KR20090050643A - The product method and nutrient of land - Google Patents

Abstract

The present invention relates to a soil improving agent using a oyster shell as a main raw material and a manufacturing method thereof. More specifically, the oyster shells of the south coast that are increasing day by day are efficiently processed, so that the oyster shells in the form of 150 mesh are mixed with the loess in the form of particles around 150 mesh and the illite in the form of particles around 150 mesh. It relates to a soil improving agent and a method of manufacturing the same as the main raw material to improve the oyster shell.

Therefore, by neutralizing the soil that is acidified by the soil improving agent prepared in the present invention, it is possible to promote crop growth by increasing the intellect of the soil at the time of disclosure, saving the soil that is being degraded, and supplying active minerals necessary for the growth of crops. It also helps to control insect pests, and in particular, many pores are formed in processed oyster shells, which are effective for the habitat of hawks, and the growth and growth of crops is enhanced by far-infrared rays, which are radiant rays radiated to ocher and illite. This invention can contribute to the increase and is also useful for resource recycling.

Oyster shell, ocher, illite, soil improver

Description

Soil modifier based on oyster shell and its manufacturing method {The product method and nutrient of land}

The present invention relates to a soil improving agent using a oyster shell as a main raw material and a manufacturing method thereof. More specifically, the oyster shells of the south coast that are increasing day by day are efficiently processed, so that the oyster shells in the form of 150 mesh are mixed with the loess in the form of particles around 150 mesh and the illite in the form of particles around 150 mesh. It relates to a soil improving agent and a method of manufacturing the same as the main raw material to improve the oyster shell.

In general, the large-scale spraying of various inorganic chemical fertilizers and pesticides sprinkled indiscriminately on farmland every year eventually accumulates in the ground enough to lose the self-cleaning ability of the soil due to the components absorbed and left by the crops. The reality is that As the soil is rapidly acidified and the food of microorganisms in the soil gradually decreases, the activity of microorganisms decreases and the generation of gas is suppressed due to the lack of organic matter that microorganisms need to decompose, so the soil's small space is lost. This loss has adversely affected crop growth. In order to cultivate various crops on farmland that is losing its intellect, more and more chemical fertilizers and pesticides are sprayed than before. Therefore, conventionally, in order to solve the above problems, various types of soil improving agents such as red soil or lime or siliceous fertilizer have been used, but there is a limit in restoring soil or soil in which acidification becomes. In addition, the soil improver of the present invention has the advantage that can be supplied at a very high practical price and low cost.

The present invention efficiently handles the oyster shells in the south coast, which is increasing day by day, by mixing oyster shells in the form of particles of 150 mesh and ocher in the form of particles of about 150 mesh and illite in the form of particles of about 150 mesh. The present invention aims to provide a soil improver based on oyster shells that can be improved and a method of manufacturing the same.

If the conventional soil improvement manufacturing soil as described above may cause side effects on the growth of crops due to unaged soil, lime or siliceous fertilizer particles enter between the soil particles of the soil using lime or siliceous fertilizer. As the small space is blocked, the soil is gradually hardened. As a result, oxygen is depleted in the soil, and various microorganisms in the soil lose their habitat, resulting in low soil fertility and acidification, and adversely affect crop growth. The fundamental problem is not solved.

The present invention was devised to solve the above problems, and by modifying the surface of calcium carbonate (CaCO ₃ ) obtained from the oyster shell to increase the surface area and at the same time to give a porous porous space in the soil to smoothly distribute the air. By making the habitat of various microorganisms in the soil, the activity of microorganisms can be enhanced. In addition, ocher is composed of layered structure and has high porosity on both sides, which has high ion exchange capacity and activates cation adsorption on gelatinized soil by activating ion exchange between soil particles and crop roots. It is an object of the present invention to provide an effective soil improving agent that can contribute to the increase of income by helping the absorption of the cation adsorbed to the crop roots and serves as a catalyst for crop growth.

The present invention is a method for producing a soil improver, the first step: washing the oyster shell in running water to remove the salt and heated to a temperature of 790-940 ℃ 40-100 minutes and then fired into a mill of 150 mesh through a pulverizer Making a step; Second step: extracting the illite by exposure to air drying for 10-30 days, and then pulverizing the particles into 150 mesh particles through a mill; Step 3: naturally drying the loess collected in the exposure for 5-15 days, calcining for 1-3 hours at a temperature of 700-900 ° C. through an electric furnace, and then pulverizing it into 150 mesh particles through a grinder; 4th step: 40-80% of oyster shells, 10-40% of illite and the shortage at the weight ratio by adding the loess and stirring; It is a manufacturing method of soil improver based on oyster shell which is manufactured through the process and improves the intellect of land.

According to the present invention, the first to third steps are a method for producing a soil improver using oyster shells as a main raw material which can selectively change the order of the steps.

In the present invention, in the soil improving agent, the oyster shell is 40-80%, the illite is 10-40%, and the shortage in the weight ratio is the soil improving agent whose main raw material is the oyster shell which improves the intellect by agitating evenly by adding ocher. .

Soil improver completed in the present invention made of the above configuration has a very excellent effect that can neutralize the soil acidified day by day and improve the intellect on soil, as well as rich in trace elements necessary for the growth and growth of crops Far-infrared rays, which are the growth rays radiated from the soil reforming agent, stimulate the growth and growth of crops, and contribute to income growth by utilizing the growth of crop roots. The effect that can be prevented is also great.

In addition, the soil improver of the present invention has the advantage that can be supplied at a very high practical price and low cost.

The present invention is a method for producing a soil improver, the first step: washing the oyster shell in running water to remove the salt and heated to a temperature of 790-940 ℃ 40-100 minutes and then fired into a mill of 150 mesh through a pulverizer Go through the steps. In other words, the remaining oyster shells are rinsed thoroughly with running water. At this time, to remove the salt attached to the surface of the oyster shell, when the salt is contained and mixed with the soil, it is possible to suppress the production of organic matter because it can be suppressed. The oyster shells thus washed are calcined by heating at a temperature of 790-940 ° C. for 40-100 minutes. Through this process of calcination, oyster shells can penetrate deep into the ground, filling the voids and improving the intellect to help produce organic matter. Of course, a number of conditions during the manufacturing process of the oyster shell in the present invention has been verified as the optimum value through a number of experiments by the applicant of the present invention. In other words, it is possible to produce similar types of oyster shells, loess, and illite through conditions other than this value, but soil improvers using components outside the optimum conditions are significantly inferior to the effect of improving the strength. In any case, the oyster shells thus prepared are pulverized into 150 mesh particles through a grinder to complete a single configuration. The particle size of 150 mesh used here conforms to the particle shape of the vast majority of land in Korea, and it is most desirable to produce a particle size that can sufficiently penetrate the soil.

On the other hand, in the present invention, the second step: the illite is taken from the exposure and allowed to dry naturally for 10-30 days, and then pulverized into 150 mesh particles through a grinder. The illite is a mineral that emits negative ions, which is distributed on land and has a beneficial effect on the growth of organic matter, and its effect can be further enhanced through proper processing. Of course, in the case of the illite it is also advantageous to crush the size of about 150 mesh for coordination with the other components ocher and oyster shell.

Finally, the present invention is the natural drying of the ocher collected in the third step: exposure for 5-15 days, then calcined for 1-3 hours at a temperature of 700-900 ℃ through an electric furnace, into a particle of 150 mesh through a grinder Go through the grinding step. The loess of the present invention, which is caused by a large amount of far-infrared rays, has already been known in its effect, but a number of harmful microorganisms present in the interior of the loess through the process of calcining it at a temperature of 700-900 ° C. for 1-3 hours through an electric furnace. By killing them and creating optimal conditions for new microorganisms or organic matter to be regenerated.

Next, the present invention is the fourth step: 40-80% of the oyster shell, 10-40% of the illite and the shortage in the weight ratio goes through the step of evenly stirring the ocher. In other words, according to the purpose of effectively using huge oyster shells, the amount of oyster shells thrown away in our country is to be made, and soil amendment is produced by inputting a small amount of illite and loess which are costly. Applicants of the present invention confirmed the result of the soil improving agent is low in the manufacturing cost, and any other improving agent does not follow in the effect of improving the soil.

Meanwhile, in the present invention, the first to third steps may selectively change the order of the steps. In other words, the ocher may be produced in advance, or the illite may be produced in advance. The order is not important.

Lastly, the present invention is a soil improver, the oyster shell 40-80%, the illite 10-40% and a shortage in the weight ratio by adding the loess is stirred stirring evenly to improve the intelligence. In other words, the very soil improvement is produced through the above-described manufacturing method is a big feature of the present invention.

The following describes in detail the characteristics and embodiments of the elements and components of the present invention during the process of carrying out the present invention.

In order to achieve the above object, the present invention has the following characteristics. The oyster shells of the southern coastal area that increase every year are efficiently treated to form 150-mesh particles of oyster shells of about 65 to 75% by weight and particles of about 150 mesh. It is characterized in that 10-15% by weight of activated illite is mixed. In the present invention, the oyster shells were collected and washed in order to produce calcium carbonate (CaCO ₃ ), which is a main component of the soil improving agent, from the oyster shells produced annually in the southern coastal oyster farms. It is characterized by consisting of a heating process for heating for 80 minutes at each temperature ℃. Oyster shells had a specific gravity of 2.06, a pH of 9.01, and chemical compositions of oyster shells.

Table Chemical Composition of Oyster Shells

ingredient CaCO ₃ SiO ₂ MgCO ₃ P ₂ O ₅ K ₂ O Etc percentage(%) 93.92 1.32 1.16 0.35 0.12 3.13

The loess used as the soil-improving agent in the present invention was used to collect high-quality loess from Namhae-gun area and the physical properties of the loess are as follows. As shown in Fig. 1, the crystal structure of ocher is a three-layered structure having a 2: 1 layered structure, and a tetrahedral sheet composed of a combination of Si and O and an octahedral sheet composed of a combination of Al and O are represented by Tetrahedra-Octahedral-Tetrahedra Sheet. Likewise, it is a 2: 1 type structure in which three sheets repeatedly overlap to form one layer.

Such structural characteristics are caused by negative charges caused by Isomorphic Substitutuins such as Al ^{+ 3} ions instead of Si ⁺⁴ ions in tetrahedral and Mg ⁺² and Fe ⁺² ions instead of Al ⁺³ and Fe ⁺³ ions in Octachedral. Na ⁺ , Ca ⁺² , Mg ⁺² , and H ⁺ ions are weakly attached. The physical properties of loess are shown in Table 2 and the chemical composition of loess is shown in Table 3.

Table 2. Physical Properties of Loess

Mineral structure 2: 1 type (both voids) Specific surface area (BET type) 35.3-48.15 Cation exchange capacity (mep./100g) 80-150

Table 3. Chemical Composition of Ocher

ingredient SiO ₂ Al ₂ O ₃ Fe ₂ O ₂ CaO K ₂ O MgO TiO ₂ ocher 63.5 117.9 3.1 2.6 0.6 4.0 0.4

In the present invention, the illite mineral which is abundantly buried in the Yeongwol region and Danyang area of Gangwon-do used.

Table 4. Chemical Composition of Illite Minerals

ingredient SiO ₂ Al ₂ O ₃ K ₂ O Fe ₂ O ₃ CaO MgO P ₂ O ₅ Na ₂ O M ₃ O Etc percentage 78.45 14.72 2.97 1.23 1.15 0.32 0.22 0.21 0.08 0.05

Illite is a common mineral in sedimentary and hydrothermal rocks, and is one of the most important minerals in addition to kaolin and smectite. Feldspar: K ₂ O, Na ₂ O, Al ₂ O _{3 ,} 6SiO ₂ ] and dolomite [Muscovite: 1 / 2K ₂ O, 3Al ₂ O ₃ , 6SiO ₂ , 2H ₂ O] Contains K ⁺ , and its potassium element is one of the nutrients in the plant along with nitrogen and oxygen. Therefore, even when a small amount is dissolved in water, it is effective to promote plant growth. The illite is formed at a relatively high temperature compared to other clay minerals, and since K ⁺ exists between layers, the utilization of these characteristics is expected to increase its utilization gradually in terms of environment and is a high value mineral.

(Example 1)

In order to achieve the object of the present invention, the discarded oyster shells are collected in one oyster farm as described above and sufficiently washed to remove salt, and then the washed oyster shells are heated at temperatures of 660, 760, 860, and 960 ° C. in an electric furnace. The calcined oyster shells heated and fired for a minute were examined. When the oyster shell was put in an electric furnace and fired, the oyster shell baked at 660 ° C. was not completely removed from the organic matter. The oyster shell baked at 760 ° C. was satisfactory for removing pores and organic matter from the surface. Its strength was so weak that it was brittle and difficult to use. Therefore, the most preferable firing temperature is predicted to be 860 ° C., and the effect was remarkable to take the firing time of about 80 minutes. The chemical composition after calcining the washed oyster shell at 860 ° C. is shown in Table 5.

Table 5. Chemical Composition (%) of Oyster Shells calcined at 860 ° C

ingredient CaO MgO SiO ₂ P ₂ O ₅ K ₂ O Ignition content Etc content 54.2 0.65 0.61 0.32 0.02 43.35 0.79

The oyster shells calcined at 860 ° C. were processed into 150 mesh particles.

(Example 2)

High quality loess was collected from Namhae-gun, Gyeongnam, and dried in natural daylight for 10 days, then placed in an electric furnace, and calcined at about 850 ° C. for 2 hours, and then the calcined loess was pulverized into 150 mesh particles.

(Example 3)

The illite was collected under exposure in Yeongwol, Gangwon-do, and naturally dried for 20 days, and then pulverized into 150 mesh particles.

(Example 4)

The oyster shell obtained in Example 1, loess obtained in Example 2 and the illite obtained in Example 3 were added to the mixer in an appropriate ratio to mix, and then a soil improving agent was prepared in accordance with the object of the present invention.

(Example 5)

The soil improving agent obtained in Example 4 was compared with before and after spraying and treating 10 kg per pyeong of paddy field of cropland, and the soil improvement effect as shown in Table 6 was obtained.

Table 6. Soil Changes Before and After Soil Modifiers

pH Organic matter concentration (%) Siliceous (ppm) Calc (me / g) Effective Phosphate (ppm) Germanium (ppm) Before treatment 5.8 208 59.2 4.3 78.1 0.02 After treatment 6.7 3.6 210.5 5.9 91.2 9.1

Therefore, the soil improving agent obtained in the present invention was able to confirm useful soil improvement as shown in Table 6, and as a result of several experiments by the present inventors, it was confirmed that the growth and growth state of the crop was excellent after the treatment, and the yield was also significantly different. It was confirmed that it was shown.

Claims (3)

In the soil improving agent manufacturing method, First step: washing the oyster shell in running water to remove the salt, and heated and baked at a temperature of 790-940 ℃ for 40-100 minutes and then pulverized to 150 mesh particles through a mill; Second step: extracting the illite by exposure to air drying for 10-30 days, and then pulverizing the particles into 150 mesh particles through a mill; Step 3: naturally drying the loess collected in the exposure for 5-15 days, calcining for 1-3 hours at a temperature of 700-900 ° C. through an electric furnace, and then pulverizing it into 150 mesh particles through a grinder; 4th step: 40-80% of oyster shells, 10-40% of illite and the shortage at the weight ratio by adding the loess and stirring; Soil improver manufacturing method using oyster shell as the main raw material, characterized in that it is manufactured through the process to improve the landpower The method of claim 1, The first to third steps, A method for producing a soil improver based on oyster shells, characterized in that the order of the steps can be selectively changed. In soil improving agent, The oyster shell is a soil improving agent, mainly 40-80% oyster shell, 10-40% elite and a shortage in weight ratio.