RU2268605C2 - Method for caramel production - Google Patents

Abstract

FIELD: confectionary industry, in particular extrusion method for caramel production.

SUBSTANCE: claimed method includes formula mixture from sugar powder and treacle syrup in ratio of 2:1 and forming of obtained mixture in extruder. Treacle syrup is introduced in formula mixture in form of powder obtained by spray drying of treacle syrup with dry matter content of 47-56 % in hot air flow at 120-145°C up to humidity of 3.5 % and dispersion of 10-20 mum. Mixture is formed in extruder at 175-180°C followed by caramel mass casting in forms or spinning out.

EFFECT: caramel of improved quality, reduced cost due to decreased energy consumption and inexpensive raw materials.

9 ex

Description

The invention relates to the confectionery industry, namely to the preparation of caramel by extrusion.

The closest in technical essence and the achieved effect is a method for producing caramel tows, involving the preparation of sugar syrup, spray drying the syrup, mixing it with the recipe components and molding the resulting mass; before drying, apple puree is introduced into sugar syrup at a ratio of mass fractions of sugar, molasses and applesauce 10: 4: 15-10: 6: 40, and molding is carried out in an extruder at a temperature of 93-97 ° C [Application No. 4315320 / 30-13 , USSR, IPC ⁵ A 23 G 3/00. Publ. 10/13/87. Bull. No. 5].

The disadvantage of this method is to obtain a caramel mass of a heterogeneous amorphous structure due to incomplete melting of the components of the initial mixture.

An object of the invention is to obtain a homogeneous, resistant to the crystallization process of caramel amorphous structure.

The problem is achieved in that in the method of producing caramel, which includes preparing the recipe mixture of powdered sugar and syrup and molding the resulting mixture in an extruder, it is new that the syrup syrup is added to the recipe mixture in the form of a powder obtained by spray drying the syrup containing solids 47-56% in a hot air stream with a temperature of 120-145 ° C with a moisture content of 3.5% and a dispersion of 10-20 microns; when preparing the recipe mixture, icing sugar and syrup powder are taken in a ratio of 2: 1, and the mixture is molded in an extruder at a temperature of 175-180 ° C, followed by casting the caramel mass into molds or rolling the caramel loaf.

The technical result consists in improving the quality of caramel prepared by extrusion using an advanced technology, reducing its cost.

The method is implemented in the following way.

According to the claimed method, pre-prepared syrup with a solids content of 47-56%, for this molasses is dissolved in water. The resulting syrup is dried to a powder state by spraying the syrup into a hot air stream with a temperature of 120-145 ° C. The mass fraction of moisture of the resulting syringe powder is 3.5%, the dispersion is 10-20 microns, it has a white color, sweet taste, high solubility, amorphous structure, the shape of the particles is spherical with a rough surface. The recipe mixture is obtained by mixing powdered sugar prepared from a granulated sugar mill on a hammer mill by grinding it to a particle size of 20-60 microns, and the powder with a ratio of 2: 1. For this, the mixture is thoroughly mixed in a mixer, put into the receiving hopper of the metering device (productivity 1-50 kg / h, screw speed 0.1-73.2 s ^-1 ) and dosed into the screw chamber of the extruder (screw speed 1.18 s ^-1 , drive power 8.5 kW), where the mixture melts and the formation of caramel mass at a temperature of 175-180 ° C. This temperature and the relatively short residence time of the mixture in the screw chamber of the extruder allow for the period of time when the sugar has time to transition from crystalline to amorphous state to avoid excessive accumulation of reducing substances in the caramel mass. The obtained homogeneous, resistant to crystallization process, caramel mass of a plastic, amorphous structure then goes to the funnel of the casting machine and is cast using the casting heads into molds or fed through the conveyor to the KPM caramel wrapping machine for the further formation of the caramel loaf from it with the subsequent molding of the finished caramel. According to the organoleptic assessment, the finished caramel has a color from light yellow to dark cream, a shiny surface, the taste and smell characteristic of caramel, the mass fraction of moisture is 2.2-3.0%, and the reducing substances are 22.2-25.4% .

The method is illustrated by examples.

Example 1

Prepare syrup with a solids content of 47%. The resulting syrup is dried to a powder state by spraying the syrup into a hot stream of air with a temperature of 145 ° C. The resulting syrup powder has a mass fraction of moisture of 3.5%, a dispersion of 10-20 microns. The recipe mixture is obtained by mixing powdered sugar and syrup powder at a ratio of 2: 1. To do this, the mixture is thoroughly mixed in a mixer, poured into the hopper of the metering device and dosed into the screw chamber of the extruder, where the mixture is melted and caramel mass is formed at a temperature of 180 ° C. The resulting homogeneous, crystalline-resistant caramel mass of a plastic, amorphous structure is then fed to a casting mold or fed to the KPM caramel-wrapping machine for the further formation of a caramel loaf from it with the subsequent formation of the finished caramel. According to organoleptic evaluation, the finished caramel has a cream color, a shiny surface, the taste and smell characteristic of caramel. Mass fraction of caramel moisture is 2.6%, reducing substances 23.2%.

Example 2

Prepare syrup with a solids content of 47%. The resulting syrup is dried to a powder state by spraying the syrup into a hot stream of air with a temperature of 135 ° C. The resulting syrup powder has a mass fraction of moisture of 3.5%, a dispersion of 10-20 microns. The recipe mixture is obtained by mixing powdered sugar and syrup powder at a ratio of 2: 1. To do this, the mixture is thoroughly mixed in a mixer, poured into the hopper of the metering device and dosed into the screw chamber of the extruder, where the mixture is melted and caramel mass is formed at a temperature of 180 ° C. The resulting homogeneous, crystalline-resistant caramel mass of a plastic, amorphous structure is then fed to a casting mold or fed to the KPM caramel-wrapping machine for the further formation of a caramel loaf from it with the subsequent formation of the finished caramel. According to organoleptic evaluation, the finished caramel has a cream color, a shiny surface, the taste and smell characteristic of caramel. The mass fraction of moisture of caramel is 3.0%, reducing substances 22.6%.

Example 3

Prepare syrup with a solids content of 47%. The resulting syrup is dried to a powder state by spraying the syrup into a hot stream of air with a temperature of 120 ° C. The resulting syrup powder has a mass fraction of moisture of 3.5%, a dispersion of 10-20 microns. The recipe mixture is obtained by mixing powdered sugar and syrup powder at a ratio of 2: 1. To do this, the mixture is thoroughly mixed in a mixer, poured into the hopper of the metering device and dosed into the screw chamber of the extruder, where the mixture is melted and caramel mass is formed at a temperature of 180 ° C. The resulting homogeneous, crystalline-resistant caramel mass of a plastic, amorphous structure is then fed to a casting mold or fed to the KPM caramel-wrapping machine for the further formation of a caramel loaf from it with the subsequent formation of the finished caramel. According to organoleptic evaluation, the finished caramel has a cream color, a shiny surface, the taste and smell characteristic of caramel. The mass fraction of moisture of caramel is 3.0%, reducing substances 21.7%.

Example 4

Prepare syrup with a solids content of 52%. The resulting syrup is dried to a powder state by spraying the syrup into a hot stream of air with a temperature of 145 ° C. The resulting syrup powder has a mass fraction of moisture of 3.5%, a dispersion of 10-20 microns. The recipe mixture is obtained by mixing powdered sugar and syrup powder at a ratio of 2: 1. To do this, the mixture is thoroughly mixed in a mixer, poured into the hopper of the metering device and dosed into the screw chamber of the extruder, where the mixture is melted and caramel mass is formed at a temperature of 180 ° C. The resulting homogeneous, crystalline-resistant caramel mass of a plastic, amorphous structure is then fed to a casting mold or fed to the KPM caramel-wrapping machine for the further formation of a caramel loaf from it with the subsequent formation of the finished caramel. According to organoleptic evaluation, the finished caramel has a cream color, a shiny surface, the taste and smell characteristic of caramel. The mass fraction of moisture of caramel is 2.2%, reducing substances 25.1%.

Example 5

Prepare syrup with a solids content of 52%. The resulting syrup is dried to a powder state by spraying the syrup into a hot stream of air with a temperature of 135 ° C. The resulting syrup powder has a mass fraction of moisture of 3.5%, a dispersion of 10-20 microns. The recipe mixture is obtained by mixing powdered sugar and syrup powder at a ratio of 2: 1. To do this, the mixture is thoroughly mixed in a mixer, filled into the receiving hopper of the metering device and dosed into the screw chamber of the extruder, where the mixture melts and the caramel mass forms at a temperature of 177 ° C. The resulting homogeneous, crystalline-resistant caramel mass of a plastic, amorphous structure is then fed to a casting mold or fed via a conveyor to the KPM caramel-wrapping machine for the further formation of a caramel loaf from it with the subsequent formation of the finished caramel. According to organoleptic evaluation, the finished caramel has a light cream color, a shiny surface, the taste and smell characteristic of caramel. The mass fraction of moisture of caramel is 2.8%, reducing substances 23.6%.

Example 6

Prepare syrup with a solids content of 52%. The resulting syrup is dried to a powder state by spraying the syrup into a hot stream of air with a temperature of 120 ° C. The resulting syrup powder has a mass fraction of moisture of 3.5%, a dispersion of 10-20 microns. The recipe mixture is obtained by mixing powdered sugar and syrup powder at a ratio of 2: 1. To do this, the mixture is thoroughly mixed in the mixer, filled into the hopper of the metering device and dosed into the screw chamber of the extruder, where the mixture melts and the caramel mass is formed at a temperature of 175 ° C. The resulting homogeneous, crystalline-resistant caramel mass of a plastic, amorphous structure is then fed to a casting mold or fed via a conveyor to the KPM caramel-wrapping machine for the further formation of a caramel loaf from it with the subsequent formation of the finished caramel. According to organoleptic evaluation, the finished caramel has a light yellow color, a shiny surface, the taste and smell characteristic of caramel. The mass fraction of moisture of caramel is 3.0%, reducing substances 22.2%.

Example 7

Prepare syrup with a solids content of 56%. The resulting syrup is dried to a powder state by spraying the syrup into a hot stream of air with a temperature of 145 ° C. The resulting syrup powder has a mass fraction of moisture of 3.5%, a dispersion of 10-20 microns. The recipe mixture is obtained by mixing powdered sugar and syrup powder at a ratio of 2: 1. To do this, the mixture is thoroughly mixed in a mixer, poured into the hopper of the metering device and dosed into the screw chamber of the extruder, where the mixture is melted and caramel mass is formed at a temperature of 180 ° C. The resulting homogeneous, crystalline-resistant caramel mass of a plastic, amorphous structure is then fed to a casting mold or fed to the KPM caramel-wrapping machine for the further formation of a caramel loaf from it with the subsequent formation of the finished caramel. According to organoleptic evaluation, the finished caramel has a cream color, a shiny surface, the taste and smell characteristic of caramel. The mass fraction of moisture of caramel is 2.2%, reducing substances 25.4%.

Example 8

Prepare syrup with a solids content of 56%. The resulting syrup is dried to a powder state by spraying the syrup into a hot stream of air with a temperature of 135 ° C. The resulting syrup powder has a mass fraction of moisture of 3.5%, a dispersion of 10-20 microns. The recipe mixture is obtained by mixing powdered sugar and syrup powder at a ratio of 2: 1. To do this, the mixture is thoroughly mixed in a mixer, poured into the hopper of the metering device and dosed into the screw chamber of the extruder, where the mixture is melted and caramel mass is formed at a temperature of 180 ° C. The resulting homogeneous, crystalline-resistant caramel mass of a plastic, amorphous structure is then fed to a casting mold or fed to the KPM caramel-wrapping machine for the further formation of a caramel loaf from it with the subsequent formation of the finished caramel. According to organoleptic evaluation, the finished caramel has a cream color, a shiny surface, the taste and smell characteristic of caramel. Mass fraction of caramel moisture is 2.5%, reducing substances 23.8%.

Example 9

Prepare syrup with a solids content of 56%. The resulting syrup is dried to a powder state by spraying the syrup into a hot stream of air with a temperature of 120 ° C. The resulting syrup powder has a mass fraction of moisture of 3.5%, a dispersion of 10-20 microns. The recipe mixture is obtained by mixing powdered sugar and syrup powder at a ratio of 2: 1. To do this, the mixture is thoroughly mixed in a mixer, poured into the hopper of the metering device and dosed into the screw chamber of the extruder, where the mixture is melted and caramel mass is formed at a temperature of 180 ° C. The resulting homogeneous, crystalline-resistant caramel mass of a plastic, amorphous structure is then fed to a casting mold or fed to the KPM caramel-wrapping machine for the further formation of a caramel loaf from it with the subsequent formation of the finished caramel. According to organoleptic evaluation, the finished caramel has a cream color, a shiny surface, the taste and smell characteristic of caramel. The mass fraction of moisture of caramel is 3.0%, reducing substances 22.2%.

In examples 1-9, when the ratio in the recipe mixture of the mass fractions of icing sugar and butter powder is 3: 1, the caramel mass obtained has a mass fraction of moisture of 2.0-2.5% and a content of reducing substances of 17.5-18.5% according to organoleptic evaluation has a beige color, a shiny surface, a taste that does not meet the requirements for caramel quality, in addition, when melting this mixture, particles of powdered sugar do not completely melt, which leads to a decrease in the quality of the product due to its heterogeneity and to obtain an amorphous crystal caramel mass leaf structure not resistant to the crystallization process.

In examples 1-9, when the ratio in the recipe mixture of the mass fractions of icing sugar and the powder of powders is 1: 1, the obtained caramel mass with a mass fraction of moisture is 3.5-4.5%, the content of reducing substances is 26.5-29.0% by organoleptic evaluation has a dark cream color, shiny surface, taste that does not meet the requirements for caramel quality.

In examples 1-9, when the ratio in the recipe mixture of the mass fractions of powdered sugar and syrup powder is 2: 0.5, the obtained caramel mass with a mass fraction of moisture of 1.5-2.0%, the content of reducing substances is 17.0-17.5% by organoleptic evaluation has a light beige color, a shiny surface, a heterogeneous amorphous-crystalline structure, and a taste that does not meet the requirements for caramel quality. Such caramel is quickly sugared during storage due to the presence of a significant number of crystallization centers in the mass.

An increase in the temperature in the screw chamber of the extruder to 195 ° C leads to a significant darkening of the caramel mass and an increase in the number of reducing substances, which reduces the quality of the caramel.

A decrease in the temperature in the screw chamber of the extruder to 165 ° C leads to a caramel mass of light beige color, a heterogeneous structure due to incomplete melting of the particles of powdered sugar in the extruder.

Thus, the proposed method for producing caramel can improve the quality of caramel, namely, to obtain a homogeneous, stable to crystallization process caramel mass of a plastic, amorphous structure that meets the requirements for caramel, as well as reduce the cost of caramel by reducing the energy spent on making caramel mass, and the use of inexpensive raw materials.

Claims (1)

A method for producing caramel, comprising preparing a prescription mixture of icing sugar and syrup and molding the resulting mixture in an extruder, characterized in that the syrup syrup is added to the recipe mixture in the form of a powder obtained by spray drying the syrup with a solids content of 47-56% in hot air flow with a temperature of 120-145 ° C, with a moisture content of 3.5% and a dispersion of 10-20 microns, when preparing the recipe mixture, icing sugar and syrup powder are taken in a ratio of 2: 1, and molding the mixture in an wasp extruder They are held at a temperature of 175-180 ° C, followed by casting of the caramel mass into molds or rolling in the caramel loaf.