KR20230123780A - Preparation of water soluble fertilizer for smartfarm to grow sprout ginseng - Google Patents

Abstract

The present invention relates to a water-line nutrient solution fertilizer composition that can be used for the cultivation of sprout ginseng, which is one of the specialized crops grown in smart farms, and a crop cultivation method using the same.
More specifically, it relates to the manufacture of a water-soluble nutrient solution exclusively for sprout ginseng cultivation, one of the specialized crops grown in smart farms, and to the manufacture of water-soluble nutrient solution exclusively used for smart farms. The water-soluble nutrient solution in this patent does not have the problem of clogging with drench when used in smart farms, and by promoting the absorption of nutrient solution, it is possible to improve the productivity of crops by increasing the growth rate of plants.

Description

Water-soluble nutrient solution manufacturing technology for smart farm for sprout ginseng cultivation {Preparation of water soluble fertilizer for smartfarm to grow sprout ginseng}

The present invention relates to a water-line nutrient solution fertilizer composition that can be used for the cultivation of sprout ginseng, which is one of the specialized crops grown in smart farms, and a crop cultivation method using the same.

Depending on the type or variety of crops, the appropriate range of minerals that indicate optimal growth is different, and growth is excellent when essential minerals are properly supplied, and unique symptoms occur when minerals absorbed from the roots are insufficient or exceeded in an appropriate amount. [Bennett, 1993; Nelson, 2003] Since nutrient solution cultivation was put into practical use, great efforts have been made to develop nutrient solution management methods for each crop that are reasonable for each growth stage. Korean raw nutrient solution, Yeokgyeong

Original Japanese nutrient solution prepared for cultivation, Yamazaki nutrient solution based on the ratio of nutrient and water absorbed by plants [Yamazaki, 1984], nutrient solution prepared by the Netherlands Greenhouse Crop Research Institute [Sonneveld and Straver, 1992], etc. A variety of nutrient solutions for each crop based on them have been developed. Dedicated nutrient solution fertilizers used in domestic and foreign facility horticulture industry cause severe precipitation when dissolved in water, so in general, after dissolving the exclusive nutrient solution fertilizer composition separated into A solution and B solution, expensive exclusive nutrient solution is supplied A method of supplying crops by mixing the device is common. In order to solve this problem, research on high-quality and high-productivity nutrient solution considering the characteristics of each crop [Gyonggi ARES, 2002], fertilization cultivation technique [NIHA, 2003], and commercialization that links the nutrient solution supply system to supply it [NHRI, 2006] Research is ongoing.

The present invention relates to a manufacturing technology of a water-soluble nutrient solution for crops grown in a smart farm. In particular, it relates to a culture medium used for nutrient solution cultivation and a manufacturing method thereof. As the cultivation of greenhouses and specialized crops has recently increased, interest in nutrient solution cultivation is increasing. Nutrient culture is a method in which water and nutrients necessary for the growth of crops are not supplied from the soil, but a culture medium in which nutrients are dissolved in water in an appropriate ratio is made and supplied together with oxygen to be used for crop cultivation.

However, since the nutrient solution used in smart farms is composed of inorganic materials, there is a problem in absorbing the nutrient solution for use by crops due to precipitation. Therefore, in the present invention, an invention for preparing a water-soluble nutrient solution was performed to solve these problems.

In order to solve the above problems, an object of the present invention is to provide a water-soluble nutrient solution and a method for preparing the same for improving the productivity of crops by accelerating the growth rate of plants by completing a technology for producing a water-soluble nutrient solution.

When the water-soluble nutrient solution prepared according to the above invention is used in smart farms, it is possible to enhance the growth of crops grown in smart farms by enhancing clogging or absorption into crops by irrigation that may occur due to precipitation.

1 is a production prediction model of water-soluble (organic passivation) minerals,
2 is a water-soluble mineral manufacturing process.

In order to complete the above invention, the inventors have conducted research to improve the water solubility of the nutrient solution, and the contents are presented through examples.

Selection of Substrates for Nutrient Solution

In this study, nucleic acid (GMP, guanison 5'-monophosphate) and vitamin C (L-ascorbic acid) selected as candidate substrates that can chelate minerals required for each crop while increasing the mineral chelating ability were evaluated. The results of evaluation based on saturation and water solubility (non-precipitation) of selected silver minerals are as follows. Nucleic acids are listed as “food additives (listed in the Food Codex Codex, Ministry of Food and Drug Safety)” (ensure human safety), and through preliminary analysis related to previously reported “multifunctionality (growth, immunity enhancement, disease prevention, etc.) of nucleic acids” It was noted that the use and applicability of the selected material can be infinite depending on the direction of research and development. Paying close attention to the fact that the selected nucleic acid contains a large amount of water and molecular weight (MW: 500 or less) that is directly related to bioabsorption, and evaluating the chelating ability of each nucleic acid type and prior mineral, it was found that the possibility was sufficient. Slight precipitation occurred beyond the maximum saturation of minerals required by the crop. The saturation of the two developed chelated mineral fertilizers, which were chelated using vitamin C as a chelating agent based on selected minerals as raw materials, contained enough selected minerals and showed non-precipitated properties. The NPK content (%) of seedlings and fruiting plants was 18.9 : 3.14 : 3.97 and 7.14 : 2.93 : 23.6, respectively, and 10 types of inorganic minerals were included (Table 3). was included (Table 5). Therefore, vitamin C was selected as the chelating agent in this study because it showed water solubility (non-precipitation) while maintaining saturation that can sufficiently contain the selected minerals than the previously prepared GMP-Ringer.

Manufacture of nutrient solution with vitamin C as substrate

This is the result of evaluating the properties after the organic passivation reaction of organic passivation fertilizers prepared using vitamin C as a substrate and evaluating the production efficiency of the final manufactured fertilizers. As a control, when dissolving only inorganic minerals, it was confirmed that the solubility was significantly reduced due to precipitation due to the reaction between minerals. By chelating inorganic minerals to vitamin C, it was confirmed that non-precipitation, non-solidification, non-adherence, non-floating, and non-gelling non-precipitation nutrient solution fertilizer was developed by increasing the solubility. In addition, the colors of liquid AGH-Ringer seedlings and AGH-Ringer deletions were dark brown and light brown, respectively. Production yield evaluation was evaluated by the weight obtained by drying the liquid fertilizer compared to the mineral content added in the manufactured fertilizers. As a result, the production yield was 94.8% in the case of liquid AGH-Ringer, and 91.6% in the case of AGH-Ringer deletion. The reason why the yield was lower than 100% was judged to be due to the effect of moisture lost during the production of AGH-Ringer, and it was confirmed that the production yield of AGH-Ringer growth and fruiting was approximately 100% (Table 12). However, in the case of powder AGH-Ringer superfine and AGH-Ringer deletion, there was no problem with powder coagulation or solubility, but the production yield was confirmed to be significantly low at 69.1 and 72.8%, respectively.

Evaluation of properties and efficiency of nutrient solution evaluation items Development of Vitamin C Substrate Organic Fertilizer for the first time for fruit property evaluation
(pre-centrifugal/post-centrifugal) appearance precipitation ― / ― ― / ― coagulation ― / ― ― / ― Attach ― / ― ― / ― floating ― / ― ― / ― gelation ― / ― ― / ― solubility +++ / +++ +++ / +++ color dark brown light brown Production yield evaluation Dry weight (g) 15.0 15.0 dry weight (g) 5.85 (39%) 4.2 (28%) Production yield (%) 94.8 91.6

Method for producing water-soluble nutrient solution

In this patent, in order to establish a manufacturing method for organic passivating fertilizers, a chelating agent, vitamin C, and minerals were mixed to select the optimal mineral mole ratio of chelate at the laboratory level ( in vitro ). Therefore, by using vitamin C as a chelating agent selected in Example 1, a large amount of minerals such as ammonium nitrate (NH ₄ NO ₃ ), potassium phosphate monobasic (KH ₂ PO ₄ ), and magnesium nitrate (Mg (NO ₃ ) _{2 6} H ₂ O), calcium nitrate (Ca(NO ₃ ) ₂ 10H ₂ O) and trace minerals EDTA-iron (Fe-EDTA), boric acid (H ₃ BO ₃ ), copper sulfate (CuSO ₄ 5H ₂ O), zinc sulfate (ZnSO ₄ 7H ₂ O), manganese sulfate (MnSO ₄ H ₂ O), and molybdenum soda (Na ₂ MoO _{4 2} H ₂ O). The method for preparing an aqueous nutrient solution is as follows. .

A) Put purified water in a 10L beaker.

B) Weigh the minerals and mix them in a beaker containing purified water (refer to Table 8, add the minerals corresponding to the AGH-Ringer seedlings and fruits separately).

C) Put an impeller into the mixture and stir it with a stirrer at a constant speed (rpm 4).

D) After 30 minutes of stirring, vitamin C is added (the turbidity of the mixed solution before addition is opaque)

E) The reaction was performed while stirring for 24 hours so that the added minerals and vitamin C could be chelated.

f) After the reaction is complete, check the transparent dark brown product (AGH-Ringer ultrathin, AGH-Ringer deletion).

A process chart for the manufacturing process is shown in FIG. 2 .

Claims (3)

In water-soluble nutrient solution, technology for producing water-soluble nutrient solution by binding vitamin C to mineral ions for nutrient solution
The technology of cultivating crops according to claim 1 using the water-soluble nutrient solution prepared as in claim 1 The method of claim 1, the technology of using the water-soluble nutrient solution prepared as in claim 1 in a smart farm