RU2680296C1 - Method of obtaining a fatty product with the extract of hot chile peppers - Google Patents

Abstract

FIELD: fat and oil industry.SUBSTANCE: invention relates to fat and oil industry. Method of obtaining a fatty product with a peppery taste, involving the selection and preparation of plant raw material from podded hot peppers of the genus Capsicum, grinding of dry peppers into a large fraction with a size in the range from 3 to 8 mm. Then choose food fat in the amount of one part, put it in a container and melt to a temperature from 70 to 75 °C, achieving uniform heating of the entire mass. After dry ground pepper is poured, in amount of from 1/10 to 1/5 of part, into melted fat, extraction is carried out for 1 to 3 hours keeping the temperature in the range from 70 to 75 °C, then the product, before cooling, is drained from the container and filtered, and then poured into containers.EFFECT: invention allows to obtain a fatty product enriched with capsaicin, with a taste of melted fat and peppery taste with a delayed action, as well as having biological activity and a long shelf life of up to 3 years.12 cl, 2 dwg

Description

The field of technology.

The invention relates to the oil and fat industry and can be used in the production of edible fats, for the preparation of culinary burning fats of animal and / or milk origin, with delayed burning, which are able to keep their shape at normal room temperature, are solid or dense, viscous (smeared) and have increased to 3 years shelf life.

The level of technology.

A known method for the production of ghee (source [1]: patent RU 2400095. Published: 09/27/2010). Ghee contains milk fat of cow's milk, it is made from butter by melting the fat phase. The method is implemented as follows. The raw oil is melted and the melt is pasteurized at a temperature of 105 ° C for 2-3 hours. Precipitated plasma. Lighten and cool the fat melt to a temperature of 35 ° C (degrees Celsius). Carrot powder is added to the cooled melt in an amount of 5% by weight of the finished product and mixed for 10 minutes. The invention [1] allows to simplify the production method, to obtain a product with high biological value and increased shelf life. Ghee obtained in this way [1] has a taste and smell of melted milk fat, without extraneous smacks and smells. Appearance and consistency at room temperature (15 ± 5) ° С (degrees Celsius) - dense, homogeneous mass, color uniform from light yellow to yellow. Ghee contains fatty acids, vitamins and minerals valuable to humans. Ghee can be successfully used in the frying process to lubricate a heated surface and provide a non-stick effect.

It is known that a burning taste does not stand out among the main tastes, but is considered as a very important characteristic of spices for the food industry. It is associated with the perception of substances that stimulate the "thermal" TRPV receptors. Substances with a “burning taste” excite the branches of the trigeminal nerve and contribute to the “pure taste” sensation. The method [1] does not allow to obtain a product with a burning taste, the final product according to the method [1] is not additionally enriched with capsaicin, vitamins and minerals useful to humans, the product does not cause a burning sensation of burning, pungency, and at the same time has a limited shelf life (less than one of the year).

Known edible animals are melted fats (beef, mutton, pork, horse, goose, duck) and methods for their production. Known food fats for fats, raw fats and melted fats (source [2]: National Standard of the Russian Federation GOST R 54676-2011 Edible fats for birds. Technical conditions. Date of introduction 2013.01.01.), Intended for sale and production of food products. Fats by the type of raw materials used are divided into chicken, turkey, goose, duck. Ghee poultry fat in terms of processing quality, organoleptic and physico-chemical has the following indicators. Color at a temperature of 18 ° C to 20 ° C for chicken and turkey from light cream to light yellow, from matte white to cream of various intensities, for goose and duck from matte white or light cream to cream of various intensities. Transparent or opalescent in a molten state. The smell and taste characteristic of this type of fat, without extraneous taste and smell. Consistency at a temperature of 18 ° C to 20 ° C from liquid to smearing. To produce fats, internal fatty tissue is used from the abdominal cavity of carcasses, from the muscle stomachs and intestines of chickens, turkeys, geese and ducks, which is heated to its melting point and poured into a container. Goose fat is one of the most valuable. It is easily digestible, as it contains a large amount of unsaturated fatty acids. The melting point of goose fat is in the range from 26 to 34 ° C, the viscosity of goose fat is close to the viscosity of butter and is 4,640, it practically does not contain cholesterol and is a valuable dietary product, and is also widely used in the pharmaceutical industry. The shelf life of melted poultry fat is not more than 8 months.

Fish fats are also known (source [3]: http://findfood.ru/product/zhir-lososia). Fish oil refers to animal fats, which are compounds containing a large amount of natural fats. Animal fats are obtained from adipose, as well as bone tissue. Often, fish oil is obtained from cod fish species. In addition, the product is extracted from herring, mackerel and other so-called fatty fish species. Salmon fat or cod fat is found in the liver and subcutaneous tissues of fish. Salmon fat, which is obtained by processing predatory fish, is especially valuable. It is used for medical, technical and food purposes. The chemical composition of salmon fat contains a large amount of saturated omega-6 and omega-3 fatty acids. Polyunsaturated fatty acids have a general beneficial effect on the human body. In addition, Omega-3 and 6 are used in the prevention and treatment of diseases such as atherosclerosis. Acids contained in salmon fat reduce the level of triglycerins in the blood, and also help prevent blood clots. Regular consumption of salmon fat helps to improve thyroid function, as well as reduce the risk of diseases of the cardiovascular system. Salmon fat contains a large amount of vitamin A, which has an effect on metabolic processes. For the production of edible animals, melted fats use the adipose tissue of animals, poultry, fish (raw fat), which are heated to the melting point and poured into containers to separate foreign impurities.

A known method of producing ghee ostrich fat (ghee animal fat food) (source [4]: patent RU 2382072. Published: 02/20/2010). The method includes grinding adipose tissue (raw fat), mixing it with the aqueous phase, heat treatment and separation of fat. As the aqueous phase, an electroactivated liquid (catholyte) is used, obtained by electrolysis of a 10% aqueous NaCl solution at a constant current of 0.5-0.6 A and a voltage of 36-50 volts, with a pH of 9-11 with a redox potential ( -400) - (- 700) mV and a mass fraction of NaCl of 3-5%. Heat treatment - fat heating is carried out at a temperature of 80-95 ° C and a residual pressure of 20 mm Hg, the heating time is 60-120 minutes. The invention allows to increase the yield of fat, improve its quality, reduce the acid and peroxide amount of fat. Organoleptic characteristics of edible animals of melted fats are determined by the composition of the feedstock. The smell and taste characteristic of the type of raw fat. Color from white, yellow-white, to yellow. The consistency at room temperature is dense, solid. It contains fatty acids, vitamins and minerals that are valuable to humans and can be successfully used in the frying process to lubricate a heated surface and provide a non-stick effect.

However, the known methods [1; 2; 3; 4] do not allow to obtain a fatty food product with a burning taste with a delayed effect, containing melted fat enriched with hot peppers of the genus Capsicum, having a spicy aroma and a burning taste. The final product [1; 2; 3; 4] is not additionally enriched with vitamins and minerals useful for humans, has a limited shelf life of not more than one year.

Various sauces are known that include leaves of various types of red pepper (Capsicum genus) as an active ingredient, for example, Tabasco sauce and its production method are known (source [5], Internet resource https://ru.wikipedia.org/wiki/Tabasco_ ( coyc)). The sauce is obtained by mixing the ingredients. Due to the burning sensation caused by red pepper on contact with mucous membranes, Tabasco sauce is commonly used in foods to provide a “burning taste” or “pungency” (piquancy), usually in the form of spices such as chili powder and paprika. When the peppers ripen and blush, they are mashed with special salt, and then this mixture is poured into wooden barrels and left to roam for three years. After that, pepper puree is mixed with high-quality distilled vinegar, then filtered and bottled.

This product [5] has a cooking value, however, it does not have the consistency, aroma and properties that ghee and ghee possess. The sauce has a different nutritional value; it does not contain such biologically active components as mono- and polyunsaturated fatty acids in the required amount. The described method [5] does not allow to obtain a edible fat product with a burning taste with a delayed effect containing melted fat enriched with hot peppers of the genus Capsicum, which has a spicy aroma and a burning taste. The final product according to the method [5] does not contain vitamins and minerals contained in fats and useful for humans, is not applicable for lubricating a heated surface and providing a non-stick effect when frying.

It is known that the use of hot chili peppers (of the genus Capsicum) causes a burning sensation that it produces in the mouth, and this action is due to capsaicinoids (capsaicin, dihydrocapsaicin, nordihydrocapsaicin, homocapsaicin, homodihydrocapsaicin) and is usually used in foods to make them more burning (sharp). The main biologically active component responsible for the severity of chili peppers, red pepper (genus Capsicum) is capsaicin. Capsaicinoids are chemical compounds responsible for the sensation of “burning” or burning, usually associated with the fruits of plants of the genus Capsicum, for example, chili peppers. Capsaicin is an alkaloyl, 8-methyl-N-vanillyl-6-nonamide, which has the ability to stimulate energy expenditure and / or fat burning. Capsaicin intake is thought to be associated with increased metabolism, making it a potential therapeutic agent for metabolic diseases. Capsaicinoids have many pharmacological and physiological effects, such as anti-inflammatory, antioxidant and antitumor effects. Capsaicinoids reduce the adverse effects associated with the consumption of foods high in fat and the consumption of sucrose by regulating energy metabolism, the oxidative process and the proteins involved in the process. (Source [6]: J Inflamm Res. 2017 November 13, 10: 161-168. ECollection 2017. Induced capsaicinoids can eliminate a low-fat, high-carbohydrate and obese diet by regulating the oxidation pathways of NADPH and Nrf2. Sahin K, Orhan C, Tuzcu M, Sahin N, Ozdemir O, Juturu V. PMID: 29180887 PMCID: PMC5691899 DOI: 10.2147 / JIR.S149087 / J Inflamm Res. 2017 Nov 13; 10: 161-168. ECollection 2017. Ingested capsaicinoids can prevent low-fat-high-carbohydrate diet and high-fat diet-induced obesity by regulating the NADPH oxidase and Nrf2 pathways.Sahin K, Orhan C, Tuzcu M, Sahin N, Ozdemir O, Juturu V. PMID: 29180887 PMCID: PMC5691899 DOI : 10.2147 / JIR.S 149087). Capsaicin (8-methyl-6-nonenoic acid vanillamide) has a melting point of 65 ° C, a boiling point of 210 to 220 ° C at 0.01 mmHg. Capsaicin is practically insoluble in aqueous solutions of alkalis, but it is easily soluble in organic solvents, ethyl alcohol and fats. Capsaicin, a substance with a burning taste. Hotness is determined by the Scoville Scale. The Scovilla Units (ECU) units provide an estimate of the capsaicin content and are based on organoleptic testing of pepper extracts. Pure capsaicin cannot be used for safety reasons, due to instant and severe irritation of the receptors, while it is able to reach the stomach, causing a strong burning sensation, a way to lead to pain shock.

Therefore, it is preferable to create and use products that provide a delayed release of burning capsaicin. Substances that can alleviate the burning taste, make the burning sensation of capsaicin more “soft” are fats. However, there are no ways to obtain a fatty food product with a burning taste with a delayed effect, with a shelf life of up to 3 years, containing melted fat enriched with hot peppers of the Capsicum genus, having a spicy aroma and burning taste, enriched with vitamins and minerals useful for humans.

The essence of the technical solution.

The objective of the present invention is to develop a method for producing a fat product enriched with capsaicin, which has a new combination of properties, combining mechanical (hard, viscous, smearing at room temperature), taste (burning taste with delayed manifestation), aromatic (aroma of the starting components) and useful properties of melted fats and hot peppers (of the genus Capsicum), moreover, the product is homogeneous, without visible inclusions and discrete particles, with a long, up to 3 years, shelf life (shelf life for its intended use NIJ).

The technical result consists in obtaining a fat product enriched with capsaicin, which has new taste properties that combine the taste of melted fat and the burning taste of hot peppers of the genus Capsicum with a delayed effect, as well as having biological activity and an extended shelf life of up to 3 years.

The technical result is achieved by the fact that in the method of obtaining a fatty product with a burning taste, vegetable raw materials are selected from Capsicum genus hot peppers (chili, red, cayenne, jalapenos, tabasco, habanero, or other Capsicum varieties similar to those indicated by taste and degree of burning ), subjected to forced drying, grind dry peppers into a coarse fraction with a size in the range from 3 to 8 mm, choose one-part edible fat, put the fat in a container and melt it, heat the fat to temperature in the range from 70 to 75 ° C, achieving uniform heating of the entire mass, pour dry ground pepper, in an amount of 1/10 to 1/5 part, in melted fat, extraction (enrichment) is carried out for one hour to three, maintaining a temperature in the range from 70 to 75 ° C, then the product, before cooling, is drained from the tank and subjected to filtration, and then poured into a container.

It is envisaged that the method uses cooking oil of animal origin or cooking oil of milk origin. It is envisaged that the method uses cooking oil with a melting point in the range from +5 to + 50 ° C. It is assumed that in the method the filtration is carried out through a sieve and paper filters, and the fat is heated in a water bath or in an industrial electric food warmer. It is assumed that the vegetable raw materials (pods of peppers) in the preparation process are subjected to quick drying in an oven, warm air is forced to be injected into the raw materials with a temperature in the range from 35 to 45 degrees for 8 to 10 hours, achieving a residual moisture content of not more than 5-10% .

The method allows to obtain a fatty food product with a burning taste with a delayed effect containing melted fat enriched with hot pepper from the genus Capsicum. At the same time, it is stipulated that clarified fat is melted cooking oil of animal origin or melted cooking oil of milk origin or melted spread from a mixture of vegetable, milk fats, animal fats, or melted margarine. In this case, preferably the product has a melting point in the range from +5 to + 50 ° C, homogeneous in structure (uniform in volume, without visible inclusions, dispersed particles), one-color with a uniform color distribution. Ghee is enriched (saturated) with one of the following peppers or a mixture of them: chili, red, cayenne, jalapeno, tabasco, habanero, or other varieties of Capsicum, similar to those indicated by taste and degree of burning. Preferably this is a mixture of two or three peppers of different varieties from the genus Capsicum, the same color in the ripening stage, mixed in equal proportions. One part of melted fat (for example, 1 kg) is extracted (enriched, saturated) with a portion of dry peppers from the genus Capsicum in an amount ranging from 1/10 to 1/5 parts (in relation to 1 kg of melted fat, this amount is in the range from 0.1 to 0.2 kg.). The degrees of product stiffness are preferably in the range of 7,500 to 50,000 units on the Scoville scale.

The product obtained by the claimed method is intended for consumption in food, in cooking for the preparation of various meat, fish, potato, pasta, etc. dishes and soups, as a fat spicy-burning additive, while the introduction of the product is possible at different stages of cooking, stewing and frying and gives them an original and lasting taste. In addition, it can be used as a biologically active additive for the prevention of cancer, as an anti-inflammatory heating agent for external use.

The image of the product obtained by the claimed method is presented in the photographs, where

FIG. 1 - fat product with an extract of hot chili peppers, obtained by the claimed method: butter ghee with an extract of red chili peppers, orange, medium hotness;

FIG. 2 - fat product with an extract of hot chili peppers obtained by the claimed method: butter ghee with an extract of a mixture of light brown cayenne peppers, light brown, medium hotness.

The method is as follows.

Vegetable raw materials are selected and prepared. The necessary types of Capsicum chilli peppers (chili, red, jalapenos, tabasco (cayenne), habanero, or other Capsicum varieties similar to those in taste and degree of stiffness are selected. A careful selection of high-quality freshly picked fruits of the Capsicum genus without signs of sweetness, rot and other damage to the shell, the stalks are removed.The selected plant material is washed with water from possible dirt and dust, dried in an electric dryer, or in an oven, from surface moisture. operation, forced drying of the pepper pods using industrial and semi-industrial drying cabinets. Forcing warm air with a temperature ranging from 35 to 45 degrees into the working chambers of the drying cabinet. The pepper pods are dried for 8-10 hours to 90-95% (residual humidity no more 10%), while they retain almost their entire chemical composition, which avoids significant loss of beneficial properties (minerals and vitamins, the percentage of capsaicin in the partitions and seeds of the fruit), which is impossible with long-term drying. At the end of drying, the pepper pods are ground into large fractions. Grind dry peppers using a grinder (for example, on classic, electric industrial meat grinders), into a large fraction (flakes) with a transverse size of at least 3 mm and not more than 8 mm, providing as little powder, dust in the crushed pepper as possible. The chopper should not destroy part of the dry pepper mixture to the state of powder and dust, since this makes it difficult to remove pepper particles from the product when it is filtered, and significant and unjustified losses in the mass of the final product occur. The size of the dry pepper fraction from 3 to 8 mm allows the plant mixture to transfer its elements, color and chemical composition to the melted fat as efficiently as possible. Next, crushed dry pepper is used for extraction. In this case, a fraction of one variety of pepper can be used, as well as various mixtures of peppers. To give the product a unique taste and color, the percentage of peppers and the amount of pepper mixture are selected individually for the type of fat, depending on the formulation and the required degree of burning.

Choose dietary fat. It is possible to use all kinds of animal and milk fats, other oil and fat products, based on their mixtures with vegetable oils (spreads and margarines), subcutaneous and interior fats of livestock and poultry, freshwater and marine fish. Animal fat is subcutaneous and interior fat, including beef, pork, badger, poultry (geese, ducks, turkey), sea fish (cod, salmon). These fats provide high-quality extraction of the necessary substances from capsicum during the thermal process. After enrichment, they acquire a burning taste, increased shelf life, and increase nutritional value. The main requirement - the product must be natural and not contain artificial flavoring additives, additives that increase the shelf life. The fat is placed in a container and melted in a water bath. Either in the food warmers, or in the oven, gently, for one hour, heat the fat to a temperature in the range from 70 to 75 degrees Celsius, achieving uniform heating of the entire mass. For successful and correct extraction, industrial electric food warmers are the most suitable, allowing to maintain and control the heating of the contents with a high degree of accuracy. As a rule, when reaching 60 degrees Celsius, most known edible fats are completely melted. A temperature in the range of 70 to 75 degrees Celsius ensures that the fat reaches its liquid state of aggregation. Make (fall asleep) dry coarse pepper of the genus Capsicum (vegetable mixture) in melted fat, and mix thoroughly. After uniform heating of the entire mass, the time begins for the countdown of extraction (enrichment of fat). Extraction is carried out from one hour to three, maintaining the temperature in the range from 70 to 75 degrees Celsius. This ensures that the fat retains its liquid state of aggregation and enriches it with capsaicin, vitamins, trace elements, and aromatic substances contained in pepper particles. At the same time, capsaicin contained in pepper particles has a melting point of 65 degrees Celsius, which allows it to transfer from pepper particles to melted fat. An increase in temperature of more than 75 degrees Celsius does not affect the burning ability and aroma of the final product, does not accelerate the process of enrichment of melted fat with capsaicin, however, it can lead to the destruction of other valuable trace elements, vitamins, and aromatic substances passing from pepper particles to melted fat. Lowering the temperature to less than 70 degrees slows the enrichment of melted fat with capsaicin and other substances. The duration of extraction (enrichment), as a rule, is no more than an hour, while the extraction time depends on the degree of hotness of the peppers, the saturation of their color. An increase in the duration of extraction, but no more than up to three hours, is required in those rare cases when the plant raw material, during the ripening period, did not quite reach, for various reasons, the required characteristics (reduced hotness and color, muffled aroma and taste). An increase in the duration of extraction for more than three hours does not lead to a more complete saturation of melted fat with the necessary substances contained in pepper, and therefore it is impractical. As a rule, the temperature, in the range from 70 to 75 degrees Celsius, is maintained for 1.5 hours. After extraction is complete, the product immediately, before cooling and solidification, is drained from the container and filtered, in order to remove pepper particles (flakes). After extraction of the pepper particles, valuable substances were transferred to the melted fat and should not be stored in the finished product, since they do not have nutritional value, but on the contrary worsen the consumer properties of the finished product (reduce the shelf life, burn when frying, interfere with the use of the product, since they do not dissolve when heating). The product is passed through a sieve, or its analogues - lattices, colanders, etc. with a mesh size providing complete purification of the melted product from visible pepper particles. After complete draining, the product is again heated to a temperature in the range from 60 to 70 degrees Celsius to give the necessary fluidity during filtration and passed again through paper filters similar to paper napkins. It was they who proved themselves to be of the highest quality when separating finely dispersed residues of pepper particles, sediments and impurities from the finished product. If necessary, the filtering process is repeated until the removal of possible sediments and small particles, pepper flakes. Then the product in hot (melted) form is poured into a glass container for cooling, solidification, storage and further use as intended. The product is cooled, as a rule, at a temperature of 7 to 25 degrees Celsius, the main thing is that the temperature is below the melting point of fat. The finished product retains its density and viscosity, like the original fat, but it acquires a new color and properties. In appearance, the product is monophonic, with an even distribution of color acquired by it from pepper particles, the color depends on the color of the original plant material, its amount in fat. The product has a pleasant pepper aroma and a stable, long-lasting burning (spicy, spicy, burning) taste with a delayed effect. The “mild” delayed action is due to the combined components, fat and capsaicin. It is known that fats (dairy including milk containing fats, animal fats and vegetable oils) soften the burning and painful effects of capsaicin. The product has a pronounced and saturated color transferred to it from the pepper during the extraction process and may be completely different depending on the composition of the mixture of peppers - red, green, purple, orange, chocolate, etc.), depending on the natural color of the peppers. Capsicum pepper acquires all kinds of colors during the stages of technical ripening (technical ripeness), from green (initial) to final red, despite the fact that during this transition, they acquire all the colors of the rainbow. Timely collection of fruits, their immediate and accelerated drying, allows you to keep the color of dry peppers, similar to what was when removed from the bush. The taste and color of the product is stable. The product is stored for up to 5 years, when stored in a refrigerator, at a temperature not exceeding 5 degrees Celsius. It is known that capsicums (peppers of the genus Capsicum) have preservative properties, therefore the shelf life of the product under equal conditions is higher than that of the original fat. The product contains respectively from 10 to 20 percent of plant material. The composition of the product includes: vitamins - folates, nicotinic acid, pantothenic acid, pyridoxine (vitamin B6), riboflavin (vitamin B2), thiamine (vitamin B1), vitamin A, vitamin C, vitamin E, vitamin K; electrolytes - sodium, potassium; minerals - calcium, copper, iron, magnesium, manganese, phosphorus, selenium, zinc; phytonutrients - beta-carotene (β-carotene), alpha-carotene (α-carotene), beta-cryptoxanthin (β-cryptoxanthin), lutein-zeaxanthin, and other elements, while it does not contain artificial additives, preservatives, dyes, etc. P.

Examples of the product obtained using the claimed method are described below.

Edible fat product is culinary burning fats of animal and / or milk origin (melted butter), as well as spreads and margarines based on a mixture of vegetable, animal and milk fats, enriched with an extract of hot peppers of the genus Capsicum.

Fatty food product with a burning taste with a delayed effect, based on melted milk fat. The product is the result of fat extraction of coarsely ground capsaicin capsicum peppers of the genus Capsicum, obtained by extraction of a mixture of coarsely ground dry peppers of the genus Capsicum in heated melted milk fat. The edible fat product contains melted milk fat enriched with hot peppers from the genus Capsicum. Ghee milk fat is a milk fat (cow's milk) origin produced from ghee, having a melting point in the range of +27 to + 37 ° C. Ghee milk fat is enriched (saturated) with a mixture of three varieties of peppers, mixed in predetermined proportions , the genus Capsicum is jalapeno, tabasco, habanero, or other similar varieties, collected and dried in the ripening stage. One part of melted fat (1 kg) is enriched (saturated) by extraction with a portion consisting of a mixture of dry peppers in an amount of 0.1 to 0.2 kg. The product is homogeneous in structure (uniform in volume, without visible inclusions, dispersed particles), one-color (red-orange) with an even distribution of color. The degree of product stiffness is in the range of 7500 to 50,000 units on the Scoville scale. Depending on the amount of plant material, the degree of stickiness of the product changes.

Vegetable raw materials - a prepared mixture of dry peppers of the genus Capsicum, these are jalapenos, tabasco, habanero, or other peppers similar in taste and aroma, as well as the degree of severity (Scovilla scale) of the variety, per 1 kg of melted milk fat. Peppers of the genus Capsicum used to enrich the product are peppers collected and dried in the ripening stage. To obtain a product of weak burning (a low degree of hotness), a prepared mixture of dry peppers of the Capsicum genus in the following proportion is used, jalapenos, or a variety similar to it, in an amount from 40 to 45 grams, Tabasco, or a variety similar to it, in an amount from 40 to 45 grams, habanero, or a similar grade, in an amount of 10 to 20 grams, per 1 liter of melted fat. The final product is rated as little. The degree of product stiffness is in the range of 7500 to 15000 Units on the Scoville scale.

To obtain a medium-burning product, a prepared mixture of dry peppers of the Capsicum genus is used in the following proportion, jalapeno peppers, or a variety similar to it, in the amount of 60 grams, Tabasco, or a variety similar to it, in the amount of 60 grams, habanero, or a similar variety, in the amount of 30 grams, per 1 liter of melted fat. The final product is rated as middle. The degree of product stiffness is in the range of 15,000 to 25,000 Units on the Scoville Scalability Scale.

To obtain a highly burning product, a prepared mixture of dry peppers of the Capsicum genus in the following proportion is used, jalapenos, or a similar variety, in the amount of 70 grams, Tabasco, or a similar variety in the amount of 70 grams, Habanero, or a similar variety, in the amount of 60 grams, per 1 liter of melted fat. The final product is rated as high. The degree of product stiffness is in the range of 25,000 to 50,000 units on the Scoville Scalability Scale.

Fatty food product with a lingering taste with a delayed effect, based on ghee - butter ghee with extract of red peppers of the genus Capsicum, color is orange (Fig. 1), medium hot contains melted milk fat, it is milk fat (cow milk) origin made from melted butter, having a melting point in the range from +27 to + 37 ° C. Melted milk fat is enriched (saturated) with coarse red pepper collected and dried in the ripening stage. One part of melted fat (1 kg) is enriched (saturated) by extraction with a portion in the amount of 0.15 kg of dried coarse red pepper. The product is homogeneous in structure (uniform in volume, without visible inclusions, dispersed particles), one-color (orange) with an even distribution of color. The degree of product stiffness is in the range of 17,000 to 20,000 Units on the Scoville Scalability Scale.

Fatty food product with a lingering taste with a delayed effect, based on melted butter - melted butter with an extract of a mixture of light brown cayenne peppers (Fig. 2), medium hotness, contains melted milk fat, it is milk fat (cow milk) origin made from melted butter, having a melting point in the range from +27 to + 37 ° C. Ghee milk fat is enriched (saturated) with coarse Cainey pepper collected and dried in the ripening stage. One part of melted fat (1 kg) is enriched (saturated) by extraction with a portion of 0.15 kg of dried coarse cayenne pepper. The product is homogeneous in structure (uniform in volume, without visible inclusions, dispersed particles), one-color (light brown) with an even distribution of color. The degrees of product stiffness range from 15,000 to 25,000 units on the Scoville Scalability Scale.

The edible fat product, which has a burning taste with a delayed effect, based on melted animal beef fat, contains melted animal beef fat enriched with hot peppers from the genus Capsicum. Baked animal beef tallow is a product of animal origin, which is produced by processing beef tallow, which has a melting point in the range from +48 to + 50 ° С. Melted animal beef fat is enriched (saturated) with coarse cayenne pepper collected and dried in the ripening stage. One part of melted fat (1 kg) is enriched (saturated) by extraction with a portion of 0.1 to 0.2 kg of dried coarse cayenne pepper. The product is homogeneous in structure (uniform in volume, without visible inclusions, dispersed particles), one-color with a uniform color distribution. The degree of product stiffness is in the range of 20,000 to 25,000 units on the Scoville stiffness scale, depending on the amount of dried chilli.

The edible fat product, which has a burning taste with a delayed effect, based on melted animal badger fat, contains melted animal badger fat enriched with hot peppers from the genus Capsicum. Melted animal badger fat is melted badger fat (a source of polyunsaturated acids, cytamines, tocopherol, vitamin A and B12), which has a melting point in the range from +8 to + 10 ° С. Ghee animal badger fat is enriched (saturated) with coarse chili pepper collected and dried in the ripening stage. One part of melted fat (1 kg) is enriched (saturated) by extraction with a portion of 0.1 to 0.2 kg of dried coarse chili. The product is homogeneous in structure (uniform in volume, without visible inclusions, dispersed particles), one-color with a uniform color distribution. The degree of product stiffness is in the range of 16,000 to 19,000 units on the Scoville stiffness scale, depending on the amount of dried chilli.

The edible fat product, which has a burning taste with a delayed effect, based on melted animal duck fat, contains melted animal duck fat enriched with hot peppers from the genus Capsicum. Melted animal duck fat is duck duck melted fat (a source of valuable fatty acids) having a melting point in the range from +35 to + 16 ° C. Melted animal duck fat is enriched (saturated) with coarse chili pepper collected and dried in the ripening stage. One part of melted fat (1 kg) is enriched (saturated) by extraction with a portion of 0.1 to 0.2 kg of dried coarse red pepper. The product is homogeneous in structure (uniform in volume, without visible inclusions, dispersed particles), one-color with a uniform color distribution. The degree of product stiffness is in the range of 20,000 to 25,000 units on the Scoville scale of burnability, depending on the amount of dried coarse red pepper.

A fatty food product with a burning taste with a delayed effect, based on a melted spread, contains a melted spread enriched with hot peppers from the genus Capsicum. Spread is a mixture of vegetable and milk fats with a mass fraction of total fat from 39 to 95% having a melting point in the range from +28 to + 32 ° C. The melted spread is enriched (saturated) with a mixture of three peppers mixed in equal proportions; the genus Capsicum is jalapeno, tabasco, habanero, or similar varieties collected and dried in the ripening stage. One part of the melted spread (1 kg) is enriched (saturated) by extraction with a portion consisting of a mixture of dry peppers in an amount from 0.1 to 0.2 kg. The product is homogeneous in structure (uniform in volume, without visible inclusions, dispersed particles), one-color with a uniform color distribution. The degree of product stiffness is in the range of 30,000 to 50,000 units on the Scoville Scalability Scale. Depending on the amount of plant material (a mixture of dry coarse pepper), the degree of product stiffness changes.

Fatty food product with a lingering taste with a delayed effect, based on melted margarine, contains melted soft margarine enriched with hot peppers from the genus Capsicum. Margarine is an emulsion fat product produced from natural fractionated, modified vegetable oils and animal fats, which has a melting point in the range from +20 to + 30 ° C. Warm margarine is enriched (saturated) with a mixture of three peppers, mixed in equal proportions, of the genus Capsicum is jalapeno, tabasco, habanero, or similar varieties collected and dried in the ripening stage. One part of melted margarine (1 kg) is enriched (saturated) by extraction with a portion consisting of a mixture of dried peppers in an amount of from 0.1 to 0.2 kg. The product is homogeneous in structure (uniform in volume, without visible inclusions, dispersed particles), one-color with a uniform color distribution. The degree of product stiffness is in the range of 30,000 to 40,000 units on the Scoville Scalability Scale. Depending on the amount of plant material (a mixture of dry coarse pepper), the degree of product stiffness changes.

The product in cooking is used as follows.

The product is heated to its melting point and the ingredients of the dish, such as potato tubers, carcasses of poultry, fish, or other meat, both inside and outside, are coated with a brush. Then they are placed in the oven, and kept until ready at a given temperature. The finished dish acquires a taste, aroma characteristic of the product, and also increase its nutritional value, as it is replenished with useful substances at the expense of the product. The product can be directly added to the finished hot dish (dumplings, soup, barbecue, fried potatoes, etc.), it melts and gives the dish an original taste and aroma. The product allows you to convey the burning taste of capsaicin very correctly, without the stunning burning effect that is inherent in hot peppers (if used directly) and sauces made on their basis.

The product can be used both in cooking, to give dishes an original taste and as a dietary supplement and as an external remedy. The product allows you to convey the effect of capsaicin and the use of trace elements contained in Capsicum peppers for their intended purpose and very correctly, without the stunning burning effect that is inherent in alcohol tinctures produced by Capsicum peppers. It is possible to use the product externally for a warming and anti-inflammatory effect, since the capsaicin contained in the product has a warming and anti-inflammatory effect, and edible fat is its safe carrier. For medicinal purposes, a product containing capsaicin is used as a means to block pain. Capsaicin contained in the product actively affects the substance, which is a transmitter of signals from nerve endings to the brain. At the same time, it not only reduces the intensity of pain, but also contributes to the production of prostaglandins and collagenase, which relieve pain and remove the manifestations of the inflammatory process. It perfectly complements therapy aimed at treating diseases of the heart and blood vessels (including preventing the formation of blood clots in them). It is introduced into the composition of pain relievers for arthritis and shingles, is prescribed for use as a cream for patients with psoriasis, people suffering from itching of the skin and from diabetic neuropathy. Based on capsaicin, frostbite ointments are released. Pepper nasal sprays relieve migraine pain.

L. PMID: 27472308 DOI: 10.3390 / Molecules. 2016 Jul 27;21(8). Capsaicin: From Plants to a Cancer-Suppressing Agent. Chapa-Oliver AM,

L. PMID: 27472308 DOI: 10.3390/molecules21080931). Капсаицин влияет на скорость метаболизма, данные показывают, что капсаициноиды, изменяют молекулярную метаболическую сигнализацию, регулируют голод и сытость, метаболиты крови и высвобождение катехоламин (Источник [8]: (Биофакторы. 2016 май, 42 (3): 229-46. doi: 10.1002 / biof.1273. Влияние аналогов капсаицина и капсаициноидов на метаболические молекулярные мишени в высокоэнергетических тканях и типах клеток. Ганнон Н.П., Ламбалот Э.Л., Воган Р.А. PMID: 26945685 DOI: 10.1002 / biof.1273. Biofactors. 2016 May;42(3):229-46. doi: 10.1002/biof.l273. The effects of capsaicin and capsaicinoid analogs on metabolic molecular targets in highly energetic tissues and cell types. Gannon NP, Lambalot EL, Vaughan RA. PMID: 26945685 DOI: 10.1002/biof.l273). Имеются убедительные эпидемиологические и экспериментальные данные о том, что капсаицин обладает противоопухолевой активностью. Капсаицин изменяет экспрессию нескольких генов, участвующих в выживании раковых клеток, что приводит к остановке роста раковой опухоли. Капсаицин нацелен на онкогены и гены опухолевых супрессоров в различных типах онкологических моделей. (Источник [9]: Противораковые свойства капсаицина против рака человека. Кларк Р., Ли Ш. PM1D: 26976969/ Anticancer Properties of Capsaicin Against Human Cancer. Clark R, Lee SH. PMID: 26976969). Капсаицин индуцирует остановку клеточного цикла и апоптоз в раковых клетках человека. Обработка раковых клеток капсаицином значительно снижает клеточную пролиферацию, жизнеспособность раковых клеток и индуцирует их гибель, так как капсаицин приводит к остановке клеточного цикла на фазе G2 / М. Капсаицин индуцирует нарушение митохондриального мембранного потенциала, а также активацию каспазы 9, 3 и поли- (ADP-рибоза) полимеразы в раковых клетках. (Источник [10]: ВМС Complement Altern Med. 2013 год 25 февраля, 13: 46. doi: 10.1186 / 1472-6882-13-46. Капсаицин индуцирует остановку клеточного цикла и апоптоз в раковых клетках KB человека. Lin СН, Lu WC, Wang CW, Chan YC, Chen MK. PMID: 23433093 PMCID: PMC3599796 DOI: 10.1186 / 1472-6882-13-46 /ВМС Complement Altern Med. 2013 Feb 25;13:46. doi: 10.1186/1472-6882-13-46. Capsaicin induces cell cycle arrest and apoptosis in human KB cancer cells. Lin CH, Lu WC, Wang CW, Chan YC, Chen MK. PMID: 23433093 PMCID: PMC3599796 DOI: 10.1186/1472-6882-13-46). Механизм, при котором капсаицин вызывает апоптоз в раковых клетках, включает внутриклеточное увеличение кальция, образование реакционноспособных видов кислорода, нарушение потенциала перехода митохондриальной мембраны и активацию транскрипционных факторов, таких как NFkappaB и STATS. (Источник [11]: Prog Drug Res. 2014; 68: 181-208. Потенциальные противоопухолевые эффекты капсаицина. Диас-Лавиада I, Родригес-Хенше Н. PMID: 24941670. /Prog Drug Res. 2014;68:181-208. The potential antitumor effects of capsaicin.

I,

N. PMID: 24941670.) Капсаицин обладает глубокими противоопухолевыми эффектами при нескольких типах рака человека. Однако применение капсаицина в качестве клинически жизнеспособного лекарственного средства ограничено его неприятными побочными эффектами, такими как раздражение желудка, судороги в желудке и ощущение жжения. (Источник [12]: J Pharmacol Exp Ther. 2018 Mar, 364 (3): 462-473. doi: 10.1124 / jpet.l 17.243691. Epub 2017 Dec 15. Противораковая активность аналогов природного и синтетического капсаицина. Friedman JR, Nolan NA, Brown КС, Miles SL, Akers AT1, Colclough KW, Seidler JM, Rimoldi JM, Valentovic MA, Dasgupta P2. PMID: 29246887 PMCID: PMC5803642 [Доступно 2019-03-01] DOI: 10.1124 / jpet.l 17.243691)/ J Pharmacol Exp Ther. 2018 Mar; 364 (3): 462-473. doi: 10.1 124/jpet. 117.243691. Epub 2017 Dec 15. Anticancer Activity of Natural and Synthetic Capsaicin Analogs. Friedman JR, Nolan NA, Brown КС, Miles SL, Akers AT1, Colclough KW, Seidler JM, Rimoldi JM, Valentovic MA, Dasgupta P2. PMID: 29246887 PMCID: PMC5803642 [Available on 2019-03-01] DOI: 10.1124/jpet. 117.243691). Продукт получаемый заявленным способом обладает всеми присущими капсаицину свойствами и при этом значительно уменьшает его основной, нежелательный с точки зрения применения в качестве биологически активной добавки, эффект жжение. Продукт получаемый заявленным способом содержит жир, который ослабляет резкое и сильное жжение капсаицина снижает ощущение жжения, и его возможные неприятные последствия. Продукт получаемый заявленным способом позволяет передавать жгучий вкус капсаицина очень корректно, без ошеломляющего жгучего эффекта.The product can be used as a biologically active food supplement used for the prevention of cancer, for this it is also added to ready-made dishes or used to prepare them. It is known that capsaicin can act as a means of cancer prevention and demonstrates the possibility of use against various types of cancer. Potentially, capsaicin can be widely used as an antitumor agent. (Source [7]: Molecules. 2016 July 27, 21 (8). Capsaicin: From Plants to Cancer Suppressant. Chapa-Oliver AM,

L. PMID: 27472308 DOI: 10.3390 / Molecules. 2016 Jul 27; 21 (8). Capsaicin: From Plants to a Cancer-Suppressing Agent. Chapa-Oliver AM,

L. PMID: 27472308 DOI: 10.3390 / molecules21080931). Capsaicin affects metabolic rate, data show that capsaicinoids alter molecular metabolic signaling, regulate hunger and satiety, blood metabolites and catecholamine release (Source [8]: (Biofactors. 2016 May, 42 (3): 229-46. Doi: 10.1002 / biof.1273 Effect of capsaicin analogs and capsaicinoids on metabolic molecular targets in high-energy tissues and cell types Gannon NP, Lambalot EL, Vogan RA PMID: 26945685 DOI: 10.1002 / biof.1273. Biofactors. 2016 May; 42 (3): 229-46. Doi: 10.1002 / biof.l273. The effects of capsaicin and capsaicinoid analogs on metabolic molecular targets in highly energetic tissues and cell types. Gannon NP, Lambalot EL, Vaughan RA. PMID: 26945685 DOI: 10.1002 / biof.l273) There is convincing epidemiological and experimental evidence that capsaicin has antitumor activity. Capsaicin alters the expression of several genes involved in the survival of cancer cells. , which leads to a halt in the growth of a cancerous tumor. Capsaicin targets oncogenes and tumor suppressor genes in various types of cancer models. (Source [9]: Anticancer properties of capsaicin against human cancer. Clark R., Lee S. PM1D: 26976969 / Anticancer Properties of Capsaicin Against Human Cancer. Clark R, Lee SH. PMID: 26976969). Capsaicin induces cell cycle arrest and apoptosis in human cancer cells. Treatment of cancer cells with capsaicin significantly reduces cell proliferation, cancer cell viability and induces cell death, since capsaicin leads to a cell cycle arrest in the G2 / M phase. Capsaicin induces a disruption in the mitochondrial membrane potential, as well as activation of caspase 9, 3 and poly (ADP ribose) polymerase in cancer cells. (Source [10]: IUD Complement Altern Med. 2013 February 25, 13:46. Doi: 10.1186 / 1472-6882-13-46. Capsaicin induces cell cycle arrest and apoptosis in human KB cancer cells. Lin CH, Lu WC , Wang CW, Chan YC, Chen MK. PMID: 23433093 PMCID: PMC3599796 DOI: 10.1186 / 1472-6882-13-46 / Navy Complement Altern Med. 2013 Feb 25; 13: 46. Doi: 10.1186 / 1472-6882-13 -46. Capsaicin induces cell cycle arrest and apoptosis in human KB cancer cells. Lin CH, Lu WC, Wang CW, Chan YC, Chen MK. PMID: 23433093 PMCID: PMC3599796 DOI: 10.1186 / 1472-6882-13-46). The mechanism by which capsaicin causes apoptosis in cancer cells includes an intracellular increase in calcium, the formation of reactive oxygen species, impaired mitochondrial membrane transition potential, and activation of transcription factors such as NFkappaB and STATS. (Source [11]: Prog Drug Res. 2014; 68: 181-208. Potential antitumor effects of capsaicin. Diaz-Laviad I, Rodriguez-Hensche N. PMID: 24941670. / Prog Drug Res. 2014; 68: 181-208. The potential antitumor effects of capsaicin.

I

N. PMID: 24941670.) Capsaicin has profound antitumor effects in several types of human cancer. However, the use of capsaicin as a clinically viable drug is limited by its unpleasant side effects, such as stomach irritation, stomach cramps and burning sensation. (Source [12]: J Pharmacol Exp Ther. 2018 Mar, 364 (3): 462-473. Doi: 10.1124 / jpet.l 17.243691. Epub 2017 Dec 15. Anticancer activity of analogues of natural and synthetic capsaicin. Friedman JR, Nolan NA , Brown KC, Miles SL, Akers AT1, Colclough KW, Seidler JM, Rimoldi JM, Valentovic MA, Dasgupta P2. PMID: 29246887 PMCID: PMC5803642 [Available 2019-03-01] DOI: 10.1124 / jpet.l 17.243691) / J Pharmacol Exp Ther. 2018 Mar; 364 (3): 462-473. doi: 10.1 124 / jpet. 117.243691. Epub 2017 Dec 15. Anticancer Activity of Natural and Synthetic Capsaicin Analogs. Friedman JR, Nolan NA, Brown KS, Miles SL, Akers AT1, Colclough KW, Seidler JM, Rimoldi JM, Valentovic MA, Dasgupta P2. PMID: 29246887 PMCID: PMC5803642 [Available on 2019-03-01] DOI: 10.1124 / jpet. 117.243691). The product obtained by the claimed method has all the properties inherent in capsaicin and at the same time significantly reduces its main, undesirable from the point of view of application as a biologically active additive, burning effect. The product obtained by the claimed method contains fat, which weakens the sharp and intense burning of capsaicin, reduces the burning sensation, and its possible unpleasant consequences. The product obtained by the claimed method allows you to transfer the burning taste of capsaicin very correctly, without a stunning burning effect.

Claims (12)

1. A method of obtaining a fat product with an extract of hot chili peppers, characterized in that the vegetable raw material is selected from Capsicum genus hot peppers, subjected to forced drying, milled dry peppers into a large fraction with a size in the range from 3 to 8 mm, selected edible fat in the amount of one part, put the fat in a container and melt it, heat the fat to a temperature in the range from 70 to 75 ° C, achieving uniform heating of the whole mass, dry ground pepper, in an amount of 1/10 to 1/5 part , in melted fat, extraction is carried out for one hour to three, maintaining the temperature in the range from 70 to 75 ° C, then the product, before cooling, is drained from the tank and filtered, and then poured into a container. 2. The method according to p. 1, characterized in that they use cooking oil of animal origin. 3. The method according to p. 1, characterized in that they use cooking oil of milk origin. 4. The method according to p. 1, characterized in that they use cooking oil with a melting point in the range from +5 to + 50 ° C. 5. The method according to p. 1, characterized in that the filtration is carried out through a sieve and paper filters. 6. The method according to p. 1, characterized in that the heating of the fat is carried out in a water bath. 7. The method according to p. 1, characterized in that the heating of the fat is carried out in an industrial electric food warmer. 8. The method according to p. 1, characterized in that the vegetable raw material in the preparation process is dried in an oven, forced warm air is forced into the raw material at a temperature in the range from 35 to 45 ° C for 8 to 10 hours, achieving a residual moisture content of more than 10%. 9. The method according to p. 1, characterized in that the plant material is selected from the following varieties of capsicum peppers: chili, red, jalapeno, tabasco, habanero. 10. The method according to p. 1, characterized in that the prepared mixture of dried peppers of the genus Capsicum in the following proportion, jalapeno peppers in an amount of 40 to 45 g, tabasco in an amount of 40 to 45 g, habanero in an amount of 10 to 20 g per 1 liter of melted fat. 11. The method according to p. 1, characterized in that as a plant raw material a prepared mixture of dry peppers of the genus Capsicum is used in the following proportion, jalapeno peppers in an amount of 60 g, tabasco in an amount of 60 g, habanero in an amount of 30 g per 1 liter of melted fat . 12. The method according to p. 1, characterized in that as a plant raw material a prepared mixture of dry peppers of the genus Capsicum is used in the following proportion, jalapeno peppers in the amount of 70 g, tabasco in the amount of 70 g, habanero in the amount of 60 g per 1 liter of melted fat .

Images