• 专利附录
  • 专利说明
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    • 专利摘要:
    PURPOSE: A process for preparing phytin or phytic acid using rice bran is provided, thereby preparing cheap phytin or phytic acid in higher purity and yield. CONSTITUTION: A process for preparing phytin or phytic acid using rice bran comprises the steps of: (a) mixing rice bran with an acid solution to pH 2 to 4 to extract phytin from rice bran; (b) separating the mixture of the step (a) into the supernatant and sludge; and (c) adding an alkali solution into the supernatant of the step (b) to neutralize the supernatant and heating the neutralized solution at 50 to 55 deg. C to precipitate phytin.
    公开号:KR20030068977A
    申请号:KR1020020008827
    申请日:2002-02-19
    公开日:2003-08-25
    发明作者:이주희
    申请人:주식회사 자생당;
    IPC主号:
    专利说明:

    Manufacturing method for phytin or phytic acid using rice bran}
    [1] The present invention relates to a method for producing phytin or phytic acid, and more particularly, to extract phytin from rice bran to produce a solid phytin, and to a method for producing syrup-like phytic acid using the manufactured phytin.
    [2] Rice bran, which is used as a raw material for the production of phytin or phytic acid, is a pulverization of fruit skin, seed skin, and lake layer that occurs when the brown rice is milled to make white rice. Generally speaking, 6-8% of rice bran is produced as a mixture, and the higher the degree of brown rice, the higher the amount, and the composition also varies depending on the degree. These rice bran, although somewhat different depending on the degree, usually contains about 10% phytin.
    [3] In general, phytin is known to play an important role in the germination and early growth of seeds of the phosphorus storage material in plants. In addition, phytin is a calcium, magnesium, zinc, sodium salt of phytic acid [Inositol hexakisphosphat] means mainly calcium and magnesium salts. During seed germination, phytins are broken down by phytase and used for phosphorylation or the composition of nucleic acids or membranes. Phytin is an odorless white powder that is soluble in acids (pH 2-3) and insoluble in water.
    [4] Recently, Japanese Patent Application No. 3-16978 discloses a method for producing water-soluble phytin by changing the composition of metal ions. These phytins become a raw material for producing inositol by hydrolysis under high temperature and high pressure, and phytic acid from which metal ions are removed is a pale yellow or light brown syrup-like liquid, soluble in water, 95% ethanol or acetone, medicinal and fermentation aids, canned Prevention of the formation of strabit in water, prevention of graphite in canning, antioxidant action, softening of water, corrosion of metals, formation of metal coatings, dye additives, concentration of rare earth elements, solvents of polymers, gasoline, kerosene or It is used as an explosion prevention agent such as fuel oil.
    [5] In the conventional method of preparing phytin, most of the sediment produced by adding a base to corn steep liquor, rice bran, etc. and neutralizing to a final pH of about 7.0 to 8.0 (hereinafter referred to as "neutralization method") was produced by Japan Command. 46-35075, Japanese Special Forces No. 46-26346, Japanese Special Forces 46-33958, Japanese Special Forces 42-17268, US Patent No. 3,591,665, US Patent No. 4,163,010), and phytic acid are produced in rice bran, etc. Treatment was performed to extract phytin and to separate it by passing through an ion exchange resin tower (US Pat. No. 4,668,813, Japanese Patent Laid-Open No. 61-056142, Chinese People's Republic of Korea Patent No. 862238). In addition, Japanese Patent Laid-Open No. 61-050989 describes a method for purifying phytic acid by adding a process using an ultrafiltration membrane.
    [6] In the case of preparing the phytin by the conventional neutralization method, the resulting phytin has a lot of moisture, which makes it difficult to separate and recover, and also has a problem that the impurities, such as protein, which is a free inorganic weapon, are not high, and the production yield is not high.
    [7] The inventors have completed many of the experiments by finding the most efficient extraction pH for the phytin extraction process and the most effective base and precipitation conditions for the phytin precipitation process.
    [8] Therefore, the technical problem to be achieved by the present invention is to provide a method for producing phytin that solves the above-mentioned problems.
    [9] In addition, another technical problem is to provide a method for producing syrup-like phytic acid using phytin prepared by the above method.
    [10] In order to achieve the above technical problem, the present invention
    [11] (a) extracting phytin from the rice bran by mixing rice bran and an aqueous acid solution so that the pH is 2 to 4;
    [12] (b) separating the mixture of step (a) into a supernatant and sludge; And
    [13] (c) neutralizing by adding an aqueous alkali solution to the supernatant separated in step (b) and warming to about 50 to 55 ℃ provides a phytin preparation method comprising the step of precipitating phytin.
    [14] In the above-described method for preparing phytin according to the present invention, the pH is 2 to 4, and the sludge separated in the step (b) is mixed with an acid aqueous solution to extract phytic secondary, and the mixture is filtered to obtain the filtered liquid ( It is preferable to further include the step of returning to step a).
    [15] In the phytin preparation method according to the present invention described above, the pH of the mixture in the step (a) is preferably adjusted to 2.4 to 3.6.
    [16] In the phytin preparation method according to the present invention described above, the aqueous alkali solution is preferably a NaOH aqueous solution.
    [17] In order to achieve the above another technical problem, the present invention comprises the steps of dissolving by adding an aqueous phytic acid solution to the phytin solids prepared by the phytin preparation method as described above; And
    [18] The solution is filtered to remove impurities, desalting through a cation exchange resin, and provides a method for producing phytic acid comprising the step of concentrating under reduced pressure.
    [19] Hereinafter, the method for preparing phytin or phytic acid according to the present invention will be described in detail.
    [20] First, the phytin preparation method will be described, but the phytin preparation method according to the present invention can be largely divided into phytin extraction step, separation step and phytin precipitation step, which will be described in this order.
    [21] Pitin Extraction Step
    [22] In the present invention, phytin is extracted by mixing rice bran and an acid aqueous solution using the property of dissolving phytic acid. Phytin is dissolved in the acid aqueous solution and is present.
    [23] The acid used may be any organic acid or inorganic acid that may be used in a method known as neutralization in the phytin preparation method, and the pH of the mixture of rice bran and acid aqueous solution is usually adjusted to 2-4.
    [24] In addition, the extraction time for extracting phytin is not particularly limited, and can be appropriately adjusted according to the amount of rice bran added, it is generally known that the longer the extraction time, the higher the extraction efficiency. The extraction time is adjustable in view of the overall process time of phytin preparation according to the invention.
    [25] The present inventors experimented as follows to find out whether the extraction efficiency of phytin is improved when the pH 2 to 4 conditions are commonly used.
    [26] 100 g of rice bran and 500 ml of water were mixed, and then hydrochloric acid was added to adjust the pH to 2.0, 2.4, 2.8, 3.2, 3.6, and 4.0, and phytic was extracted for 1 hour, followed by No. The filter paper was filtered to separate the sludge part containing the rice bran.
    [27] Subsequently, 10% NaOH was added to the separated filtrate to adjust the pH to about 7.5, followed by reaction for 1 hour. 2 filter paper was recovered by filtration to collect the phytin solids, which was put in a dryer and dried at 60 ℃ for 12 hours to measure the weight is shown in Table 2 below.
    [28] PH of the mixtureAmount of phytin solids 2.05.0 g 2.45.4 g 2.85.4 g 3.25.4 g 3.65.4 g 4.04.6 g
    [29] In Table 1, the extraction efficiency is 50% at pH 2.0, the extraction efficiency is 54% at pH 2.4 to 3.6, and the extraction efficiency is 46% at pH 4.0. It can be seen that. Therefore, it was found that the extraction efficiency was improved by about 4 to 8% when the mixture had a pH of 2.4 to 3.6.
    [30] <Separation step>
    [31] This separation step is a step of separating an acid aqueous solution containing phytin (hereinafter referred to as "supernatant") and a sludge portion containing rice bran, a method of allowing rice bran to settle, filtration, centrifugation And various conventionally known methods can all be used.
    [32] The present inventors used the following separation tank in consideration of the fact that the filtration hole is easily clogged by the rice bran in the case of filtration and that the separation time takes a long time when the separation is carried out by the method of leaving it to stand.
    [33] By installing a tube through which the lower part is perforated in the center of the separation tank and putting a mixture of rice bran and acid aqueous solution through this tube, the sludge part containing rice bran subsides due to the weight difference, and the acid aqueous solution containing phytin The silver part was separated by a method of raising, and the separation time can be shortened through this method, and can be separated without a separate filtration device or a centrifugal device.
    [34] <Phitin precipitation step>
    [35] This pipine precipitation step is a step of obtaining a solid phytin by neutralizing the portion of the supernatant in which the phytin recovered in the separation step is dissolved (adjusting the pH to about 7 to 8) to precipitate phytin in the form of an insoluble salt.
    [36] This step is a step of obtaining phytin which is widely known as "neutralization method". However, when using the conventional method, the phytin produced by the conventional method has a lot of moisture, which makes it difficult to separate and generate a disadvantage of many impurities such as free inorganic and protein. .
    [37] Therefore, the present inventors have various tests of varying the type of base used in the phytic precipitation step to reduce the water content to facilitate separation and recovery, and to efficiently remove impurities such as free inorganic proteins. It has been found that the use of NaOH as a base reduces the free inorganic phosphorus content and is efficient in terms of cost and the like.
    [38] According to the test results of the present inventors tested with Ca (OH) 2 , NaOH and NaHCO 3 as bases, when Ca (OH) 2 is used, the free inorganic phosphorus contained in rice bran is CaHPO 4 , Ca 3 (PO 4) in this problem the amount of free inorganic phosphate increased when precipitated with pitin solids in the form of calcium phosphate in the second place, and finally hayeoteul producing a phytic acid, when using the NaHCO 3, the amount of free inorganic phosphate is NaOH It was similar to using, but it was expensive and had the disadvantage of increasing the cost of the product.
    [39] The phytin solids produced by alkali type were dissolved in sulfuric acid after drying, and the free inorganic phosphorus was quantified. The results are shown in Table 2 below. Looking at Table 2 below it can be confirmed the above results.
    [40] Alkali typeThe amount of free weapons Ca (OH) 2 0.7% NaOH2.1% NaHCO 3 0.8%
    [41] In addition, the present inventors, while studying how to reduce the water content to facilitate the separation of phytin solids, and reduce the protein content, after neutralizing with NaOH as a base, and warmed to 50 to 55 ℃ to precipitate the phytin It was found that the water content and the protein content in the phytin solids were decreased when the physiological reaction was performed.
    [42] In order to prove this, the present inventors neutralized by adding NaOH to the supernatant portion separated in the separation step, and then left for 3 hours at room temperature (about 25 ° C.) and for 3 hours after heating to about 50 to 55 ° C. In some cases, the amount of protein and water in the phytin solids obtained in some cases are shown in Table 3 below.
    [43] If not warmedWhen heated to 50 to 55 ℃ Amount of dry phytin solids3.77 g3.81g Amount of protein4.1%2.8% Amount of moisture45%24% Content of phytic acid per gram of phytin solids77%81%
    [44] Looking at the Table 3, the amount of phytin solids is not much different, but it was confirmed that the amount of water and the amount of protein decreased when warmed. In other words, when heated to 50 to 55 ℃ can obtain a higher purity phytin, and also to warm to a higher temperature, but was considered to be economical due to excessive energy costs were excluded.
    [45] What has been described above is a description of the basic steps of the manufacturing method of phytin according to the present invention, and the present invention may further include a step of recycling the sludge containing the rice bran separated in the separation step without being disposed of immediately. This will be described in detail.
    [46] First, the sludge separated in the separation step and the acid aqueous solution is mixed so that the pH is 2 to 4. In this case, the acid used may be any organic or inorganic acid that can be used in the method known as the neutralization method in the phytin preparation method, and the pH is preferably adjusted to 2.4 to 3.6. This reason is based on the same principle as described in the phytin extraction step.
    [47] By adding an additional aqueous acid solution to the separated sludge it is possible to obtain the effect of extracting the phytic once again in the rice bran.
    [48] Subsequently, the mixture is filtered using a filter press or the like, and then the filtered liquid is returned to the phytin extraction step and mixed with rice bran added for fresh extraction. In this case, when it is returned to the phytin extraction step, it may not be necessary to adjust the pH by adding an acid separately in the phytin extraction step.
    [49] The present inventors compared the yields of the case of extracting rice bran once under the same conditions and twice the extraction as described above, and are shown in Table 4 below.
    [50] Looking at Table 4 below it can be seen that the about 10% phytin extraction yield was improved.
    [51] Amount of phytine solids per tonne of rice bran (dry weight) 1 extraction49.5Kg When extracting twice57.2 Kg
    [52] Finally, a method for preparing phytic acid, which is another technical problem to be achieved by the present invention, will be described.
    [53] The phytic acid production method according to the present invention is prepared using the phytin solids obtained through the phytin preparation method according to the present invention as described above.
    [54] First, an aqueous phytic acid solution is added to the phytine solids to bring the pH to about 3.8 so as to dissolve the phytine solids. The reason why phytic acid is used at this time is that an anion (eg, Cl ion of hydrochloric acid) of another acid may be incorporated as an impurity when dissolved using another acid.
    [55] Subsequently, the solution is filtered through an activated carbon filtration apparatus to remove impurities, and then passed through a cation exchange resin to remove deionization by removing cations such as calcium, magnesium, zinc and sodium. In this way, the desalination treatment results in a solution of phytic acid.
    [56] Finally, it is concentrated under reduced pressure, and finally syrup-like phytic acid can be obtained.
    [57] Hereinafter, the present invention as described above will be described in detail by way of examples. It is apparent that the present invention is not limited by the examples described below, and the protection scope of the present invention should be defined by the claims.
    [58] <Example 1>
    [59] To 1000 kg of rice bran containing about 10.1% phytic acid, 5% 0.4% hydrochloric acid solution was added and left at room temperature for 2 hours to separate the acid solution portion and sludge to obtain a filtrate of about 3.8 mm.
    [60] Subsequently, 10% NaOH was added to the filtrate to adjust the pH to about 7.5, and after heating to 55 ° C., the mixture was left for about 3 hours and filtered to obtain phytin solids.
    [61] Subsequently, the obtained phytic solids were washed once with warm water, and then, an aqueous phytic acid solution was added to adjust the pH to about 3.6 to dissolve the phytin solids. Next, powder activated carbon was added to the solution to remove the discoloration and impurities, and then desalted by passing through a cation exchange resin (IR120H (Rohsn & Haes)) at a flow rate of 5000 liters per hour.
    [62] The desalted solution was then concentrated under reduced pressure in a tank at a temperature of about 65 ° C. to obtain 141 Kg of about 50% phytic acid. The yield of about 70% was obtained for the phytic acid contained in the raw materials.
    [63] <Example 2>
    [64] 1000 kg of rice bran containing about 10.1% phytic acid was added, and 10% of 0.25% hydrochloric acid solution was added and left at room temperature for 2 hours, and the acid solution portion and sludge were separated to obtain a filtrate of about 3.8㎘.
    [65] Subsequently, 10% NaOH was added to the filtrate to adjust the pH to about 7.5, and after heating to 55 ° C., the mixture was left for about 3 hours and filtered to obtain phytin solids.
    [66] Subsequently, the obtained phytic solids were washed once with warm water, and then, an aqueous phytic acid solution was added to adjust the pH to about 3.6 to dissolve the phytin solids. Next, powder activated carbon was added to the solution to remove the discoloration and impurities, and then desalted by passing through a cation exchange resin (IR120H (Rohsn & Haes)) at a flow rate of 5000 liters per hour.
    [67] The desalted solution was then concentrated under reduced pressure in a tank at a temperature of about 65 ° C. to obtain 145 Kg of about 50% phytic acid. The yield of phytic acid contained in the raw material was about 72%.
    [68] Comparative Example
    [69] To 1000 kg of rice bran containing about 10.1% phytic acid, 5% 0.4% hydrochloric acid solution was added and left at room temperature for 2 hours to separate the acid solution portion and sludge to obtain a filtrate of about 3.8 mm.
    [70] Subsequently, 10% Ca (OH) 2 was added to the filtrate to adjust the pH to about 7.5, and after warming to 55 ° C., the mixture was left for about 3 hours and filtered to obtain phytin solids.
    [71] Subsequently, the obtained phytic solid content was washed once with warm water, and then the phytic acid demand solution was added to adjust the pH to about 3.6 to dissolve the phytin solid content. Next, powder activated carbon was added to the solution to remove the discoloration and impurities, and then desalted by passing through a cation exchange resin (IR120H (Rohsn & Haes)) at a flow rate of 5000 liters per hour.
    [72] The desalted solution was then concentrated under reduced pressure in a tank at a temperature of about 65 ° C. to obtain 142 Kg of about 50% phytic acid. The yield of about 71% was obtained for the phytic acid contained in the raw materials.
    [73] <Quality test>
    [74] Total phosphoric acid content, inorganic phosphoric acid content, salt content, sulfate content, heavy metal content, and arsenic content were measured using the phytic acid obtained in Examples 1, 2 and Comparative Examples, and are shown in Table 5 below.
    [75] In the analysis of phytic acid, organic phosphorus in phytic acid was calculated from the difference between the total amount of phosphoric acid and the amount of free inorganic phosphate. The quantification of phosphorus was based on Fiske-subbraw method.
    [76] Example 1Example 2Comparative example Total phosphoric acid content14.1%14.2%14.9% Inorganic Phosphate Content0.9%0.7%1.9% Salt content0.04% or less0.04% or less0.04% or less Sulfate Content0.07% or less0.07% or less0.07% or less Heavy metal content0.004% or lessLess than 0.004%Less than 0.004% Arsenic content0.0003% or less0.0003% or less0.0003% or less
    [77] Example 1 and Example 2 according to the present invention as shown in Table 5 does not deviate from the standard of the food additives, in the case of the comparative example is out of the standard of the food additives due to the excess of glass inorganic phosphorus.
    [78] Comparative Example 2
    [79] After neutralizing with caustic soda, phytic acid was obtained in the same manner as in Example 1 except that the mixture was left at room temperature without warming.
    [80] In the case of Comparative Example 2, the separation of phytin was difficult, and the yield of phytic acid was rapidly reduced to 65%, which is less than 70% of Example 1.
    [81] As described above, by finding the most efficient extraction pH in the phytic extraction process, and the most effective base and heating conditions in the phytic precipitation process, the method for preparing phytin or phytic acid according to the present invention is inexpensive phytic or phytic acid with high purity and high efficiency. It has the advantage of being able to manufacture.
    权利要求:
    Claims (5)
    [1" claim-type="Currently amended] (a) extracting phytin from the rice bran by mixing rice bran and an aqueous acid solution so that the pH is 2 to 4;
    (b) separating the mixture of step (a) into a supernatant and sludge; And
    (c) neutralizing by adding an aqueous alkali solution to the supernatant separated in step (b) and warming to about 50 to 55 ℃ to precipitate the phytin.
    [2" claim-type="Currently amended] According to claim 1, wherein the pH is 2 to 4 by mixing the sludge separated in the step (b) and the acid aqueous solution to extract the phytic secondary, and the mixture is filtered to the filtered solution to step (a) A method for producing phytin, characterized in that it further comprises the step of conveying.
    [3" claim-type="Currently amended] The method of claim 1 or 2, wherein in step (a) the pH of the mixture is adjusted to 2.4 to 3.6.
    [4" claim-type="Currently amended] The phytin preparation method according to claim 1 or 2, wherein the aqueous alkali solution is an aqueous NaOH solution.
    [5" claim-type="Currently amended] Adding and dissolving phytic acid to the phytin solids prepared according to claim 1; And
    Filtering the solution to remove impurities, desalting through a cation exchange resin and concentrating under reduced pressure.
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    同族专利:
    公开号 | 公开日
    KR100471558B1|2005-03-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2002-02-19|Application filed by 주식회사 자생당
    2002-02-19|Priority to KR10-2002-0008827A
    2003-08-25|Publication of KR20030068977A
    2005-03-08|Application granted
    2005-03-08|Publication of KR100471558B1
    优先权:
    申请号 | 申请日 | 专利标题
    KR10-2002-0008827A|KR100471558B1|2002-02-19|2002-02-19|Manufacturing method for phytin or phytic acid using rice bran|
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