and aesthetics of water are reduced.

On the other hand, one of the causes of water pollution in fish farms is ammonia, an inorganic nitrogen that fish eats and releases into the water through gills, which not only affects the gills of fish but also slows the growth of fish. .

In addition, ammonia has a high pH, high water temperature, and low dissolved oxygen, which increases its amount and becomes more toxic. To prevent such ammonia poisoning, the pH of the farm must be lowered.

However, if the pH of the farm is too low, nitrite poisoning is likely to occur.

As described above, the deadly virus and microorganisms occur in fish due to the lack of dissolved oxygen, the organic substance dissolved in the water, and the pH change in the water. In particular, the white spot virus has an irregular ganoderma lucidum white color inside the shell of the shrimp. It occurs as a pattern and causes a large amount of shrimp to die, and the cocolodinium microorganisms cling to the gills of fish and cause the fish to die.

Therefore, fish farming is required to improve the above-mentioned problems, but water purifiers or water improvers developed to date have a temporary effect in spraying, such as adsorption and removal of suspended substances in the form of flocculation reactions. In addition, there is a problem that does not obtain a long-term effect of substantially improving the water quality itself, such as the inability to process organic substances dissolved in water.

The present invention has been proposed to solve the above problems, by mixing the zeolite having a pluralistic characteristics and natural minerals in a certain ratio to improve the water quality of the sea or river bottom as well as the simple purification of the water quality to continuously improve the water quality In particular, an object of the present invention is to provide an improved water quality improving agent suitable for improving the water quality of shrimp and sea cucumber farms and a manufacturing method thereof.

The present invention for achieving the above object is 55 to 65% by weight of zeolite mixed with different particle size, 3 to 7% by weight of ganbanite, 11 to 19% by weight of waste fossil, 3 to 7% by weight of calcite %, 3-7% by weight of limestone, 2-4% by weight of carbon, and 6-8% by weight of ocher.

Preferably, the zeolite has a particle size of 2 to 5 mm and a particle size of 80 to 100 mesh of 1: 1, and the ganbanite, waste fossil, calcite, limestone, carbon, and ocher have a particle size of 80 to 100 mesh. Can be.

Preferably, 30% by weight of zeolite with a particle size of 2-5 mm, 30% by weight of zeolite with a particle size of 80-100 mesh, 5% by weight of ganbanite, 15% by weight of waste fossil, 5% by weight of calcite, 5% by weight of limestone, , 3 wt% carbon, and 7 wt% ocher.

According to the aspect of the present invention, the method for preparing the water-improving water-improving agent is 55 to 65% of zeolite having a particle size of 2 to 5 mm and a particle size of 80 to 100 mesh in a 1: 1 ratio, and 3 to 7% of elvan with a particle size of 80 to 100 mesh. And, 11 to 19% of waste fossils, 3 to 7% of calcite, 3 to 7% of limestone, 2 to 4% of carbon, and 6 to 8% of ocher in a weight ratio.

Preferably, 30% zeolite having a particle size of 2 to 5 mm, 30% zeolite having a particle size of 80 to 100 mesh, 5% of ganbanite, 15% of waste fossil, 5% of calcite, 5% of limestone, 3% of carbon, Ocher 7% can be mixed by weight.

Hereinafter, preferred embodiments of the present invention will be described in detail.

Water-improving water-improving agent according to the present invention 55 to 65% by weight, zeolites 3-7%, waste fossil 11-19% by weight, calcite 3-7% by weight mixed 1: 1 with different particle sizes And 3 to 7% by weight of limestone, 2 to 4% by weight of carbon, and 6 to 8% by weight of ocher.

Zeolite, the main component of water quality improver, is composed of 1: 1 mixture of 2 ~ 5mm particle size and 80 ~ 100mesh particle size. The large particle size is mixed with soil on the bottom surface of the water, It prevents the decay of the dirt, and the small particle size floats in the water to remove the dirt present in the water.

In addition, ganbanite, waste fossils, calcite, limestone, carbon, and loess are composed of 80 to 100 mesh in particle size, and gantherite and calcite generate oxygen, and waste fossils propagate the microbes that feed fish. Limestone, carbon and loess serve to purify water.

Preferably, the improved water quality improver according to the present invention is 30% by weight of zeolite having a particle size of 2-5 mm, 30% by weight of zeolite having a particle size of 80-100 mesh, 5% by weight of ganbanite, 15% by weight of waste fossil, and calcite 5 wt%, limestone 5 wt%, carbon 3 wt% and ocher 7 wt%.

To explain in more detail the characteristics and main functions of the natural minerals included in such water quality improvement agent, zeolite is a mineral in the form of a skeleton (deck) mainly composed of silicic acid and alumina (aluminum oxide), and alkalis of sodium and potassium. It contains alkaline earth metals such as metals and calcium, and has a porous structure in the form of jungle gym.

The porous pores of the jungle gym form such as water, ions such as ammonia and potassium flow in, the size of which is 1 nm or less, the surface area of the pores reaches 1,000㎡ / g, thereby adsorbing various heavy metal molecules or microorganisms Provide a home for growth.

In particular, the zeolite jungle gym structure of zeolite can withstand acid and high temperature considerably, and the pore size of the porous structure is almost the same as that of potassium ion, so once it enters the pores, it is not easily escaped. Is selectively adsorbed.

In addition, since the size of ammonium ions is almost similar to that of potassium ions, which can also be specifically adsorbed on zeolites, zeolites can suppress volatilization of ammonia gas, which adversely affects fish farming.

Another characteristic of zeolites is that the cation substitution capacity, i.e. the CEC, is very large, such as 80-170 meq / 100 g, which refers to the ability to adsorb and preserve cations.

Due to this characteristic and the porous structure, cations present in the porous pores are easily exchanged with various other metals and organic cations in the aqueous solution, and calcium (Ca2 +) and magnesium (Mg2 +) in water are exchanged with sodium (Na +) ions. To convert hard water to soft water.

On the other hand, zeolites have no ability to adsorb nitrate ions or phosphate ions, which are anions, but a considerable amount of replaceable calcium is present in the porous material. If the pH of the soil is near neutral, phosphoric acid is adsorbed thereon.

Second, elvan is a rock belonging to the quartz rock among igneous rocks, and its main components are silicic anhydride (SiO ₂ ) and aluminum oxide (Al ₂ O ₃ ), especially ferric oxide (Fe ₂ O) which is essential for human body and living cells. ₃ ) is contained.

In addition, the porous structure of the elvan is composed of 30,000 to 150,000 pores per cubic centimeter, which has a large specific surface area, and thus absorbs and decomposes harmful substances such as pollutants and heavy metals. Insect repellent and strong deodorizing power.

These elvan rocks are more than 40 kinds of minerals that energize the life to promote metabolism, acidic or strong alkaline water is weakly alkaline (pH7.2 ~ 7.4), and the water quality is activated to purify.

In addition, ganbanite is lowered COD (chemical oxygen demand), BOD (biological oxygen demand) when immersed in water can give vitality to the living body as well as antiseptic action.

Third, calcite is CaCO ₃ -based mineral, composed of 56% CaO and 44% CO _{2. It} is hexagonal or rhombohedral crystal structure, specific gravity 2.75, hardness 3.0, 8.5 ~ 9.5pH. .

Such calcite is mixed with the lower layer soil of the water sprayed with the water improver, as described later, to purify the water.

Fourthly, waste fossils are minerals such as oyster shells, which neutralize acidified soils, and unlike lime, prevent the soil from rolling and have various effects of calcium and trace elements to improve the soil.

In addition, waste fossils are porous particles, which have good aeration and water permeability, increase the growth of microorganisms, feed the aquaculture fish, and increase their growth.They also consist of oyster shells grown in oceans rich in trace elements. In addition to the components, it contains a large number of trace elements, which promotes the strong growth of cultured fish, thereby increasing the production of fish.

These waste fossils are natural calcium fertilizers made by calcining and pulverizing pure oyster shells at high temperature. They are excellent in decomposition and absorption, can be used in any soil, and there is no excessive obstacle phenomenon even in large amounts.

Fifth, ocher is composed of particles of silt size, finer than sand and thicker than mud, and is light yellow sediment loosely intercalated by calcium carbonate, with high porosity silica (SiO ₂ ) and alumina (Al _2). O ₃ ), iron, magnesium (Mg), sodium (Na), carry, and many other minerals are contained.

The loess has excellent absorption, self-cleaning, and vitality. The microorganisms in the loess are rich in yeast activity called catalyze, which is an oxidase, which catalyzes hydrogen peroxide and lipid peroxide.

Meanwhile, about 200 to 250 million microorganisms exist in 1 g of loess, which contains more than 45 kinds of effective microorganisms (Catalase, Protease, Dihpenol oxidase, Saccharase), and complex circulation effects. It is excellent in detoxification, absorption, soil self-cleaning and oxidizing power.

Such loess has a long-term accumulated soil microbial and enzymatic action of antibacterial, insect repellent, deodorizing effect and pollutant removal effect.

In addition, the yellow soil is rich in pores with a water content of 15-40%, excellent in breathability, excellent in the separation and removal of heavy metals (mercury, cadmium, manganese, arsenic, copper, etc.), and antibacterial to prevent the growth of bacteria and fungi. Insect repellent and humidity control to prevent eggs and hatching of eggs, heat retention and softening of the water is excellent, waste decomposition and release effect is excellent.

Sixth, carbon, which is charcoal, has an amazing porosity of 300 square meters (about 100 pyeong) per 1 g, although it varies depending on the material. Adsorption, the smaller the pores, the more effective it works.

The anion generated in the carbon itself is rich in oxygen to help all life activities, for example, due to abnormal proliferation of plankton, oxygen-depleted microorganisms that dislike oxygen multiply and emit gas. In the environment, cations are naturally present and there are very few anions. At this time, the environment can be changed by the effect of microorganisms parasitic on charcoal and negative ions emitted by the charcoal, thus, the smell is also removed.

In addition, carbon is 80% carbonaceous material and the remainder is composed of minerals (calcium, sodium, iron, magnesium, potassium, phosphorus, etc.), especially the natural minerals absorbed from the soil by wood, which is a raw material of charcoal, are balanced. It is contained, which is concentrated in the process of making charcoal.

These carbons are excellent in water retention, binding, and water permeability, and have excellent breathability and moisture control. About 60% of the trace elements are alkali salts, which are essential nutrients of plants, and porous and weak alkalis. It is the best habitat for airborne nitrogen, bacteria, actinomycetes, actinomycetes, VA bacteria, and lyucuconia, and has excellent adsorption and decomposability of harmful gases in sewage, wastewater, heavy metals and soils. It has a good effect of increasing oxygen supply by mitigating action and promoting dispersion decomposition in the soil to form a soft sponge soil with low viscosity.

Finally, limestone is a natural calcium carbonate produced by the absorption of CaCO ₃ dissolved in water (eg, worms, shellfish, corals, etc.) or by chemical deposition.

In addition, although limestone has a function of purifying the water quality due to its characteristics, only a specific amount of the minute amount is included in the water quality improving agent because a large amount of spraying causes the death of farmed fish.

As described above, the water quality can be continuously improved by improving freshwater or seawater, in particular, the soil of the lower layer of the farm, according to the characteristics of each natural mineral, and the characteristics of each natural mineral are enhanced by the plural nature of zeolite.

Referring to the method of manufacturing the water-improving agent with improved sustainability, first, the natural minerals, that is, zeolite, ganban stone, waste fossil, calcite, limestone, carbon and loess are respectively dried, and each dried natural mineral is put into a grinder and pulverized. do.

At this time, among the natural minerals extracted from the grinder, the zeolite is mixed with a particle size of 2-5 mm, and the one passed through 80-100 mesh sieve in a 1: 1, and other ganban stone, waste fossil, calcite, limestone, carbon and Ocher extracts only those that pass through 80 ~ 100mesh sieve, and mixes them to make water quality improver.

At this time, each of the natural minerals included in the water-improving agent is 55-65% of zeolites with a zeolite having a particle size of 2-5 mm and a zeolite having a particle size of 80-100 mesh in a 1: 1 ratio, and 3-7% of elvan with a particle size of 80-100 mesh. , 11 to 19% of waste fossil, 3 to 7% of calcite, 3 to 7% of limestone, 2 to 4% of carbon, and 6 to 8% of ocher are mixed in a weight ratio.

Preferably, 30% zeolite having a particle size of 2 to 5 mm, 30% zeolite having a particle size of 80 to 100 mesh, 5% of ganbanite, 15% of waste fossil, 5% of calcite, 5% of limestone, 3% of carbon, Ocher 7% can be mixed by weight.

Hereinafter, a brief description will be made of a method of improving the sustainability according to an embodiment of the present invention.

Since shrimp are usually grown between March and the end of October, the saltwater is drained and the tidal flats are dried up in March when the farming begins. At this time, evenly spray the water quality improver according to the present invention to 100 ~ 120kg / 200 pyeong (1 mu) and then ground the soil, and again spraying again 20kg / 200 pyeong after one week.

Next, at the beginning of April, the seawater is confined to a depth of 1.5m or more to form a food chain in shrimp farms such as plankton for about a month. Purification occurs by adsorption of contaminants, etc. contained in seawater by the porous structure of minerals, and the water quality is improved to pH 6.5-8.5 or less.

In early May, when the water temperature is 20 ° C, the shrimp are discharged, and after about 10 days, the number of windmills operating for oxygen supply is gradually increased.

In this way, the water quality is purified by the water quality improver and at the same time the oxygen supply is smooth, and the optimum conditions of aquaculture can be achieved due to the growth of the effective microorganisms that feed the cultured fish.

In addition, after 20 days of sprinkling shrimp shrimp and sprinkle 22㎏ / (200 pyeong) again.

Later, when the water temperature is 24 ° C or higher from July to August, the water quality improver is sprayed at 20 to 30 kg / 200 pyeong, which is to block the synergistic effect of the water temperature by zeolite included in the water quality improver.

As described above, according to the present invention, the water-improving agent having improved persistence and a method for preparing the same according to the present invention mix zeolite having pluralities with natural minerals having a purification function at a predetermined ratio, thereby improving the natural minerals having improved properties by zeolite. Strong water purification can improve the water quality of contaminated rivers, streams, fresh water, upstream areas of drinking water, as well as contaminated offshore farms, and can remove odors from various wastewater and leachate. There is an effect to restore the environment.

In addition, the present invention by using a zeolite that can remove the cogorodinium microorganisms that cling to the gills of the fish killing the fish, it is possible to cure fish disease by preventing various viral diseases of the farm, and furthermore, Improve the soil at the bottom of the sea water to improve oxygen supply, and thus increase the pH of the sea and fresh water to improve the water quality to pH 6.5 ~ 8.5 or lower to prevent red tide and green algae, thus improving the productivity of fish farms. .

In addition, the present invention is a pure mineral mixed with a certain ratio of natural minerals after physical processing, generating oxygen from the seawater bottom layer soil, and prevents the generation of other harmful gases such as carbon dioxide due to the corruption of shrimp manure and feed, Excellent prevention of various viruses in shrimp farming and sea cucumber farming prevents mass mortality.In particular, it improves the digestibility of shrimp and sea cucumber, promotes growth and development, increases the survival rate of shrimp seed and matures the shrimp. Since it can be advanced 1.5 ~ 2 months, it is very suitable for shrimp and sea cucumber farming, so it can improve the yield very efficiently.

Claims (5)

55 to 65% by weight of zeolite mixed with different particle sizes, 3 to 7% by weight of ganbanite, 11 to 19% by weight of waste fossil, 3 to 7% by weight of calcite, 3 to 7% by weight of limestone, 2 to 4% by weight of carbon, and 6 to 8% by weight of ocher. The method of claim 1, The zeolite has a particle size of 2 to 5 mm and a particle size of 80 to 100 mesh in a ratio of 1: 1, and the ganbanite, waste fossil, calcite, limestone, carbon, and ocher have a particle size of 80 to 100 mesh. A water quality improver with improved sustainability. The method of claim 1, 30% by weight of zeolite with a particle size of 2 to 5 mm, 30% by weight of zeolite with a particle size of 80 to 100mesh, 5% by weight of ganbanite, 15% by weight of waste fossil, 5% by weight of calcite, 5% by weight of limestone, and carbon 3 Water quality improver, characterized in that made up by weight, including 7% by weight ocher. 55 to 65% of zeolite with a particle size of 2 to 5 mm and a particle size of 80 to 100 mesh 1: 1, 3 to 7% of elvan rock with a particle size of 80 to 100 mesh, 11 to 19% of waste fossil, 3 to 7% of calcite , 3-7% limestone, 2-4% carbon, and 6-8% ocher in a weight ratio. The method of claim 4, wherein 30% of zeolite with a particle size of 2-5mm, 30% of zeolite with a particle size of 80-100 mesh, 5% of ganbanite, 15% of waste fossils, 5% of calcite, 5% of limestone, 3% of carbon, 7% of ocher Process for producing a water quality improver, characterized in that the mixing in a weight ratio.