RU2113137C1 - Method for producing protein-fat addition for preparation of minced meat and paste-like products - Google Patents

Abstract

FIELD: meat- and poultry-processing industry. SUBSTANCE: novelty of the method is the following: skin of poultry is used as raw material for production of minced meat and paste-like products. At the stage of homogenization, one part of melted chicken fat and one part of chicken broth are additionally added per two parts of raw material. EFFECT: maximum and rational usage of secondary resources; improved functional properties; higher biological value and quality of product; broadened assortment; reduced process time. 7 tbl

Description

 The invention relates to meat, poultry processing industry, and in particular to methods for producing unconventional additives for the production of pasty products and minced meat products.

 The closest in technical essence and the achieved effect is a method of obtaining a protein stabilizer [1], which involves the use of secondary raw materials (pork skins) in sausage production by heat and moisture treatment, grinding in a hot state on a top and cutter with the addition of 50% of the broth from cooking the skin, cooling and re-grinding on the top immediately before use.

 The disadvantages of the method and properties of the product are: a small mass fraction of proteins in the feed (11.5-14% by weight), especially water and salt-soluble fractions, a high mass fraction of the proteinoid fraction, which has low digestibility and assimilation by the body, low nutritional value due to a small proportion of polyunsaturated fatty acids in raw materials, the relative complexity of the process due to repeated operations that increase production costs, assortment and mass limitations (the additive is recommended for use zovaniyu in the development of cooked sausages, meat loaves and sausages 1 grade of not more than 5%; grade 2 - not more than 7%).

 An object of the invention is to ensure maximum and rational use of secondary resources, improve functional properties, biological value and product quality, expand assortment capabilities, reduce the duration of the process as a result of eliminating repeated operations.

 This object is achieved by the fact that in the method of producing protein-fat additives for the production of minced meat and pasty products, the novelty is that the skin of poultry is used as raw material, and at the stage of homogenization, one part of melted chicken fat and one additional are added to two parts of the raw material part of the chicken broth, which ensures maximum stability of the emulsion obtained and satisfies the physiological and biochemical nutritional standards.

 Adding chicken broth to a protein-fat supplement improves its rheological properties and provides reliable forming indicators. The chilled finished product is monolithic and keeps its shape well. The broth contains water-soluble substances, valuable proteins (in the form of polypeptides, free amino acids, water-soluble vitamins) that increase the nutritional value of the product.

 The use of chicken broth and melted chicken fat contributes to a balanced protein-fat ratio of the product (protein: fat ratio - 1: 1).

 The technical result is expressed not only in achieving the task, but also in increasing the yield of finished products, improving their organoleptic characteristics, the possibility of wider use in the composition of the products due to better functional indicators, as well as the possibility of preparing pasty special products after adding spices or seasonings and heat treatment for giving culinary readiness.

 When determining the total chemical composition of collagen-containing raw materials and protein-fat additives, the following methods were used: mass fraction of moisture - [2, p. 3, p. 3]; fat - by the Soxhlet method [3, p.24-25]; protein - [4, p.1-5]; water - [5, p. 1-3]. The fractional composition of proteins was determined by sequential extraction of water-, salt- and alkali-soluble protein fractions, respectively, with distilled water, a solution of potassium chloride with a mass fraction of 5% [6, p. 225] and sodium hydroxide solution with a mass fraction of 10%, followed by quantitative determination of protein with biuret reagent [3, p.22].

 Functional properties were determined: bound moisture according to the method of Grau and Hamm, fat-holding ability, emulsion stability according to [7], the content of heavy metal ions - [8 - 11].

 The chemical composition and functional properties of poultry skin are presented in table. one.

 From the data table. 1 shows that the skin of a land bird naturally provides high biological value, having a significant mass fraction of protein and fat.

 The composition of the feed proteins includes a proteininoid fraction, but there is also a significant amount of water-soluble (3.10% by weight of the feed) and salt-soluble (4.65% by weight of the feed) fractions. This confirms the opinion that the protein of the skin of a land bird is closest to the proteins of muscle tissue, is easily digested and absorbed, and retains moisture well. However, the presence of a significant proportion of alkali-soluble fraction indicates the presence of collagen fibers in the feed. Enrichment of finished products with collagen degradation products will solve the problem of the existing stereotype of refined nutrition, give the products therapeutic and prophylactic properties.

 The amino acid composition of the semi-finished products was determined by chromatography on an AAA-T339 automatic amino acid analyzer (Czech Republic).

 An analysis of the amino acid composition (Table 2) shows that the skin proteins contain their complete set; the mixture is distinguished by a significant proportion of glutamic and aspartic acids (5.61 and 4.07% by weight of protein, respectively), which play a known role in the taste formation of products.

 The study of the amino acid composition of the protein-fat supplement showed a higher value of the mass fraction of free amino acids compared to raw materials, which contributes to better digestibility of the product.

 The fatty acid composition was determined by gas-liquid chromatography on a S-14B gas chromatograph (Japan).

 The high biological value of raw materials and semi-finished products is also proved by a significant mass fraction of fat (10.96% of the mass of raw materials), which is a carrier of large energy reserves. With a lack of fat in the diet, hypovitaminosis occurs, because fat is necessary for absorption of fat-soluble vitamins in the intestine. It contains highly unsaturated fatty acids that are not synthesized by the body in sufficient quantities. The predominant is the fraction of triglycerides, which are a potential source of fatty acids.

 The research results show that the fatty acid composition of free glycerides is represented mainly by five acids: palmitic, palmetoleic, oleic, linoleic and stearic. Myristic and linolenic acid are found in much smaller quantities. The fatty acid composition of the protein-fat supplement showed that the mass fraction of fatty acids in the semi-finished product exceeds their value in the skin, approaching poultry meat. A high value of the mass fraction of free fatty acids helps to increase the nutritional value of the supplement due to the enrichment of the product with polyunsaturated fatty acids (Table 3).

 The study of the functional properties of the poultry skin showed a significant proportion of the bound moisture due to the specificity of the protein composition. The raw material has a low moisture and high fat-holding ability. The low value of the cutoff voltage limit of the raw materials indicates that no additional costs are required for grinding and homogenization and can be carried out using existing equipment.

 The skin of a bird has a pleasant smell and taste. This is explained by the formation during heat treatment of specific substances involved in creating a “bouquet” of taste and aroma (glutamic acid, glucose, volatile fatty acids, etc.).

 Raw materials are environmentally friendly, non-toxic. In terms of the mass fraction of nitrates, pesticides and heavy metal ions, the poultry skin does not exceed the MAC level in poultry meat (see table 1).

 Thus, the raw material has a high mass fraction of protein, fat, high biological value and environmental safety, excellent organoleptic characteristics. Poultry skin can be used in the production of protein-fat additives for the production of minced meat and pasty products.

 The method is carried out in this way.

To prepare a protein-fat supplement, the poultry skin is subjected to preliminary heat and moisture treatment at a liquid coefficient of 1-1.5 and a temperature of 85-90 ^o C for 30-35 min for partial denaturation of protein structures. Then the skin is cooled to 40-50 ^o C, subjected to fine grinding on a homogenizer or cutter for 5-7 minutes with the addition of one part of the broth from cooking and one part of melted chicken fat into two parts of the raw material to obtain a homogeneous mass characterized by high stability of the emulsion.

 Heat treatment is carried out in order to preserve the native properties of the chemical components of the raw material with the effect of weakening the structure of strong proteins.

During thermal moisture treatment, a temperature below 85 ^o C is insufficient to denature the proteins of the feedstock, and above 90 ^o C provides an undesirable deep hydrothermal decomposition of protein systems with the loss of certain amino acids and is associated with additional energy and heat consumption.

 The duration of the heat treatment (30-35 min) is due to the fact that with a shorter period of temperature exposure, the effect is insufficient, and for a longer time it is not economically feasible and does not lead to higher desired product performance.

 The use of a liquid coefficient of less than 1 during thermal moisture treatment is impossible, because this will lead to a decrease in the plastic properties of the raw material; more than 1.5 is also undesirable, since the process will be accompanied by loss of protein in the broth and solids in the finished additive.

 The addition of chicken broth and fat provides a ratio in the protein: fat: water system of 1: 1: 3.5, and the maximum stability of the resulting emulsion.

 A method of obtaining a protein-fat supplement is illustrated by specific examples.

Example 1. Fresh or thawed poultry skin is subjected to preliminary heat and moisture treatment at a liquid coefficient of 1-1.5 and a temperature of 85-90 ^o C. Grind first on a top, and then on a homogenizer at 7000 rpm for 3-5 minutes. To achieve a homogeneous mass for 2 parts of the crushed skin, 1 part of chicken broth and 1 part of melted chicken fat are additionally used until the ratio in the protein: fat: water system is 1: 1: 3,5 (the ratio in the fat: water system is 18% and 65% by weight, respectively), and the maximum value of the stability of the emulsion is 98.5%.

 Example 2. The preparation of raw materials is carried out according to claim 1. To 2 parts of the crushed raw materials add 1 part chicken melted fat and 1.5 parts chicken broth. The stability of the emulsion is 91.5%.

 Example 3. The preparation of raw materials is carried out according to claim 1. 1.5 parts of chicken melted fat and 1 part of chicken broth are added to 2 parts of crushed raw materials. The emulsion stability is 93.0%.

 Example 4. The preparation of raw materials is carried out according to claim 1. 1.5 parts of chicken melted fat and 1.5 parts of chicken broth are added to 2 parts of crushed raw materials. The stability of the emulsion is 90.2%.

 Example 5. The preparation of raw materials is carried out according to claim 1. To 2 parts of the crushed raw materials add 1 part chicken melted fat and 0.5 part chicken broth. The stability of the emulsion is 95.1%.

 Example 6. The preparation of raw materials is carried out according to claim 1. To 2 parts of the crushed raw materials add 0.5 parts of chicken melted fat and 1 part of chicken broth. The stability of the emulsion is 96.2%.

 Example 7. The preparation of raw materials is carried out according to claim 1. To 2 parts of the crushed raw materials add 0.5 parts of chicken melted fat and 0.5 parts of chicken stock. The stability of the emulsion is 94.5%.

 The technological effect is achieved by the functional properties of the semi-finished product. In order to achieve a balanced chemical composition and ensure the necessary structural and mechanical properties, the ratio of protein: fat: water was selected experimentally. The effect was judged by the change in the stability of the resulting emulsion and losses during heat treatment. The data are presented in table. 4, 5.

 During heat treatment, over time, the emulsion shows itself to be very durable - in 1.5 hours the strength decreases by 1.2% (Table 4). The data table. 5 show that the optimal ratio of the protein: fat: water system is 1: 1: 3.5 with a maximum emulsion stability value of 98.5%, which assumes low losses during heat treatment.

 The choice of the optimal ratio of the components of the protein-fat supplement confirms the change in its functional properties (table. 6). High emulsifying ability and stability of the emulsion correspond to a ratio of 1: 1: 3.5. In this case, a significant part in the mass fraction of moisture is associated, predetermining low water-releasing ability. The additive is characterized by high fat-holding ability and stickiness.

When heat-treating food protein-fat additives in the temperature range 85-90 ^o C losses were 1.7% of the original mass. Slight losses due to the high water-binding ability of the semi-finished product, contribute to an increase in the yield of the finished product.

 The set of results of studies of the general chemical, physical, functional, biochemical properties of the protein-fat supplement allows us to suggest its use in the production of minced meat products and pasty products. The use of a semi-finished product increases the yield of the finished product by 1-1.2%, improves its nutritional and biological value, quality, presentation, saves the main raw materials by 15-20%, improves the environmental condition of production.

 The advantages of the proposed technical solution compared to the prototype are presented in table. 7.

 The cost of raw materials in the manufacture of protein-fat additives according to the proposed technical solution is lower than the costs of the prototype 3-4 times; savings when replacing 15-20% of the main raw materials with non-traditional is an average of 36 thousand rubles. per unit of output (in 1994 prices).

 Protein-fat supplement according to the ratio of protein fractions, components in the protein: fat system, the mass fraction of essential amino acids is characterized by high nutritional and biological value.

 The duration of the technical process of obtaining protein-fat additives for the production of monthly minced and pasty products is reduced due to the lack of repetitive operations that take place in the prototype.

 The assortment possibilities of the proposed technical solution when replacing 15-20% of the main raw materials are not limited.

Sources of information
1. Salavatulina R.M. Rational use of raw materials in sausage production. -M .: Agropromizdat, 1985.256 s.

 2. GOST 9793-74. Meat products. Moisture determination methods. - Instead of GOST 9793-61; Enter 01/01/75. -M.: Publishing house of standards, 1978. 4 p.

 3. Zhuravskaya N.K., Alekhina L.T., Otryashenkova L.M. Research and quality control of meat and meat products. -M .: Agropromizdat, 1985.296 s.

 4. GOST 25011-81. Meat and meat products. Methods for determining protein. - Enter. 01/01/83. - M .: Publishing house of standards, 1982. 10 p.

 5. GOST 15113.8-77. Concentrates are food. Methods for the determination of ash. - Instead of GOST 15113.6; Enter 01.01.79 to 01.01.89 // Food concentrates. Test methods. GOST 15113.0 - GOST 15113.9-77. - M .: Publishing house of standards, 1986. 71 p.

 6. Workshop on animal biochemistry / E. S. Savron, V. N. Voronyansky, G. I. Kiselev, Chechetkin, N.L.Doktorovich. - M.: Higher School, 1967.239 s.

 7. Meat Plant Magazin. - 1986. V. 47. N 10. P. 20-21.

 8. GOST 26931-86. Raw materials and food products. Methods for the determination of copper. - Instead of GOST 14353-74 .; - Enter. 01/01/92. - M .: Publishing house of standards, 1991.

 9. GOST 26932-86. Raw materials and food products. Method for determination of lead. Instead of GOST 5370-58 .; - Enter. 12/01/86. - M .: Publishing house of standards, 1976.

 10. GOST 2693.86. Raw materials and food products. - Enter. 12/01/86. - M .: Publishing house of standards, 1976.

 11. GOST 26935.76. Raw materials and food products. Method for the determination of tin. - Instead of GOST 5370-58; Enter 12/01/86. - M .: Publishing house of standards, 1976. 8 p.

Claims (1)

 A method of producing a protein-fat additive for the production of minced meat and pasty products, including thermal moisture treatment, grinding of raw materials on a top, homogenization with the addition of broth, cooling and packaging, characterized in that the raw material is used to dry poultry skin, and at the stage of homogenization into two parts raw materials additionally add one part of melted chicken fat and one part of chicken broth (the ratio in the protein: fat: water system is 1: 1: 3.5).

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