KR100692969B1 - The manufacture method of the organic liquid fertilizer having functions - Google Patents

Abstract

The present invention is to prepare a functional organic liquid fertilizer by mixing nano silicate and nano selenium in an organic liquid fertilizer made of chitosan and amino acids using a saccharide as a base material, the functional organic liquid fertilizer prepared according to the present invention is a silicate is Instead of phosphate (P), it promotes rooting and cell differentiation, which helps to stabilize plants. Selenium is nanoparticles that are quickly and easily absorbed by plants. It is effective in improving history, immune function, reproductive function, cancer prevention and disease prevention.

Sugars, chitosan, amino acids, organic liquids, nanosilicates, nanoselenium, phosphoric acid

Description

The manufacturing method of the organic liquid fertilizer having functions}

The present invention relates to a method for preparing a functional organic liquid fertilizer, and more particularly, to prepare a functional organic liquid fertilizer by mixing nanosilicate and nano selenium with an organic liquid fertilizer made of chitosan and amino acids based on sugars. .

Conventional liquid fertilizer manufacturing method is to manufacture a mineral material such as germanium, selenium, zinc as a binder is disclosed in Korean Patent No. 259790 and Korean Patent Publication No. 2000-0001061 is a porous germanium ore powder A process for preparing a porous ore microbial complex powder fertilizer prepared by mixing with microbial culture medium after expansion at high temperature is proposed.

Meanwhile, Korean Patent Publication No. 2005-0015195 discloses a solution of germanium and selenium prepared by heating an aqueous solution of germanium and selenium mixed with water at a temperature of 90 ° C. or higher to sugar, honey, malt, glucose, gelatin, anhydrous lactose, and the like. A method for mixing and preparing a liquid fertilizer is provided.

However, germanium and selenium contained in the liquid fertilizer prepared in this way is not accurate in the amount of germanium and selenium contained in the aqueous solution containing the components, and mixed with the liquid fertilizer in the form of powder to foliar fertilization If you do, the particles are larger than the pores on the leaves or stems of the plant has a disadvantage that the plant is not easily absorbed.

In addition, most of the compound liquid fertilizer uses a monosaccharide or a polysaccharide of the base material, and monosaccharides or polysaccharides are easy to decompose, so the plant is quickly absorbed, so they grow quickly, but the roots are weak, and the plant life is short and the strength to withstand pests is weak.

Therefore, silicate is used to strengthen the roots and stems of plants, but general silicates are difficult to be absorbed by plants because they do not dissolve well in water.

The present invention has been made to solve the conventional problems. When producing liquid fertilizers that are good for plant growth using polysaccharides, chitosan, and vitamins, nanosilicates that have been nano-silicates and organo nano selenium are added to the liquid fertilizer manufacturing process. It is to provide a functional organic liquid fertilizer manufacturing method that is absorbed by plants to strengthen the roots and stems and at the same time nano selenium is absorbed by the plants to grow selenium plants good for the human body.

The present invention for achieving the above object,

Chitosan, amino acids, etc. are added to polysaccharides such as molasses, a raw material of liquid fertilizer, to make a base material, and cellulose, phosphoric acid, and calcium hydrogen are added to produce various types of liquid fertilizers depending on the purpose. It is to make liquid fertilizer.

The functional nanomaterial is nanoparticles of silicate and then dispersed in ultrapure water using a silica-based dispersant to prepare an aqueous nanosilicate solution of 5,000 to 20,000 ppm, and nanoparticles of selenium are dispersed in ultrapure water to be dispersed at high purity of 5,000 to 10,000 ppm. Prepared by the aqueous solution of selenium and then mixed with 1 to 3% protein by weight of the aqueous solution to prepare a mixed aqueous solution, the mixed aqueous solution was put into a high-pressure electrode cylinder supplied with a direct current of 10,000V with an iridium electrode plate and pressurized for more than 3 hours By combining the (+) electromagnetic of selenium and the (-) electromagnetic of nitrogen in protein, it is made of selenium-protein with protein attached to selenium. Selenium is absorbed by plant cell tissues and plants decompose protein and use it as growth material. At the same time, the selenium was configured to concentrate a lot in the plant.

Functional organic liquid fertilizers are prepared by adding polysaccharides, amino acids, chitosan, etc. as in the conventional composite liquid fertilizer manufacturing process, and then adding nanosilicate solution and nano selenium- to liquid fertilizer solution containing cellulose, phosphoric acid and calcium hydroxide. It is completed by mixing a protein aqueous solution.

Functional organic liquid fertilizer according to the present invention is made to include a nano silicate concentration of 50 to 2,000ppm, nano selenium-protein concentration of 2 to 50ppm.

The present invention provides a method for preparing a functional organic liquid fertilizer, in which nanosilicate and nano selenium-protein are added to a general organic liquid fertilizer, thereby promoting the growth of roots and stems of plants and allowing selenium to be adsorbed and stored in plants. It will be able to contribute to the improvement of human health by allowing the human body to directly consume the beneficial selenium with antioxidant effect.

Claims (2)

A method for producing a functional organic liquid fertilizer comprising 50 to 2000 ppm of nano silicate and 2 to 50 ppm of nano selenium-protein in preparing an organic liquid fertilizer. The method of claim 1, wherein the nano selenium-protein is prepared by mixing nanoparticles with selenium and dispersing it in ultrapure water to prepare a highly dynamic selenium aqueous solution of 5000 to 10000 ppm, and then mixing 1 to 3% of the protein in an aqueous weight ratio to prepare a mixed aqueous solution. And then producing the mixed aqueous solution by putting the mixed aqueous solution into a high-pressure electrode container supplied with a DC voltage of 10000 V having an iridium electrode plate and reacting the same.