KR20060103311A - Composition to eliminate red tide - Google Patents

Abstract

The present invention is composed of a compound consisting of elements dissolved in seawater as a component, not only has high red tide relief efficiency, but also has no problem of secondary environmental pollution, and dissolves and dissolves in seawater, so that various problems due to precipitation can be solved. The present invention relates to a new red tide removal composition capable of mass production at a low price, and includes 25 to 35 wt% of potassium chloride (KCl), 30 to 40 wt% of zinc oxide (ZnO), and 30 to 45 wt% of acidic clay.

Red Tide, Red Tide Removal

Description

Composition to eliminate red tide

The present invention relates to a composition for removing red tide by spraying on the red tide occurrence area, and more specifically, it consists of compounds consisting of elements dissolved in sea water as a component of the red tide relief efficiency as well as the problem of secondary environmental pollution It is a new red tide removal composition that can be mass-produced at a low price while being able to solve various problems caused by sedimentation because it is dissolved again and dissolved in sea water.

Red tide is explained in various ways according to the description, but generally refers to a phenomenon in which the phytoplankton multiplies in a large amount and the color of the sea water turns red.

Most of the organisms that cause red tide are flagella and diatoms, but are sometimes caused by ciliary reptiles classified as 'euglena' or protozoa.

Red tide is a common occurrence all over the world. Recently, the red tide is spreading across the South Sea coast, the West Sea, and the South East Coast. Red tide sources are also moving from the center of diatoms to the flagella algae center, and the concentration of red tide is also increasing. As a result, the damage of red tide is increasing year by year.

A widely used method to relieve such red tide is the 'ocher spray method'. This is a method of spraying the red soil in the red tide occurrence area so that the red tide and the ocher aggregate and then settle in the sea. In this case, the red tide becomes inconspicuous right now, but some of the submerged red tide rises again, the sedimented red tide rots causing secondary environmental pollution, and the turbidity of the sea water is increased by spraying ocher to the sea. It is true that there are many problems, such as the problem of death.

The existing red tide removal method has been summarized. The contents are as follows.

As described in the above table, many of the existing methods have the disadvantage that the effect of removing red tide, causing the problem of secondary environmental pollution, or expensive manufacturing cost.

Therefore, the technical problem to be achieved by the present invention is to provide a composition for removing red tide that can be mass-produced at a low price by overcoming the various problems as described above, there is no risk of secondary environmental pollution and maximize the red tide removal efficiency.

In order to achieve the above technical problem, the present invention is 25 to 35% by weight of potassium chloride (KCl), zinc oxide (ZnO) 30 to 40% by weight, red tide removal, characterized in that it comprises 30 to 45% by weight acidic clay To provide a composition.

Red tide removal composition according to the present invention as described above preferably comprises 25 to 35% by weight of potassium chloride (KCl), 30 to 40% by weight of zinc oxide (ZnO), 30 to 45% by weight of acidic clay. It is the content which the inventors found that the most efficient red tide removal effect was achieved.

Scientific investigations of red tide in Korea began since the 1960s. In the 1970s, 104 red tide occurred in Jinhae Bay since the red tide was seen in the vibrating bay near Jinhae Bay in 1961. Most of these red tide were caused by diatoms and did not have much interest because they did not have much damage. However, in 1978 and 1981, red tide caused by coarse algae caused great damage to the farms, and interest in red tide increased. Since 1981, the scope of occurrence has expanded from the sea near the south coast to all coasts such as Incheon, Ulsan, and Yeosu. Especially, since 1995, the Coclodinium red tide, which has occurred every year in the south and southeast coasts, caused great damage to the fish farms. Called up

When red tide occurs, it is either suffocated due to lack of dissolved oxygen in the water or poisoned by toxins produced by red tide organisms or by toxic substances such as secondary hydrogen sulfide, methane gas and ammonia. In addition, productivity is reduced, resulting in lower fish value. In particular, some species of flagella and green flagella have toxic toxicity to fish and shellfish.

In freshwater, almost algae and green algae are known to cause red algae and in the offshore Trichodesmium species are known to cause red algae. Wacoal algae occupy an important position in temperate and subtropical waters and have several flagellae. In coastal waters, diatoms and flagellae are mainly causing red tides. Particularly in temperate regions, diatoms in low water temperature and coarse algae in high water temperature cause red tide.

In Korea, there are no red tide records by anaerobic bacteria, mainly red tide due to phytoplankton, and one species of ciliary insects, protozoa, is causing red tide. Korean double type frequently appeared in the coast of the diatoms and the like into Skeletonema, Chaetoceros genus, Nitzschia in the flagellum algae may lie in Gymnodinium, Prorocentrum in, Heterosigma in, Noticula.

In Compared by waters in the Yellow Sea in Noticula in Donghae South was red tide frequent observation in Prorocentrum in, Heterosigma, the south coast showed a very different pattern red tide organisms usually Masan and haengam only flagella birds of Prorocentrum in, Heterosigma trick, only with original dangdong only Jinhae, etc. in the western waters and the Cochlodinium cheat frequent occurrence with Gymnodinium in, Gonyaulax saryangdo in the surrounding waters are causing enormous damage to the stomach Cochlodinium farmed fish since 1989.

On the other hand, the year-to-year changes in red tide organisms have increased the frequency of the appearance of flagella algae. As such, red tide organisms migrate to flagella algae, and there is a case where a single species of algae occurs recently, causing direct damage. This means that long ago, the composition of seawater was stable on clean coasts, but as the pollution increased year after year, the environment deteriorated and changed to the nature of the seawater, which can breed species that can directly damage.

Red tide phenomena occurring not only in Korea, but also in coastal regions of the world, cause damage by directly killing marine organisms or consuming oxygen secondaryly, depending on the composition and concentration of the organism. Therefore, many researches have been made on the cause of red tide, but the red tide generating mechanism is still very complicated and it is not fully understood.

The results of the previous studies show that the red tide is a closed sea within the sea where there is little seawater exchange with the ocean, and the vitamins and irons that promote the nutrients and growth necessary for the growth and reproduction of red tide organisms by precipitation and precipitation of land from the land. Trace elements such as manganese and manganese are known to occur frequently in places where they are abundantly dissolved in seawater.

It is known that the concentration of red tide is more than 0.1ppm of nitrate and 0.015ppm of phosphate, but especially silicate acts as a limiting factor for the growth of diatoms and nitrate and phosphate as a limiting factor for the growth of flagella algae. It greatly contributes to the occurrence of cilia red tide. Second, red tide grows rapidly if the amount of sunshine needed for photosynthetic activity is sufficient and the temperature of seawater is suitable for growth. This is why red tide usually occurs in the temperate regions from spring to autumn when the sea water temperature is 15 ~ 25 ℃. On the other hand, the red tide phenomena last for a long time in the closed waters only when the above environmental conditions are formed and the topography and seawater exchange are low.

Red algae can be divided into diatoms and flagella algae, but because of their different physiological characteristics, there are differences in the mechanism of development. The appearance of red algae caused by flagella algae does not require a large amount of silicate, but unlike the growth of diatoms, in addition to the general limiting factors, it is greatly influenced by growth promoting substances such as vitamins, trace metals and special organics from the land. Became known.

In addition, most flagella algae that cause red tide form dormant spores and spend inadequate periods, such as winter, in low quality, and when the environment is appropriate, these spores germinate, rise to the surface, and multiply rapidly to cause red tide. Recent red tide phenomena occurring in the seas where organic materials are deposited abundantly shows that dormant spores are deeply involved in the occurrence of red tide due to the annual occurrence of red tide by the same species regardless of season.

Thus, in the case of the single-tide red tide, only the organisms that can adapt to a particular environment in a certain sea area are reproduced, so they often develop into red tide by a single species. However, the physiological growth identified in respect of plankton algae that cause red tides in the country off the coast of flagella in Prorocentrnm, Scrippsiella in, Alexandrium genus, Ceratium but not many studies with respect to most of the red tide organisms.

In the above, the outline of the red tide has been examined. As can be seen, the biggest factor among the causes of red tide is the increase in nutrients.

'Nutritive Salts' is a general term for 'silicates, phosphates, nitrates and nitrites' in seawater. Nutrients are constituents and foods that make up the phytoplankton's body.

Therefore, in order to prevent and remove red tide, silicon (Si), nitrogen (N), phosphorus (P), etc., which are the food of the red tide, should be blocked. To this end, it is necessary to utilize magnesium (Mg). However, since pure magnesium is expensive and highly reactive, it reacts violently in the air, so it is difficult to store and preserve it.

However, magnesium in the high soil system forms magnesium hydroxide [Mg (OH) ₂ ] in the sea, while 'high earth magnesium hydroxide' has low solubility in water and has low activity and precipitates in the sea, causing benthic organisms. There is a problem of choking. Problems still exist even when high activity magnesium hydroxide having an activity of 100 or more is utilized.

Magnesium hydroxide, which has high activity, can dissociate into Mg and OH ions in the sea to form an alkaline protective film on the surface of organic material to block red tide's food, but it cannot protect the red tide's food supply by protecting all organic matter. There is a problem that can not fundamentally cope with heavy metals and hydrogen sulfide in the sea. In other words, there is a slight effect on the removal of a little red tide, there can be no great effectiveness.

Quick lime (CaO) is used to remove sulfate ions, one of the causes of red tide, which causes other serious problems because it combines with sulfate ions to form lime (CaSO ₄ · 2H ₂ O). Sulfate ions can be reduced once, but gypsum forms a film on the surface of the sea to block dissolved oxygen in the water, so there is a problem of suffocating shellfish and aquatic organisms under the gypsum film.

Iron is also sprayed to lower acidity in the water, which has the adverse effect of helping to reproduce red tide because it promotes the growth of organisms that are red tide, along with young salts, vitamins and manganese.

As described above, when one chemical is used for the purpose of solving the red tide, the material causes another problem.

Just as medicines that are useful to humans are made by mixing several medicines according to prescription, red tide should use various chemicals that have various advantages and do not cause secondary problems.

In order to solve the above problems and effectively relieve red tide, it is necessary to take a method of sterilizing the red tide itself rather than modifying the surrounding environment of the red tide.

Breaking the food chain is virtually impossible due to the continuous inflow of organics from the land, and the method of precipitating red tide into the sea creates secondary environmental pollution.

Therefore, there is a need for a method of eliminating red tide by penetrating the cell wall of a red tide organism and destroying its protoplasm.

Plankton are creatures that do not have their own motor skills or are very weak and passively acting. They are also called floating organisms.

Phytoplankton and zooplankton are classified according to whether they are autotrophic or heterotrophic. Usually, the amount of phytoplankton is higher. Phytoplankton include diatoms, cyanobacteria, green algae, and flagella algae. Most of the causative agents of red tide in the sea are diatoms and flagella algae.

Since diatoms and flagella algae are phytoplankton, they have cell walls and membranes (animal plankton usually has only cell membranes). In order to penetrate it, the mixed composition according to the present invention is used.

The diagram is as follows.

TABLE 1

The above composition ratio is the result of finding the most suitable golden ratio through the experiment. The particle size is all finely purified particles of less than 1㎛ and prepared by mixing in powder form. Spraying the mixture made on the red tide is very helpful in cleaning the dead tide by penetrating the red tide cell wall to destroy the plasma to remove the red tide, as well as naturally accumulating the red tide by agglomerating the dead tide.

Hereinafter, the red tide removing composition according to the present invention will be described in detail with reference to the following examples. It is apparent that the present invention is not limited by the embodiment.

<Red tide removal experiment example>

About 5,000,000 cells of red tide plankton were added to 1 liter of water, and 0.3 g of red tide removing composition prepared in the above-described manner was repeatedly tested. The results are shown in [Table 2].

Table 2 Experimental Results

As shown in Table 2, the composition for red tide removal according to the present invention can be seen that the repetition test results, very excellent relief efficiency.

Looking at the mechanism from red tide generation to damage, various land wastes such as factory wastewater, domestic sewage, fertilizers, pesticides, livestock and human manure are introduced into extended fisheries by rivers or rainwater, and food residues from fish farms When feces accumulate in the ocean floor, these deposits are deposited by bacteria by depositing in the bay or in the bottom of the body where the algae are not active.

By decomposing the above-mentioned organic matters, hydrogen sulfide (H ₂ S) and nitrogen and phosphorus, which are the foods of plankton, are adversely affected, resulting in green algae in red tide and fresh water in sea water, and these red and green algae reduce dissolved oxygen in water In addition, toxic algae and green algae plankton are produced to kill fish and shellfish. In addition, the productivity of aquatic organisms is reduced and further causes many problems such as environmental destruction.

In addition, due to the red tide generated by the oxidative decomposition of the organic matter of the seabed in the bottom of the acetic acid or organic acid to produce an acid of ph <7 or less. In addition, because oxygen is consumed as organic matter is oxidized and depleted, oxygen is depleted in the seabed, and sulfuric acid ions are reduced by the activity of anaerobic bacteria, `` Acetic acid, Lactic acid, Propionic acid '', which generates hydrogen sulfide, which is toxic to aquatic organisms Let's do it. Hydrogen sulphide dissolves in seawater to produce acidic water. Undissolved hydrogen sulphide is toxic, causing a lot of damage to aquatic life.

The bottom of the sea where organic matters from the land settled contains a lot of phosphate and heavy metals. Phosphate becomes food for plankton causing red tide and green algae, causing red tide by eutrophication, causing much damage to fish and shellfish. Heavy metals elute into water, contaminating seawater and poisoning fish and shellfish.

The mixed composition according to the present invention has a secondary effect of preventing red tide, in addition to the primary effect of removing red tide.

The red tide removing material prepared by the above-described method has the effect of removing the red tide by destroying the intracellular plasma of the organism causing the red tide within a short time.

After removing red tide, it is dissolved in sea water and has no problem of secondary environmental pollution caused by turbidity of water like ocher, and it has the advantage that it can be mass-produced at low price.

Claims (1)

25 to 35% by weight of potassium chloride (KCl), 30 to 40% by weight of zinc oxide (ZnO), and 30 to 45% by weight of acidic clay.