RU2732587C1 - Cupcake on banana flour and milk whey - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to the food industry. Cake production method envisages preparation of a protein-polysaccharide mixture (PPM) of sodium alginate, pectin, carboxymethyl cellulose (CMC) and dry milk whey, addition of hot water with temperature of 70–90 °C to the mixture, stirring and swelling of mixture during 15–45 minutes. Isomalt is then added to the mixture, followed by mixing and boiling to produce a foam mass. At the same time a mixture of yolk and vegetable oil is prepared by way of mixing for 1 minute, then the obtained foam mass is combined with a mixture of yolk and vegetable oil and whipped during 1–4 minutes to obtain a beaten mass. Then one introduces a flour component into the produced beaten mass, the flour component is preliminarily mixed with ammonium carbonate and soda, then banana flour is added and mixed to produce a homogeneous consistency dough of moisture content of 25–27 %, a flavoring agent is added. Produced dough is delivered for molding, baking and further cooling. Flour component is selected from rice flour, a mixture of potato and maize starch or a mixture of rice flour, potato starch and maize starch. Vegetable oil is selected from sunflower, walnut, sesame, rapeseed, linseed oil and mixtures thereof. Initial components are taken at the specified weight ratio.

EFFECT: invention allows to produce a cake on banana flour with increased storage life without using trans fats and saturated fats and sugars.

1 cl, 1 dwg, 7 tbl, 21 ex

Description

The invention relates to the confectionery industry, namely to the production of flour confectionery products.

The closest in technical essence to the proposed invention is a method for preparing a cake, providing for the preparation of raw materials, churning butter with sugar crushed into shavings in a kneading machine for 5-7 minutes until the sugar crystals are completely dissolved, gradually adding the yolk in 3-4 doses, churning the resulting mass until saturation with air and an increase in volume by 2 times. At the same time, egg white is knocked down for 10-13 minutes and added to the mass. The knocked down mass is mixed with all the rest of the raw materials (starch, essence, etc.) and, last of all, with flour until a homogeneous mass is obtained. The total dough kneading time is 25-30 minutes. The moisture content of the dough is 22-25%. Next, the dough is divided into portions, placed in molds, pre-oiled, and baked in various types of ovens. The baking time depends on the temperature and the design of the oven (60 minutes at 180-190 ° C). The baked muffins are cooled for 4-5 hours at room temperature to stabilize the muffin structure. Then the surface of the cake is finished with various finishing semi-finished products (powdered sugar, lipstick, nuts), packaged and marked. Storage of muffins is carried out at a temperature of 18-20 ° C and a relative humidity of not more than 75% ["Technological instructions for the production of flour confectionery", Moscow, 1992, p. 159-161].

The main components of the cake recipe on chemical baking powder are flour, sugar, butter or margarine, eggs and additives (raisins, nuts, candied fruits, marmalade, flavoring and aromatic substances). First, butter or margarine with sugar is knocked down, which ensures the formation of an emulsion of the "butter in sugar solution" type. Then, egg yolk is gradually added to the fat-sugar solution in 3-4 doses, which makes it possible to stabilize the fat droplets in the emulsion and enrich the mass with air, while the volume of the mass doubles. At the same time, beat the egg white until a foamy mass is formed and both masses are mixed. The rest of the raw materials (starch, essence, chemical leavening agents, etc.) are introduced into the resulting mass, and finally flour is added and mixed until a homogeneous dough mass is obtained. The dough mass of the cake is an emulsion-foam system, in which the dispersed phase is butter droplets and air bubbles, and the dispersion medium is a sugar-egg solution with flour particles. At the same time, the egg whites form shells, both on the fat droplets and on the air bubbles, which stabilizes the structure of the cake dough.

When baking the dough mass of the cake, the proteins of the egg and the gluten of the flour interact, which makes the structure of the cake hard. The disadvantage of butter is the presence of trans fatty acid - vaccenic acid, which is naturally produced in the process of biohydrogenation in the body of animals. The presence of trans fatty acid in butter has a negative effect on the body.

There is a problem of replacing butter and margarine in the cake recipe with vegetable oils (sunflower, nut, sesame, rapeseed, linseed and their mixtures), the complexity of which lies in the potential mechanical and chemical incompatibility of the additive and matrix. At the same time, it is difficult to preserve the traditional structure of the cake and avoid the degradation processes of polyunsaturated fatty acids (PUFAs) contained in vegetable oils. Incompatibility is manifested in the leakage of vegetable oil from the cake even at a low concentration in the product, unless additional measures are taken to bind and / or prevent the direct interaction of matrix substances and additives.

The disadvantages of this method also include a fairly high sugar content in the cake recipe. Loss of water during storage of the cake leads to a decrease in product quality, hardening and aging. The presence of wheat flour in the cake does not allow it to be classified as gluten-free.

Thus, there is a need to develop a gluten-free cake formulation enriched with vegetable oils and with a low sugar content, low energy value and an increased shelf life.

Examples of such designs are known in the art.

A known method for preparing a cake, including churning chicken eggs with sugar, mixing the whipped mass with a fatty product, raisins, table salt, a chemical baking powder, adding wheat flour and kneading dough, molding and baking, characterized in that fructose is used as sugar , and as a fat product - a mixture of sunflower oil and melted table margarine, as a baking powder - sodium bicarbonate, and additionally in the product is introduced semolina, whey, soy fortifier "Okara" [RU 2276497 C2, publ. 20.05.2006]. This method does not eliminate the problem of completely excluding chicken egg protein and trans fats from the cake recipe. Also, the increase in the shelf life of the cake from 7 to 8 days cannot be called significant.

There is a known method of preparing a cake without sugar, the sweetness of which is achieved by introducing banana flour into the recipe. However, the resulting cake is made with flour with a high gluten content (CN 105875712 A, 08.24.2016).

From patent RU 2651285 C1, 19.04.2018, a dry mixture for the production of preventive muffins based on rice and banana flour with the addition of dry coconut milk is known.

Also known is a method for preparing gluten-free paste for obtaining various bakery products based on flour from green bananas (BR 200903673 A2, 05/10/2011). However, this method does not take into account the peculiarities of preparing the muffin dough.

The aim of the present invention is to develop a formulation and technology for a whey-based cake using an encapsulated liquid oil in shells from a protein-polysaccharide mixture, replacing sugar with a mixture of isomalt and banana flour, and wheat flour with rice flour and / or a mixture of starches.

The objective of the invention is to select and select a mixture of whey and polysaccharides to obtain a frothy mass that ensures the preservation of the structure of a traditional cake with the exclusion of egg protein from the recipe and effective encapsulation of vegetable oils, a decrease in the density of the cake, the selection of sweeteners, optimal for cake, - isomalt and banana flour, allowing to obtain diabetic products, replacing wheat flour with rice flour and / or a mixture of starches, and selecting the quantitative ratio of components.

The cake recipe uses a protein-polysaccharide mixture (BPS), consisting of dry whey and polysaccharides, namely sodium alginate, pectin and carboxymethyl cellulose (CMC), both to replace egg white and to encapsulate vegetable oil instead of butter or margarine ...

1. Encapsulated vegetable oil is obtained in the process of emulsification of a mixture consisting of vegetable oil (sunflower, nut, sesame, rapeseed, linseed and their mixtures) and an aqueous solution of protein-polysaccharide mixture (BPS), at a ratio of 1: 1-2. The composition of BPS includes milk whey and a mixture of polysaccharides, namely sodium alginate, pectin and carboxymethyl cellulose (CMC). The use of a triple mixture of polysaccharides is due to the fact that sodium alginate, pectin and CMC exhibit a synergistic effect, which ensures the formation of a thickening layer on the surface of the milk protein.

2. The use of whey is due to the fact that a large proportion (70-80%) of proteins are β-lactoglobulin and α-lactoglobulin. These proteins, and especially β-lactoglobulin, are able to bind to lipophilic compounds of vegetable oil to form protein-lipid compounds. Whey proteins exhibit foaming and emulsifying properties, the effectiveness of which is influenced by the conformational flexibility of high polymers. Milk proteins, due to their amphilic nature (hydrophilic and hydrophobic properties), they have a good ability to diffuse, absorb and stabilize at the interface of both oil droplets and air bubbles, thus acting as effective emulsifiers and foaming agents in the production and stabilization of emulsion-foam test structure.

3. Bananas are consumed all over the world and are mainly grown in tropical countries. According to FAO (Food and Agriculture Organization of the United Nations), world banana production is over 100 million tons annually. The share of Russia annually accounts for about 5.6% of bananas produced in the world. Bananas account for about 14% of all fruit imports to Russia. The average Russian consumes about 8-9 kg of bananas annually. Bananas contain high amounts of dietary fiber, essential minerals (calcium, magnesium, potassium and phosphorus), vitamins (A, B ₁ , B ₂ , C) and antioxidant polyphenols, which are known for their preventive effects against cancer, rheumatoid arthritis and cardiovascular diseases ... Bananas are a source of starch, the content of which is 60-80% based on dry weight, depending on the variety. Banana starch has prebiotic properties and is a resistant starch that is effective in preventing high cholesterol and / or high postcranial glycemia. Recently, banana flour has been dried from banana, which is successfully used in food for celiac and diabetes patients.

4. Replacing part of the sugar in the cake recipe with banana flour allows to reduce the calorie content of the product, enrich it with dietary fiber and completely eliminate wheat flour. Banana flour contains up to 5% protein and about 5.5% dietary fiber. Mixing banana flour, rice flour and encapsulated vegetable oil in BPS casings allows you to create a framework in the dough, similar to flour gluten, and also significantly increase the viscosity and heat resistance of the dough. This ensures the expansion of air bubbles trapped in the cake dough during baking, a high rise of the dough piece and the formation of a golden crust on the surface of the cake. Using a mixture of banana and rice starches has a positive effect on the final volume, cell structure and tenderness of the product. Sensory results showed that replacing butter, sugar, and wheat flour improved the chewiness of baked muffins without altering the sensory properties of the muffins, such as crumb cell structure, taste, odor, and sweetness.

5. In the case when the cake is prepared on a mixture of corn and potato starches, a unique structure of finished products is provided due to the fact that each of the used types of starch has a certain granulometric composition that is different from each other. In addition, the helical structure of starch amylose captures vegetable oil droplets and thereby further stabilizes the product.

The task is achieved by the fact that the method for the production of cake provides for the preparation of a protein-polysaccharide mixture (BPS) from sodium alginate, pectin, carboxymethyl cellulose (CMC) and whey powder, adding hot water to the mixture at a temperature of 70-90 ° C, mixing and swelling of the mixture within 15-45 minutes, the introduction of isomalt into the mixture, followed by mixing and boiling to obtain a foamy mass, in parallel prepare a mixture of yolk and vegetable oil by mixing for 1 minute, then combine the resulting foamy mass with a mixture of yolk and vegetable oil and knock down within 1-4 minutes to obtain a knocked down mass, after which a flour component is introduced into the resulting knocked down mass, pre-mixed with ammonium carbonate and soda, and then banana flour is added and mixed to obtain a dough of uniform consistency with a moisture content of 25-27%, add flavor , the resulting dough is sent to molding, baking and subsequent cooling. Moreover, the flour component is selected from rice flour or from a mixture of potato and corn starches, or a mixture of rice flour, potato starch and corn starch, and vegetable oil is chosen from sunflower, walnut oil, sesame, rapeseed, linseed and their mixtures. In this case, the ratio of the initial components in mass parts is:

Flour component 200-310 Banana flour 110-220 Isomalt 180-235 Vegetable oil 140-180 Yolk 100-125 Powdered milk whey 110-150 Sodium alginate 0.4-5.0 Na-KMC 0.4-4.0 Pectin 0.4-6.5 Water for BPS 450-560 Flavoring 0.05-0.1 Ammonium carbonate 2.8-3.5 Soda 2.7-3.5

In this case, the ingredients of the flour component, such as: rice flour, a mixture of corn and potato starch, a mixture of rice flour, potato and corn starch, can be taken to obtain a flour component in arbitrary quantities, which will not affect their ability to retain droplets of vegetable oil in cupcake.

The technical result consists in improving the quality of the cake, which is characterized by a thinner crust, a lower density of the product, as well as an increased shelf life of the cake (from 7 to 11 days). When baked, the protein-polysaccharide mixture forms a gel network, which is similar to the gluten framework of flour, which improves the structure of the product. The manufacturing process is characterized by a rapid rise of the dough during baking, due to an increase in the viscosity and heat resistance of the dough, better moisture retention due to the use of BPS (whey, sodium alginate, pectin and CMC). It was found that the introduction of isomalt, a mixture of starches, rice flour and banana flour has an additional stabilizing effect on the structure and viscosity of the dough, reduces the calorie content of the product and increases its shelf life. The quantitative selection of the components included in the cake recipe provides a product that corresponds to the traditional one in terms of organoleptic characteristics.

The technology allows you to enrich muffins with whey proteins, dietary fiber, liquid polyunsaturated fatty acids and increase the biological value of the product.

The quantitative selection of the components included in the cake recipe ensures that the organoleptic characteristics correspond to a traditional product, with the exclusion of trans fats, saturated fats and egg white from the product, which makes it possible to recommend it in the diet of the elderly, diabetics, athletes and vegetarians.

Polysaccharides with a high water-holding capacity bind water with whey, while the rheological properties of the dough are improved, which leads to a larger product and slows down the process of hardening of the product.

The quality of muffins during storage was assessed by changes in structural and mechanical properties. Determined the relative compressibility of the test samples on the "AP-4/2" penetrometer, which makes it possible to objectively assess the degree of change in the properties of the cake during storage. The initial value (immediately after preparation of the cake) of the total compressive strain was taken as 100%. Next, the index of total deformation for the muffins was determined after 7 days. The relative compressibility of muffins during storage for 7 days decreased: in the prototype - by 39%, in the samples prepared according to examples 1-21 - by 10%. On the 11th day for the sample according to the invention, the relative compressibility compared to the initial value decreased by 25%.

The scheme for making a cake using the proposed technology is shown in Fig. 1. For the preparation of the cake use the technological modes shown in the diagram.

Tables 1-7 show examples of making a cake using the proposed technology.

Claims (2)

A method for the production of cake, providing for the preparation of a protein-polysaccharide mixture (BPS) from sodium alginate, pectin, carboxymethyl cellulose (CMC) and dry milk whey, adding hot water at a temperature of 70-90 ° C to the mixture, mixing and swelling the mixture for 15-45 min, introduction of isomalt into the mixture, followed by mixing and boiling to obtain a foamy mass, in parallel prepare a mixture of yolk and vegetable oil by mixing for 1 min, then combine the resulting foamy mass with a mixture of yolk and vegetable oil and knock down for 1-4 min to obtain a knocked down mass, after which a flour component is added to the resulting knocked down mass, pre-mixed with ammonium carbonate and soda, and then banana flour is added and mixed to obtain a dough of uniform consistency with a moisture content of 25-27%, a flavoring agent is added, the resulting dough is sent to forming, baking and subsequent cooling, and the flour component is selected from rice flour or from mixtures of potato and corn starches, or mixtures of rice flour, potato starch and corn starch, and vegetable oil is selected from sunflower oil, walnut oil, sesame oil, rapeseed oil, flaxseed oil and their mixtures, while the ratio of the initial components in mass parts is: Flour component 200-310 Banana flour 110-220 Isomalt 180-235 Vegetable oil 140-180 Yolk 100-125 Powdered milk whey 110-150 Sodium alginate 0.4-5.0 CMC 0.4-4.0 Pectin 0.4-6.5 Water for BPS 450-560 Flavoring 0.05-0.1 Ammonium carbonate 2.8-3.5 Soda 2.7-3.5

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