KR102363139B1 - Method for Manufacturing Red-pepper Paste Using Grain Syrup - Google Patents

Abstract

The present invention relates to a method for producing red pepper paste from Jocheong, which is used to prepare red pepper paste of uniform quality.
Chocheong red pepper paste produced by the method of the present invention is prepared using high-purity coarse powder in which most of the starch is saccharified, so the flavor of red pepper paste is improved and storability is increased. Since the maturation of red pepper powder and soybean powder is carried out as a separate process, the quality of red pepper paste is uniform and manufacturing is easy.

Description

Method for Manufacturing Red-pepper Paste Using Grain Syrup

The present invention relates to a method for producing red pepper paste from Jocheong, which is used to prepare red pepper paste of uniform quality.

Gochujang, along with soybean paste, is a representative fermented food and is used as a seasoning for raw vegetables, boiled vegetables, stewed vegetables, grilled vegetables, pickles, etc.

Gochujang contains nutrients and physiologically active substances such as protein, sugar, carotene, vitamins, capsaicin, and soybean peptide derived from red pepper powder, glutinous rice, and soybean fermented products, and has the characteristic of harmonizing spicy, sweet, and umami taste well. , Chili, Tabasco, etc. It is a food with high use value for various dishes as much as western multi-purpose sauce.

The salt of red pepper paste not only automatically inhibits and helps increase the oxidation of ascorbic acid, but also has various physiological functions such as obesity suppression, anticancer effect, antimutagenicity and antioxidant. It actively promotes the adrenaline secretion of It is known to inhibit the increase in body fat.

The conventional manufacturing method of gochujang is to make soybean powder by mixing pulverized rice and soaked soybeans after immersion, steaming, fermenting, drying and pulverizing, adding malt and water to the soaked and steamed starch, and adding red pepper powder, salt and soybean paste. When the powder is mixed and fermented for a certain period of time, the starch is saccharified by the yeast and malt enzymes contained in the soybean paste, and the protein is hydrolyzed to produce amino acids, thereby making red pepper paste.

Gochujang contains the sweetness of sugar produced by the saccharification of amylase produced by microorganisms during the fermentation process, the umami taste of amino acids produced by the proteolysis of protease, fatty acids produced by the action of lipase, the aromatic components produced by microorganisms and the spicy taste of red pepper powder. It is a food with high nutritional value because the salty taste of salt harmonizes well.

The quality characteristics of red pepper paste vary depending on the raw material and the soaking method. In red pepper paste with starch syrup, the reducing sugar content is higher than that of flour red pepper paste, but the amino nitrogen content is lower. However, it is reported that the umami taste is low.

As people's interest in health increases along with the increase in income level, people's perception of food goes beyond the simple meaning of being a nutrient source for maintaining the status quo of life, and is paying attention to the functions of food. It is changing to a tendency to value the functionality of food along with its characteristics.

As one such example, Korea Patent Publication No. 10-1365551 discloses an invention related to red pepper paste to which persimmon syrup is added. After crushing persimmon or persimmon skin, extracting, filtration and purification with distilled water, the sugar content is 60 to 65 ° Add persimmon syrup prepared by concentrating under reduced pressure until it becomes brix together with coarse rice syrup when making red pepper paste.

The red pepper paste is effective in suppressing metabolic syndrome and diabetes, etc., which can be caused by the high glycemic index of the gochujang, because persimmon syrup having a lower glycemic index (GI) than that of corn syrup is added, thereby reducing the amount of grain syrup used. Functional red pepper paste can be manufactured.

However, since persimmon syrup has a lower sugar content than grain syrup, in order to make the taste of red pepper paste more palatable, the amount of grain syrup must be increased. It can only be expected to have an effect.

In addition, Korean Patent Application Laid-Open No. 10-2011-0023193 discloses an invention in which a functional grain syrup added with wild mulberry leaf extract and sweet potato and added thereto is disclosed, which is a natural sugar and dietary fiber component of sweet potato and wild mulberry leaf. Due to this, by adding jocheong, which is effective in the treatment and prevention of various adult diseases, to red pepper paste, it has a strong sweet taste and the characteristic spicy and salty taste of red pepper paste is weakened. .

However, because the red pepper paste saccharifies sweet potato starch and adds wild mulberry leaf extract to it to prepare a grain syrup, only a functional ingredient is added to the general grain syrup, but it does not improve the physical properties of the corn syrup itself. In order to improve the sensory characteristics of wild mulberry leaf extract, the bitter taste is strong, and the amount of sweet grain syrup is increased, so the nutritional value of red pepper paste is lowered.

The problem to be solved by the present invention is to decompose more high molecular weight starch into low molecular weight sugar to produce high-purity coarse powder and use it to manufacture red pepper paste. It is to provide a method for manufacturing Jocheong Gochujang that can be maintained.

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In order to solve the above problems, the present invention is a starch liquefied enzyme in which 130 to 170 parts by weight of water, 20 to 30% by weight of α-amylase and 70 to 80% by weight of pullulanase are mixed in 100 parts by weight of starch 0.1 to 3.0 parts by weight mixing and heating to liquefy; adding 1 to 5 parts by weight of malt and 0.01 to 0.10 parts by weight of sodium metabisulfite to the liquefied liquefied starch based on 100 parts by weight of starch, followed by saccharification at 50 to 70° C. for 5 to 15 hours; removing the malt solids by filtering the saccharified sugar solution; Concentrating the sugar solution from which the malt solids have been removed at 100 to 120 ° C for 2 to 5 hours to prepare a crude syrup; And dissolving 100 parts by weight of the coarse powder in 90 to 130 parts by weight of water and mixing 20 to 60 parts by weight of red pepper powder, 5 to 20 parts by weight of salt and 1 to 15 parts by weight of soybean paste powder; provides

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In this case, in the liquefaction step, it is preferable to further add 0.001 to 0.010 parts by weight of calcium chloride based on 100 parts by weight of starch to the mixture of starch, water and starch liquefying enzyme.

In addition, after concentrating the sugar solution, it is preferable to cool it under vacuum of 400 to 700 mmHg.

In addition, it is preferable to ripen the prepared Chocheong red pepper paste for 5 to 30 days.

Chocheong red pepper paste produced by the method of the present invention has the advantage of improving the flavor of red pepper paste and increasing storage properties because most of the starch is saccharified using high-purity coarse powder.

In addition, there is an advantage of uniform quality of red pepper paste and easy manufacturing because the content of the intermediate product of grain syrup is small and the saccharification of starch and the maturation of red pepper powder and soybean powder are carried out in separate processes.

The method of manufacturing coarse red pepper paste of the present invention consists of dissolving coarse powder in water and mixing red pepper powder, salt and soybean powder to prepare red pepper paste.

In more detail, 100 parts by weight of coarse powder is dissolved in 90 to 130 parts by weight of water, and 20 to 60 parts by weight of red pepper powder, 5 to 20 parts by weight of salt and 1 to 15 parts by weight of soybean paste are mixed to prepare red pepper paste, which is 5 If it is aged for ~30 days, red pepper paste with improved flavor can be obtained.

Chocheong used in the present invention is prepared using starch as a main material, and the starch is not limited to the type of rice starch, corn starch, potato starch, sweet potato starch, soybean starch, and the like.

In the manufacturing method of the grain syrup, first, water and starch liquefying enzyme are added to starch and heated to liquefy. More specifically, 130 to 170 parts by weight of water and 0.1 to 3.0 parts by weight of starch liquefied enzyme are added to 100 parts by weight of starch and sufficiently Mix.

The starch liquefying enzyme selectively hydrolyzes the glycosidic bond of starch to produce low molecular weight oligodextrin. As such starch liquefy enzyme, in the present invention, α-amylase and pullulanase ) are used in parallel.

α-amylase cuts the glucose chain of starch irregularly from the inside to make it low molecular weight and keeps shortening as starch liquefaction proceeds. It does not act on -1,6 bonds.

Rice starch, a representative starch, usually contains amylose and amylopactin in a ratio of about 25:75 (based on non-glutinous rice), and since amylose has only α-1,4 bonds, most of the amylose in rice starch is decomposed by α-amylase.

However, since amylopactin in rice starch is composed of α-1,6 bonds and is not cleaved by α-amylase, it cannot participate in the liquefaction and saccharification process, thereby reducing the yield and purity of crude syrup.

As a solution to this problem, starch liquefying enzyme uses α-amylase and pullulanase in parallel. Pullulanase specifically hydrolyzes α-1,6 bonds to produce linear dextrin. In this case, the α-1,6 bond in amylopectin that is not degraded by α-amylase is cleaved.

As described above, in the liquefaction process of rice starch, α-amylase randomly cleaves the α-1,4 bond of amylose and pullulanase cleaves the α-1,6 bond of amylopectin to produce liquefied starch. Both amylose and amylopactin in starch can be decomposed and converted to liquid starch.

The mixing ratio of α-amylase and pullulanase is preferably the same as the content ratio of amylose and amylopactin in rice starch, for example, α-amylase: pullulanase = 20-30: 70-80 wt% proper.

The mixture of starch, water and starch liquefied enzyme may contain an enzyme stabilizer for stabilizing the starch liquefied enzyme, and as the enzyme stabilizer, calcium chloride (CaCl ₂ ) or calcium carbonate (CaCO ₃ ) is preferable, and calcium chloride is more preferable. Calcium chloride is more preferably included in an amount of 0.001 to 0.010 parts by weight based on 100 parts by weight of starch. Calcium chloride stabilizes the starch liquefying enzyme, optimizes activity, and inhibits the aging of starch. When dissolved in water, heat is generated. promotes liquefaction;

In addition, in order to optimize the activity of starch liquefying enzyme, it is preferable to adjust the pH of the mixture to 5.5 to 6.5 and heat at 50 to 90 ° C. for 1 to 5 hours, and the sugar content of the liquefied starch after liquefaction is 30 to 40 ° Bx (Brix) and dextrose equivalent (DE) represents 7 to 11.

It is preferable to use brine mineral ion water as the water used in the above.

Marine mineral spring water is also called marine hot spring water or deep sea bedrock water, and generally refers to water eluted from 800 m or more underground within about 1 km from the shore to the land. It refers to the interaction, retention, maturation, and ionization of natural bedrock groundwater and geological time and space conditions that flow down through interstitial and deep underground aquifers on land.

Oceanic mineral water is affected by the surrounding geology, so the useful value as well as the composition of the water may vary depending on the characteristics of the soil and bedrock underground. ), magnesium (Mg), strontium (Sr), manganese (Mn), zinc (Zn), iron (Fe), copper (Cu), nickel (Ni), vanadium (V), selenium (Se), etc. It is contained in abundance.

In addition, it contains a lot of inorganic nutrients such as nitrogen (N), phosphorus (P), silicic acid, etc. It also shows efficacy in the removal of active oxygen.

The mineral component contained in the marine mineral water helps to increase and stabilize the activity of starch liquefaction and saccharification enzymes, and it is contained in the crude oil to increase storage by antioxidant components and add useful components of marine mineral water to the final product, red pepper paste can do.

In addition, the mineral balance of calcium and magnesium in marine mineral water is similar to that of human body fluid and is close to the ratio known to be ideal for human body absorption of calcium. It is effective in preventing myocardial infarction, etc., and each mineral component acts on the body's metabolism, and has the effect of alleviating the decrease in the physiological function of the human body due to coarsening.

Next, malt is added to the liquefied starch and saccharified into low molecular weight reducing sugars with sweetness such as glucose, fructose, maltose, and isomerized sugar.

1 to 5 parts by weight of malt based on 100 parts by weight of starch is added to the liquefied starch and saccharified for 5 to 15 hours at 50 to 70 ° C. In this case, it is preferable to optimize the activity of the malt enzyme by adjusting the pH to 4.5 to 6.0.

The malt converts liquefied starch into sugar, dextrin, maltose, glucose, and diastase based on vitamin B group, amylase, protease, It contains digestive enzymes and oxidases such as invertase, investase, and phytase.

In the saccharification process, sodium metabisulfite (Na ₂ S ₂ O ₅ ) may be further added to the liquefied starch for saccharification, and 0.01 to 0.10 parts by weight of sodium metabisulfite is preferably added based on 100 parts by weight of starch, sodium metabisulfite is The aqueous solution exhibits weak acidity and has hygroscopicity, so it absorbs moisture in water and gradually becomes sodium bisulfite (NaHSO ₃ ). Sodium bisulfite generates sulfur dioxide (SO ₂ ) in the air. Sulfur dioxide is the breeding and oxidation of bacteria during a series of coarse-grained manufacturing processes. It suppresses the change in the physical properties of coarse powder.

Substances similar to sodium metabisulfite include sodium sulfite (Na ₂ SO ₃ ) and sodium hyposulfite (Na ₂ S ₂ O ₄ ), but their aqueous solutions show alkalinity or self-decompose rapidly by heating. When an alkaline atmosphere is created in the saccharification process, the activity of malt is lowered, and there is a problem in that they are decomposed by heating in the saccharification and concentration process. Therefore, sodium metabisulfite in which the aqueous solution exhibits weak acidity is more preferable.

Next, the saccharification of liquefied starch is completed by filtration to remove the malt solids, and concentrated by heating at 100 to 120 ° C. for 2 to 5 hours.

In the case of saccharification by adding sodium metabisulfite to the liquefied starch, most of sulfur dioxide is removed by heating during the concentration process, but some may remain. In this case, it is preferable to further remove sulfur dioxide by cooling under vacuum after concentration, 400~ It is more preferable to apply a vacuum of 700 mmHg (absolute pressure basis), and it is more preferable to cool it slowly so that it takes 70 to 120 minutes to cool from 80 ℃ to 65 ℃ during reduced pressure cooling.

The coarse cheong prepared as described above has a sugar content of 70 to 90 °Bx and a pH in the range of 4.0 to 6.0. Decomposition products are minimized to obtain high-purity crude rust.

Gochujang is prepared using the coarse powder prepared above, and it is preferable to use hot water so that the coarse powder can be well dissolved as the water for dissolving the coarse powder in water, and marine mineral water is used as the water as when liquefying starch. It is possible to add useful components of marine mineral water to gochujang along with increased storage by antioxidant components.

Conventional red pepper paste is mixed with starch, malt, water, red pepper powder, salt, soybean powder, etc. and fermented for a long time (conventional red pepper paste), or starch raw materials are gelatinized and liquefied with enzymes, and then red pepper powder, koji , and grains are added. After fermentation by adding starch and salt, various seasonings are added and sterilized (improved red pepper paste), or manufactured by other methods. Therefore, there is a disadvantage in that the quality fluctuation is large and the manufacturing time according to fermentation is long.

On the other hand, in the method for manufacturing red pepper paste of the present invention, the process of mixing red pepper powder, salt, and soybean powder with coarse powder prepared through liquefaction and saccharification is divided into each step, so the quality of red pepper paste is constant and manufacturing time is saved. In addition, since high-purity bran with a low intermediate product content is used, bacterial growth is suppressed and the storage of red pepper paste is improved.

Hereinafter, the present invention will be described in more detail based on the following Examples, Comparative Examples and Test Examples.

However, the following examples are only for illustrating the present invention, and the present invention is not limited by the following examples, and can be substituted and changed to other equivalent examples without departing from the technical spirit of the present invention. It will be apparent to those of ordinary skill in the art to which the present invention pertains.

<Example 1>

After mixing 900 kg of purified water with 600 kg of non-glutinous starch and adjusting the pH to 6, α-amylase (Liquozyme Supra 2.2, novozymes, Denmark) 450 g, pullulanase (Optimax L-1000, Genencor International INC, USA) 1.35 kg and 400 g of an aqueous calcium chloride solution having a concentration of 5% by weight were added and thoroughly mixed.

The mixture was heated at 70 °C for 200 minutes to obtain liquefied starch having a sugar content of 35 °Bx and a dextrose equivalent of 9 DE.

Next, 7.5 kg of malt was mixed with the liquefied starch, the pH was adjusted to 5.2, and then left standing in a container maintained at 60-63° C. for 9 hours to obtain a sugar solution obtained by saccharifying the liquefied starch.

The sugar solution was filtered with a filter press to remove malt residue, concentrated by heating at 108 ° C. for 2.5 hours, and then cooled to prepare a crude syrup having a sugar content of 80 °Bx and pH 4.8.

Next, pour 72 liters of hot water into 100 kg of the prepared grain syrup, stir until the grain syrup is completely dissolved, then cool to 35 ° C. Red pepper paste was prepared by mixing.

<Example 2>

Red pepper paste was prepared in the same manner as in Example 1, except that in Example 1, 300 g of sodium metabisulfite was further added to the liquefied starch for saccharification.

<Example 3>

In Example 2, the sugar solution heated and concentrated at 108 ° C. was cooled under reduced pressure in a vacuum evaporator operated at 550 mmHg (absolute), and the cooling time from 80 ° C. to 65 ° C. during reduced pressure cooling was 90 Red pepper paste was prepared in the same manner as in Example 2, except that it was cooled slowly to take minutes.

<Example 4>

In Example 1, red pepper paste was prepared in the same manner as in Example 1, except that purified water mixed with non-rice starch and filtered marine mineral water were used as hot water for dissolving grain syrup.

<Comparative example>

Red pepper paste was prepared in the same manner as in Example 1, except that in Example 1, pullulanase was not used and 1.8 kg of α-amylase was used.

<Test Example 1> Analysis of sugar content and purity

The sugar content and chromaticity of the crude syrup prepared in Examples 1 to 4 and Comparative Examples were measured and shown in Table 1 below.

Sugar content was measured using a digital refractometer (Atago digital refractometer PAL-3, Japan), and chromaticity (L value, a value, b value) was measured using a color difference meter (Model CR-300 Minolta, Japan), The measurement was repeated three times, and the average value was shown.

Measurement result of sugar content and chromaticity of Chocheong sugar content L value a value b value Example 1 78 15.4 8.3 20.3 Example 2 77 14.2 10.4 22.3 Example 3 81 13.4 11.1 23.7 Example 4 77 15.0 8.8 19.6 comparative example 66 16.7 5.6 16.6

Looking at the results in Table 1, the sugar content was slightly higher in Example 3, in which the sugar solution was cooled under reduced pressure, and the comparative example in which pullulanase was not added during the liquefaction process was low. As the components were removed from the sugar solution, the sugar content increased, and when liquefied without the addition of pullulanase, the decomposition of amylopactin was insufficient, which is believed to be due to the low overall glycation rate of starch.

Therefore, in order to increase the sugar content and purity of the crude oil, it is preferable to add pullulanase in addition to α-amylase during the liquefaction process of starch, and it can be seen that it is preferable to slowly cool the prepared high temperature crude oil under reduced pressure.

In terms of chromaticity, it was measured that the Example had a lower L value indicating brightness and a higher a value indicating redness and a higher b value indicating yellowness, compared to Comparative Example, which indicates that the Example showed that higher molecular weight starch than Comparative Example was converted to a lower molecular weight reducing sugar. It is judged that the more saccharified, the darker the color and the more vivid red and yellow expressions.

<Test Example 2> Storage analysis

Storage performance was analyzed by measuring changes in the number of bacteria over time while storing the prepared red pepper paste, and the plate count method was used to measure the number of bacteria.

The red pepper paste prepared in Examples and Comparative Examples was stored at a constant temperature of 30° C. for 60 days, and samples were taken and analyzed at intervals of 15 days, and the results are shown in Table 2 below.

A conventional red pepper paste prepared by adding malt and water to luxurious starch and mixing red pepper powder, salt and soybean powder, etc. and an improved red pepper paste sold in the market were compared as a control group, and each sample was aseptically collected 1 ㎖ After mixing with 9 ml of sterile phosphate buffered saline, shaken, diluted with a 10-fold dilution method, spread on nutrient agar, and incubated at 30°C for 24 hours, then colony numbers were counted.

Measurement result of change in the number of bacteria (unit: × 10 ⁵ CFU/ml) storage days 0 days 15th 30 days 45 days 60 days Example 1 2.3 2.2 2.0 2.0 1.8 Example 2 2.1 2.0 1.8 1.7 1.5 Example 3 2.2 2.1 1.9 2.1 2.0 Example 4 2.1 1.9 1.8 1.7 1.5 comparative example 2.3 2.2 2.1 2.3 2.5 traditional red pepper paste 2.5 3.0 3.8 5.4 6.1 improved red pepper paste 2.2 2.4 2.3 2.5 2.7

As shown in Table 2, the number of bacteria did not change significantly depending on the storage period, except for conventional red pepper paste, and showed a tendency to decrease slightly in Examples and to maintain a certain level in Comparative Examples and improved red pepper paste. .

The results of Examples and Comparative Examples are considered to be the cause of the suppression of bacterial growth due to the high sugar content of the crude oil, and as can be seen from the results of Test Example 1, the Example used a higher sugar content than the Comparative Example, so bacteria It is judged that the number of bacteria slightly decreased in the Example because the reproductive inhibitory power to

In conventional red pepper paste, it can be seen that the total number of bacteria increases as fermentation progresses, and in the case of improved red pepper paste, it can be seen that the growth of bacteria is suppressed due to the addition of a preservative.

In Examples 2 and 4, there was a tendency to decrease the number of bacteria more. In Example 2, it is assumed that the sulfur dioxide generated from sodium metabisulfite inhibited the reproduction of bacteria in jocheong, and in Example 4, E. coli or general bacteria It is judged as a result of using marine mineral water, which is less polluted by

Therefore, when manufacturing red pepper paste using grain syrup, it is preferable to use sodium metabisulfite for the saccharification process, and the water used for producing coarse green chili paste and red pepper paste has less bacterial contamination and is marine mineral water that contains antioxidants and various minerals in a balanced way. It can be seen that it is preferable to use

<Test Example 3> Sensory test

The grain syrup and red pepper paste prepared in Examples and Comparative Examples were left standing for 15 days at room temperature, and then the taste, aroma, and color of the grain syrup and the aged red pepper paste were conducted for a total of 42 persons, 3 males and females in their teens to 70s. And overall preference was measured by a five-point scale method, and the average value is shown in Table 3 below.

sensory test results taste incense color overall sign Chocheong Example 1 4.2 3.6 3.8 3.9 Example 2 3.7 3.3 4.0 3.6 Example 3 4.0 3.5 3.8 3.8 Example 4 4.3 3.5 3.9 4.1 comparative example 3.8 3.6 3.5 3.6 Kochujang Example 1 4.3 3.8 4.1 4.0 Example 2 4.1 3.7 4.2 4.1 Example 3 4.2 3.7 4.0 4.0 Example 4 4.3 3.6 4.0 4.1 comparative example 3.7 3.7 4.3 4.0 5: Very good, 4: Good, 3: Average, 2: Bad, 1: Very bad

As shown in Table 3 above, in the case of crude syrup, Example 2, which was saccharified by adding sodium metabisulfite to liquefied starch, had the lowest taste and aroma, and the color was the lowest in Comparative Example using only α-amylase without using pullulanase. was rated the lowest.

It is presumed that a trace amount of sulfur dioxide due to sodium metabisulfite affected the taste and aroma of grain blue. In the comparative example, since pullulanase was not used, the conversion of starch to coarse blue decreased compared to the example, and the color of grain blue This is considered to be the cause of insufficient expression.

In the overall acceptability, Example 4 using marine mineral water containing various minerals in a balanced manner was evaluated as the best, and it can be seen that water, which occupies the largest portion of the materials used for manufacturing blueberry, acts as an important factor in the preference. .

In Gochujang, the comparative example had lower taste characteristics than the Example, but received similar evaluations in both Examples and Comparative Examples in terms of overall preference. is judged

Claims (7)

delete A step of mixing 0.1 to 3.0 parts by weight of a starch liquefied enzyme in which 130 to 170 parts by weight of water, 20 to 30% by weight of α-amylase and 70 to 80% by weight of pullulanase are mixed with 100 parts by weight of starch and heating to liquefy;
adding 1 to 5 parts by weight of malt and 0.01 to 0.10 parts by weight of sodium metabisulfite to the liquefied liquefied starch based on 100 parts by weight of starch, followed by saccharification at 50 to 70° C. for 5 to 15 hours;
removing the malt solids by filtering the saccharified sugar solution;
Concentrating the sugar solution from which the malt solids have been removed at 100 to 120 ° C. for 2 to 5 hours to prepare a crude syrup; and
Dissolving 100 parts by weight of the coarse powder in 90 to 130 parts by weight of water and mixing 20 to 60 parts by weight of red pepper powder, 5 to 20 parts by weight of salt, and 1 to 15 parts by weight of soybean powder. delete 3. The method according to claim 2,
In the liquefaction step, 0.001 to 0.010 parts by weight of calcium chloride based on 100 parts by weight of starch is further added to the mixture of starch, water and starch liquefying enzyme. delete 3. The method according to claim 2,
After concentrating the sugar solution, the method for producing coarse pepper paste, characterized in that it is cooled under a vacuum of 400 to 700 mmHg. 3. The method according to claim 2,
A method for producing Jocheong Gochujang, characterized in that the prepared Jocheong Gochujang is aged for 5 to 30 days.