KR20010098992A - The preparation method of calcium hydrogen citrate and calcium citrate used as lime stone or shells - Google Patents

Abstract

The present invention relates to a method for producing calcium citrate using limestone or shellfish and citric acid. Specifically, by reacting calcium carbonate powdered with 50 to 325 mesh of shellfish or limestone such as oyster shells, corneas, and clams with citric acid. It relates to a method of producing calcium hydrogen citrate or calcium citrate. The present invention relates to a method for producing calcium hydrogen citrate or calcium citrate by reacting calcined shells or quicklimes calcined with shellfish and limestone at 800 to 1300 ° C. with citric acid.

Description

The preparation method of calcium hydrogen citrate and calcium citrate used as lime stone or shells}

The present invention relates to a method for producing an organic calcium by reacting calcium salts such as limestone or shellfish with an organic acid, and more particularly, by reacting limestone, calcium carbonate, quicklime, calcareous, shellfish, calcined shells with citric acid, and the like. Calcium hydrogen citrate and calcium citrate will be prepared. In particular, shellfish, which are calcium compounds made by living organisms, are excellent in production cost and physical properties and are suitable for food use. As a manufacturing method for a conventional water-soluble organic acid calcium salt in the Republic of Korea Patent No. 1996-0001421 was prepared by reacting the shell powder in a 35-45% acetic acid aqueous solution at room temperature, dried to produce an ionized calcium. 40% sodium hydroxide was reacted again at room temperature and dried to prepare calcium hydroxide. In Korean Patent No. 0173556, a shell was dissolved in vinegar containing 1 to 3% citric acid to prepare a shell solution containing 1.5% or more of useful minerals. In Korean Patent 10-0238838, the oyster shell powder is pulverized and calcined to obtain a small powder, which is acid-treated in acetic acid solution to adjust the pH to prepare an activated solution, and dried to obtain a powder carrier, and again acetic acid and water The addition of the activation solution was made, and an inorganic antimicrobial agent was prepared after ion exchange by adding metal ions including antimicrobial metal ions. In addition, Japanese Patent Application Laid-Open No. 2001-0044280 discloses a patent application relating to a method for producing calcium lactate in which shells are calcined to react with lactic acid to produce calcium lactate.

As described above, in the conventional technology using acid and shellfish, organic acid calcium was prepared mainly using acetic acid and lactic acid. That is, calcium lactate and calcium acetate are not so suitable for foods such as drinks because of their strong sour taste. In the present invention, it is intended to prepare calcium citrate or calcium citrate suitable for food use.

The present invention produced expensive hydrogen citrate and calcium citrate by reacting shellfish or calcium carbonate, which is piled as waste in Korea, with citric acid. In domestic functional beverages, citric acid is added a lot, but beverages in which expensive calcium citrate and calcium citrate are added are rare.

Therefore, the present invention can provide a colorless, tasteless, and odorless calcium citrate suitable for transparent beverage food as a production method capable of producing a large amount of calcium citrate and calcium citrate to contribute to national health.

1 is a manufacturing process of calcium hydrogen citrate according to the present invention.

Figure 2 is a process for producing calcium citrate according to the present invention.

The present invention collects shellfish such as oyster shells piled up on the shore and increases the profits for fishermen's aquaculture business, solves the calcium deficiency that occurs in modern people, and supplies large amounts of calcium at low prices to the beverage market. In order to do this, calcium hydrogen citrate and calcium citrate were prepared after many years of research.

The present invention will be described in more detail as follows. First, the shells collected on the shore are collected and washed, and the surface impurities are removed and dried naturally to prepare 50-325 mesh shell powder using a grinder. The prepared shell powder is made of calcium hydrogen citrate and calcium citrate by reacting with citric acid.

That is, the shell powder containing the impurity is added to the citric acid aqueous solution to prepare a reaction formula (2). In this case, the shell is reacted with citric acid to transfer to a transparent aqueous solution of calcium citrate, and impurities (SiO ₂ , organic matter, etc.) are present without being dissolved. In addition, the shell powder is added in an amount less than the equivalent ratio of dissolved citric acid to the extent that the degree of supersaturation does not occur to prepare an aqueous solution of calcium citrate. This aqueous solution is prepared as an aqueous solution containing transparent calcium citrate and citric acid by removing impurities in the reaction (3). This aqueous solution is converted into calcium hydrogen citrate using a small amount of calcium carbonate, calcium oxide, calcium hydroxide, pure shell, calcined shell, and the like in the reaction formula (4-1). Then, supersaturation occurs due to the increase of calcium citrate in the liquid, and the calcium citrate precipitates in crystalline form. Crystallized calcium citrate is filtered off to produce pure calcium citrate. Calcium hydrogen citrate manufacturing process of the present invention is shown in FIG. In addition, the aqueous calcium citrate solution prepared in Scheme (3) is prepared by using a large amount of calcium salt in Scheme (4-2). The manufacturing process of the calcium citrate of this invention is shown in FIG.

The present invention through the following examples in more detail.

[Example 1] The oyster shells of the shore are collected and washed with water, and after the natural drying, impurities remaining on the surface of the oyster shells are removed as much as possible. The shell from which impurities are removed is dry milled to 50 to 325 mesh.

[Example 2] The pulverized shell of Example 1 was calcined at 800-1300 ° C. using a bogie furnace or a rotary furnace to prepare a calcined shell (quick lime), followed by hydration to prepare calcined lime.

Example 3 In order to measure the degree of supersaturation of calcium citrate in accordance with the concentration of citric acid in an aqueous solution, 20 g of citric acid was dissolved in 1000 ml of water to prepare an aqueous citric acid solution. It converts into 27 g of calcium citrates by 1), and turns into transparent aqueous calcium citrate. However, when the total amount of calcium carbonate added is 12 g, calcium citrate is supersaturated in aqueous solution, and calcium citrate precipitates as crystals through nucleation and growth. Therefore, it is shown in Table 1 by measuring the amount of calcium carbonate added until supersaturation starts to occur.

[Examples 4 to 7] In Example 3, the concentration of citric acid was changed to 40, 100, 200, and 400 g, and the amount of calcium carbonate added until each hydrogen citrate was supersaturated was measured. 1 is shown.

Example 8 A batch reactor with a capacity of 1500 ml was charged with 1000 ml of water. 20 g of citric acid was added thereto and stirred to prepare an aqueous citric acid solution. 11 g of the shell powder of Example 1 was taken and added to the citric acid aqueous solution and stirred. In this case, impurities not dissolved in the liquid are removed by using a filtration filter to prepare a clear aqueous solution of calcium citrate, pH is about 4.0. When 1 g of hydrated lime (calcium hydroxide) of Example 2 is added to the prepared aqueous hydrogen citrate solution, calcium hydrogen citrate is supersaturated in the solution, and 28 g of calcium hydrogen citrate precipitates due to nucleation and nuclear growth.

[Examples 9 to 12] In Example 8, the concentrations of citric acid were 40, 100, 200, and 400 g, and shells 23, 60, 88, and 141 g were respectively reacted to prepare an aqueous solution of calcium citrate to remove impurities. When 1 g of each of the calcined lime was further added to the aqueous hydrogen citrate solution, calcium citrate precipitated as a crystal due to supersaturation, and the amounts thereof were 55, 140, 205, and 326 g, and the results are shown in Table 1.

Examples 13 to 17 As a result of analyzing the content of citric acid remaining in the solution after preparing the nodular calcium citrate in Examples 8 to 12, the amounts were 5, 9, 22, 86, and 218 g, respectively. This phenomenon can be seen that as the reaction proceeds, the greater the concentration of initial citric acid, the greater the common ionization effect in the aqueous solution, and thus the unreacted citric acid is increased.

Example 18 4 g of hydrated lime (calcium hydroxide) of Example 2 was added to an aqueous solution of calcium citrate prepared in Example 8 and reacted for 10 minutes to prepare 30 g of calcium citrate. At this time, the pH of the aqueous solution was 4.8

[Examples 19 to 22] In Examples 9 to 12, citric acid concentrations were 40, 100, 200 and 400 g, and shells 23, 60, 88 and 141 g were taken and reacted to remove impurities to prepare a bright aqueous solution of calcium citrate. do. Then, 9, 23, 33, 52 g of hydrated lime (calcium hydroxide) prepared in Example 2 were added to each solution, and stirred for 10 minutes to prepare calcium citrate 60, 152, 222, and 353 g. Table 1 shows the results.

As can be seen from the above results, a clear and transparent calcium citrate aqueous solution of citric acid and calcium compound can be prepared. And calcium citrate and calcium citrate can be prepared using the supersaturation phenomenon of the aqueous solution of calcium citrate.

The present invention can produce a high-quality calcium citrate and calcium citrate by reacting the shellfish or calcium salt classified as waste with citric acid can bring a big change in the functional beverage products, and can benefit the national health. In the meantime, when the calcium agent is added to the transparent beverage, there is a problem in that it has a great influence on the taste or there is no solubility, but in the present invention, calcium hydrogen citrate and calcium citrate were prepared using a calcium compound for food or a calcium salt made by an organism. Therefore, the organic acid calcium produced by the manufacturing method of the present invention has a great effect on beverage companies.

Claims (3)

The present invention reacts with 2 to 60wt% citric acid solution using limestone, quicklime, hydrated lime, shells such as oyster shell, cocktail, clam, etc., and removes unreacted impurities to remove calcium citrate aqueous solution. How to manufacture To the aqueous solution of calcium citrate of claim 1, 0.05-2 wt% of calcium carbonate, limestone, quicklime, hydrated lime, oyster shell, cortex, clam shell, calcined shell, and the like are added so that the pH of the solution is 3.6-4.6. How to manufacture Calcium Citrate was prepared by adding 2-30 wt% of calcium carbonate, limestone, quicklime, hydrated lime, oyster shell, cornea, clam shell, calcined shell, etc. to the aqueous solution of calcium citrate of claim 1 so that the pH of the solution was 4.2-8.6. How to