KR20020037176A - Method for zeolite having potasium - Google Patents

Abstract

PURPOSE: Zeolite for kalium(K)-fertilizer, being substituted K for Na of zeolite, is provided to improve fertility of soil, to supply K ions to soil and prevent acidification of soil. CONSTITUTION: Zeolite for K-fertilizer is produced by the following steps: treating natural zeolite, clinoptilolite(100meq/100g of cation exchange capacity) ground to 4-125mesh, with ammonium salt to substitute NH4+ ions for Na+ ions(S10); heating NH4+ions-carried zeolite at 550-750deg.C to be hydrogen ions-carried zeolite(S20); treating with KOH to substitute K+ions for hydrogen ions by immersing 200g of zeolite in 200cc of aqueous solution including 7.8g of KOH(S30); heating K+-carried zeolite at 120-650deg.C after stirring at room temperature(15-35deg.C) for 1hr. at room temperature to remove water and raise purity of K(S50).

Description

Method for manufacturing zeolite for potassium fertilizer {METHOD FOR ZEOLITE HAVING POTASIUM}

The present invention is a method for producing a zeolite for potassium fertilizer, and more specifically, it is possible to enhance the intellect by the natural zeolite properties, as well as one of the three necessary elements of the plant by replacing the sodium contained in the natural zeolite with potassium It relates to a method for producing a zeolite for potassium fertilizer having potassium as a component.

Conventionally, as a source of potassium, plant-burned ashes and natural minerals containing potassium have been used, and chemically manufactured products have been supplied in the form of potassium chloride or potassium sulfate. However, such chemical preparation has been a problem for acidification of soil during long-term fertilization. In addition, potassium is loaded in natural bentonite and zeolite diatom furnace.

Among the materials described above, natural zeolite is used as an agricultural soil improver. Zeolite as described above is composed of porous clay minerals with a large cation substitution capacity, and thus has increased binding properties, adsorption of harmful components, and supply of special components, thereby increasing nutrient dissolution prevention effects, thereby increasing productivity.

About 40 types of natural zeolites have been found, but the zeolites mainly found in Korea are mordenite (MODERNITE, Na ₈ [(AlO ₂ ) ₈ (SiO ₂ ) ₄₀ ] .24H ₂ O)) and Noftiroolite (Clinoptilolite, Na ₆ [(AlO ₂ ) ₆ (SiO ₂ ) ₃₀ ] .24H ₂ O) and the like.

However, since all of the zeolites such as mordenite and cryoptirolite carry a large amount of sodium (Na), if the soil is fertilized in the long term, the side effects of the plant caused by the excess of sodium (Na) are concerned. To carry potassium (K) ions with high purity in the same natural zeolite, sodium (Na) ions supported in the above-described natural zeolite are hindered, and when potassium (K) ions are supported in the natural zeolite state, the supported sodium (Na) Some ions remain, and the remaining sodium ions tend to overalize the soil when a certain amount of zeolite is applied to the soil by a common ionic effect with potassium (K) ions.

The present invention has been made to solve the above problems, an object of the present invention is to remove the sodium from the zeolite mordenite and cryoptirolite and to carry the potassium to the potassium water in the soil soil as potassium ions in arable land The present invention provides a method for producing a zeolite for potassium fertilizer, which can be dissolved in high purity and suppresses the accumulation of sodium by mordenite or cryopyrolite.

1 is a flow chart sequentially showing a method for producing a zeolite for potassium fertilizer of the present invention.

The present invention for realizing the above object is the step of treating the natural zeolite with an ammonium salt to replace sodium ions with ammonium ions, and heating the zeolite bearing the ammonium ions to form a hydrogen ion-supported zeolite and By treating the zeolite bearing hydrogen ions with an aqueous solution in which potassium hydroxide is dissolved, substituting hydrogen ions and potassium ions, and heating the zeolite carrying potassium ions to increase purity.

Referring to the operation of the present invention made as described above are as follows.

To remove sodium ions supported on natural zeolites, ammonium salts containing ammonium ions having a greater tendency to ionize than sodium are substituted to replace sodium ions with ammonium ions, and the resultant is heated to replace zeolites with hydrogen ions. After forming, the resultant is treated with an aqueous solution of potassium hydroxide to displace hydrogen ions and potassium ions, and then the resultant is dried and volatilizable materials are volatilized to form zeolite for high-purity potassium fertilizer.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In addition, this embodiment is not intended to limit the scope of the present invention, but is presented by way of example only. 1 is a flowchart sequentially showing a method for producing a zeolite for potassium fertilizer according to the present invention.

As shown in the figure, first, the ammonium salt is treated with ammonium ions to replace the ammonium ions that are more likely to be supported than the sodium ions in order to remove the sodium ions supported by the natural zeolite, mordenite or cryopyrolite.

In the above step, 4 meshes of Clinofyrolite having a cation substitution capacity (CEC) of 100 meq / 100 g. After grinding to about 125 mesh, it is preferable to remove sodium from Clinofthyrolite by treating with NH ₄ salt in order to effectively remove sodium supported in Clinofthyrolite.

Then, the zeolite bearing NH ₄ ions was 550 ° C in air. Heated to a temperature range of 750 ° C (S2O) to form a zeolite loaded with hydrogen ions, and stored 200 g of the zeolite thus prepared in a sealed container, 7.8 g of KOH was dissolved in water to 200 cc, and then stored in the aqueous solution thus prepared. 200g of hydrogen ion-supported zeolite is deposited to replace hydrogen ions and potassium ions. (S30)

At this time, room temperature (15 ℃) in which Crinoproniolite was deposited in KOH aqueous solution. 35 ° C.) and stirred for about 1 hour (S40) to sufficiently replace potassium ions and hydrogen ions, and then heat in a temperature range to remove moisture and form a zeolite loaded with potassium ions with high purity to form a zeolite for potassium fertilizer according to the present invention. (S50)

As described above, the present invention, when the potassium (K) ion dissolved in the arable land is insufficient, fertilizing the zeolite made by the method of the present invention in the soil does not cause the problem of conventional potassium fertilizer, potassium (three essential substances of the plant ( K) has high purity, solubility in soil water, and furthermore, it has the effect of buffering soil pH, which can prevent acidification of soil.

In addition, the effect of zeolite can not only improve the soil strength of the soil, but also has the effect of continuously supplying potassium (K) ions to the soil.

Claims (5)

Treating the natural zeolite with an ammonium salt to replace sodium ions with ammonium ions, heating the zeolite carrying ammonium ions to form a zeolite bearing hydrogen ions, and treating the zeolite with hydrogen ions to treat hydrogen and potassium ions. Substituting the step, and heating the zeolite loaded with potassium ions to increase the purity zeolite manufacturing method for zeolite The method of claim 1, wherein the natural zeolite is a method for producing a zeolite for potassium fertilizer, characterized in that the mordenite and cryoptirolite The method of claim 1 wherein the zeolite 4 mesh when removing the sodium on the natural zeolite Zeolite preparation method for potassium fertilizer, characterized in that the grinding to about 125 mesh and treated with ammonium salt The zeolite according to claim 1, wherein a zeolite loaded with hydrogen ions having a natural zeolite cation exchange capacity (CEC) of 100 meq / 100 g is formed, and the zeolite is treated with potassium hydroxide solution to replace hydrogen ions and potassium ions with potassium hydroxide in 200 g of zeolite. Method for producing a zeolite for potassium fertilizer, characterized in that 7.8g is dissolved in water and deposited in an aqueous solution to 200cc The method of claim 1, wherein when the zeolite loaded with potassium ions is heated to increase the purity, the zeolite is stirred at room temperature for about 1 hour and then heated in a temperature range of 120 ° C. to 650 ° C.