KR100260593B1 - Milled rice bread and a process of preparation thereof - Google Patents

Abstract

PURPOSE: Provided is a method for manufacturing rice bread which is increases in volume and has soft texture, by adding gum, lipid and gluten to the rice bread. CONSTITUTION: Rice is soaked in water for 15 hours at room temperature and make rice flour by a roller mill. The rice flour is dried enough at 40deg.C. The dried rice flour is reground by a food mixer and shifted into 100 mesh. Rice bread ingredients are 75g of rice flour, 12g of sugar, 1.5g of nonfat dried milk, 0.75g of salt, 7.5g of cooking oil, 4.5g of egg liquid, proper amount of gum in water 72mL and 18mL of yeast solution having 3g of yeast. The dough of the rice breads is formed in a bread frame. The form is fermented at 30deg.C for 1.5 hours and baked at 200deg.C for 5 minutes and at 180deg.C for 15 minutes.

Description

Milled rice bread and a process of preparation

The present invention relates to a novel rice bread and its manufacturing method. More specifically, the present invention is added to the rice flour, and then added to the conventional gluten to form the network structure of the dough glutin (gum) and fat and active gluten to add a rice bread and fermented after fermentation and its production It is about a method.

Rice, the main crop of Korean agriculture, is mainly consumed as rice, and accounts for only 5% of the total rice consumption in the form of processed foods such as sake, rice cakes, and sweets. Although traditionally processed foods made from rice are used as high-quality food during holidays, horns, mournings, and rituals, they are made of non-glutinous rice or glutinous rice, so they are somewhat limited in terms of variety and quality of food. It can be said that. As the standard of living has improved, consumers' preferences for food have been diversified and advanced, leading to the preference for processed foods that are easy to cook and have high taste for taste. Among them, bread is the most common food that is consumed as much as rice among various grain processed foods due to its texture and physical properties.

Attempts to make bread using rice as a material have been considered early for those who are allergic to wheat. However, rice has a low protein content of gliadin and glutamine, such as wheat, and gluten-containing proteins, which do not form dough networks like wheat gluten. To make up for this, fermented rice bread manufacturers with bread-like texture are added by adding gluten substitutes such as active gluten, glyceryl monostearate, surfactant, carboxymethyl cellulose, guar gum, methyl cellulose, xanthan gum, and locust bean gum. It was possible.

Accordingly, the present invention has been made in view of the above-mentioned facts to improve the manufacturing method of rice bread by adding gum, fat and active gluten as a gluten substitute in the manufacture of rice bread.

The present invention compares the characteristics of rice bread according to the addition of gum, fat and active gluten in order to achieve the above object, and discloses various types of rice varieties of rice morphology and physicochemical properties, and the baking properties of the rice bread according to the additives by varieties. Compared.

1 shows the effect of gum on rice bread.

Figure 2 shows the effect of the concentration of hydroxypropyl-methyl-cellulose on rice bread.

Figure 3 shows the effect of fat and oil on rice bread.

Figure 4 shows the difference between the varieties of rice bread added hydroxypropyl-methyl-cellulose.

Figure 5 shows the differences between varieties of rice bread added gluten and strong powder.

The present invention comprises the steps of preparing a rice bread; Fermentation and baking properties investigation step; Comparing baking properties according to types of gums; Comparing baking properties according to the type of added fat; Reviewing the bakery properties by adding active gluten; Comparing the breadability of rice by varieties.

Nongan rice (Suwon 392), Nakdong rice, Suwon 232, AC 27, Alley rice 1 (Suwon 391), IRAT 177, Jungwon rice, Suwon 230, T (N) 1, Suwon-jo Pusa-33-30, IR 44, IR 841-76-1, and Hangangchalb rice were provided by the RDA Crop Experiment Station, and rice for the establishment of rice bread manufacturing method was purchased from commercial rice. Other raw materials such as hydroxypropyl-methyl-cellulose, xanthan gum, guar gum, carageenan, and locust bean gum were purchased from Sigma, and sericin was supplied from the Department of Natural Fibers, Kyungpook National University, and gelatin, agar, strong powder, salt. Commercial products were used for skim milk powder, cooking oil, and sugar. Eggs were purchased on the day of the experiment and used fresh.

Hereinafter, the specific configuration and operation of the present invention will be described with reference to Examples, but the scope of the present invention is not limited only to the following Examples.

Preparation of rice flour and rice bread was carried out as follows.

After immersing the rice for about 15 hours at room temperature, the rice flour obtained by wet milling with a roller mill was sufficiently dried at 40 ℃. The powder was regrind in a food mixer (Daewon food mixer, DWN-501) and then passed through a 100-mesh sieve, and the powder was used as an experiment for rice flour.

Rice bread was prepared in the following manner by examining the composition ratio of the rice flour and raw materials, the kneading method, fermentation conditions, heating conditions through preliminary experiments.

Mix well rice powder (75g), sugar (12g), skim milk powder (1.5g), salt (0.75g), cooking oil (7.5g), egg solution (4.5g), and then add appropriate amount of gum to 72mL of water. Swelling and 18 mL of yeast (3 g) solution activated in hot water were added and kneaded well. In addition, when active gluten is added, rice flour (48 g), active gluten (10 g), strong powder (16 g), sugar (12 g), skim milk powder (1.5 g), salt (0.75 g), cooking oil (7.5 g), eggs The solution (4.5 g) was mixed well and then kneaded by adding 56 mL of activated yeast (3 g) solution. The rice dough is molded into a baking mold (13 × 5.5 × 4.5 cm), fermented at 30 ° C. for 1.5 hours, baked at 200 ° C. for 5 minutes, and then baked for 15 minutes by lowering the temperature to 180 ° C. Rice bread production was repeated three times for each treatment.

The fermentation and baking characteristics of rice bread were investigated as follows. That is, the volume increase rate according to the fermentation of rice bread dough was calculated by displaying the height of the dough in the beaker before fermentation, measuring the height of the increased dough after fermentation for a predetermined time. The cost measurement of the rice bread was prepared by cooling the rice bread for 1 hour, and then cut into 1 cm ³ size to measure the weight, expressed as a ratio of volume to weight.

Example 1. Comparative experiment of baking ability according to the type of gum

Since rice does not form the network structure of the dough during baking, like gluten in wheat, gluten substitutes must be added to make rice bread. Dough refers to a dispersion system consisting of various components such as protein, starch particles, pentosan, lipids, water soluble gum, and water. In order for a dough to form a network structure, a mechanical energy called mixing is added to the dispersion system of the dough components, so that the components are oxidized to form a network structure. Various ingredients contained in the dough all affect the properties of the dough. In particular, gluten proteins (gliadin and glutenin) play a central role in the properties of the dough, and other ingredients affect the properties of the dough by interaction with the protein. That is, in view of the fact that the network structure formed by proper association of protein molecules consequently imparts physical properties of the dough, the present invention examined the breadability by using the network structure formed by the gum as an alternative material of the gluten dough.

The results of measuring the volume increase rate of the dough, the cost of the prepared rice bread while preparing the rice bread by adding various types of gums are shown in Table 1 below.

Effect of gum inspection on the expansion of dough and the volume of rice bread sword % Of each gum Expansion rate of dough Volume of rice bread (mL / g) Hydroxypropyl-methyl-cellulose 1.5 3.69 ^a 4.09 ^a Guar gum 1.0 1.56 ^c 1.41 ^c Locust bean gum 1.5 2.35 ^b 2.07 ^b Carrageenan 1.0 1.55 ^c 1.40 ^c Xanthan Gum 1.0 1.33 ^c 1.40 ^c Sericin ¹⁾ 1.5 2.06 ^b 1.47 ^c Gelatin ¹⁾ 1.5 1.72 ^bc 1.54 ^c Agar 1.0 2.16 ^b 1.79 ^bc Note: The a-c values on the same column show significant differences (p <0.05). 1) Sericin and gelatin are not black but are proteins that form gels when swollen in water.

The concentrations of the samples shown in Table 1 are the most bakery concentrations in the preliminary experiment. The hydroxypropyl methyl cellulose used in the present invention was used 4000cp. Although sericin and gelatin are proteins, not polysaccharides, they have been studied because they have the property of forming a gel when they are swollen in water. Sericin is a protein that is discarded during the ritual process, but serine makes up about 30% of the constituent amino acids. Since it is a useful resource under consideration, it was used to examine the processability of rice bread. Although the processability of the rice bread was different depending on the type of gum, it was possible to prepare the rice bread as shown in FIG. 1, especially when hydroxypropyl-methyl-cellulose was added.

As a result of measuring the volume growth rate of the dough, the equilibrium rate and the cost of the prepared rice bread, the concentration of hydroxypropyl-methyl-cellulose was 3% as shown in Table 2 while manufacturing the rice bread by varying the content of hydroxypropyl-methyl-cellulose. When the value is high. In addition, as shown in Figure 2, the shape of the rice bread cross section was also the best.

Influence of 4000cp hydroxypropylmethylmethylcellulose on the expansion and mass of dough in rice bread Hydroxypropyl-methyl cellulose (%) Expansion rate of dough Lump Volume (mL / g) 1.0 2.45b 2.67b 1.5 3.69a 4.09a 3.0 3.81a 4.49a 4.5 3.64a 4.25a Note: The a-b values on the same column show significant differences (p <0.05).

Example 2. Comparison of Baking Performance According to Added Fat Type

In general, about 3% of fat is added to improve dough formation and texture of bread. Therefore, the effects of these fats on rice bread production were assayed. As a substitute for gluten, hydroxypropyl-methyl-cellulose was used, and cooking oil, larad, and margarine were added as fats, respectively. As shown in FIG. 3, the moldability and texture of the bread were solid at room temperature such as margarine or laard. It would be better to add phosphorus fat, but the bread tended not to swell well and was hard. Accordingly, cooking oil was used as a lipid to be added when manufacturing rice bread for each rice variety.

Example 3 Examination of Baking by Addition of Active Gluten

To compare the breadability of rice varieties, rice flour, flour, and active gluten were added at a ratio of 65, 20, and 15, respectively, according to the method of Yamamoto et al. (1980). Unlike the addition of gum as a substitute for gluten, the kneading process has a significant effect on the formation of the dough network in the case of the addition of strong powder and active gluten, thus reducing the cost of rice bread prepared by varying the number of kneading. Compared. In addition, the difference between the two methods was examined by using the heating method as dry heating (baking) and wet heating (steaming). As shown in Table 3 below, the cost of bread was the greatest when it was beaten 300 times for dry heating and 500 times for wet heating. And as the number of kneading was increased, the cost of rice bread increased, and dry heating was more preferable than wet heating.

Comparison of specific gravity at various mixing times when kneading Number of mixing Specific gravity (cm ³ / g) Dry heating Wet heating 30 1.29 ^c 1.04 ^c 50 1.44 ^bc 1.18 ^bc 100 1.46 ^bc 1.24 ^bc 200 1.66 ^ab 1.25 ^bc 300 1.98 ^a 1.43 ^b 500 1.78 ^ab 1.77 ^a Note: The a-c values on the same column show significant differences (p <0.05).

Example 4. Comparison of Breadability of Rice by Varieties

Figure 4 shows a cross-sectional view of the rice bread made by adding 3% hydroxypropyl-methyl-cellulose as a gluten substitute material. In addition, a cross-sectional photograph of a rice bread prepared by adding gluten (15%) and strong powder (20%) is shown in FIG. 5. As shown in Figures 4 and 5, when prepared by the addition of 3% hydroxypropyl-methyl-cellulose, when prepared with rice such as Suwonjo, AC 27, IR 44, the baking quality was quite good, gluten (15%) and In the case of the addition of strong powder (20%), the bakery properties of those made from rice such as Suwon 230 or Pusa-33-30 tended to be somewhat better than those of other varieties.

As described above with reference to the experimental examples and examples, the present invention, in the manufacture of rice bread by adding 3% hydroxypropyl-methyl-cellulose as a gum to the rice flour excellent baking aptitude, and adds cooking oil which is liquid at room temperature as a fat. It is a very useful invention in the baking industry because it can effectively provide a rice bread that can increase the cost of rice bread and at the same time give a soft texture.

Claims (2)

In the rice bread, which is added by adding a common subsidiary ingredient to rice flour, and then adding cooking oil as fat and fermenting the composition for preparing a rice bread using methyl cellulose as a gluten substitute, the gluten substitute is a hydroxypropyl-methyl-cellulose of 3% concentration. Rice bread characterized by dry heating after fermentation of the composition for producing used rice bread. In the method of manufacturing a rice bread consisting of the addition of a common subsidiary material to rice flour followed by the addition of cooking oil as a fat and heat treatment after fermentation of a composition for preparing a rice bread using methyl cellulose as a gluten substitute, the gluten substitute is hydroxypropyl of 3% concentration -A method for producing a rice bread, characterized in that dry heating after fermentation of the composition for preparing a rice bread using methyl-cellulose.