RU2108044C1 - Method of producing hydrolyzed lactose syrup - Google Patents

Abstract

FIELD: milk industry. SUBSTANCE: method includes preparing solution of crude or crystalline lactose obtained after centrifugation-assisted separation of molassa with 58-62% content of solids. Solution is cooled to 60-65 C and supplemented by beta-galactosidase enzyme preparation to perform hydrolysis at the same temperature to attain at least 50% hydrolysis. Resulting syrup is cooled and used to prepare various products. EFFECT: enhanced process efficiency. 2 tbl

Description

 The invention relates to the dairy industry and can be used for the production of beet sugar substitutes from milk sugar (lactose) - the main component of whey solids.

 A known method of producing milk sugar syrup from raw milk sugar or improved. The syrup technology provides for the following processes: dissolving raw milk sugar, refining the solution, filtering the solution, crystallization of lactose, reservation and storage.

 Such a syrup is intended for use in the manufacture of milk-based baby food as a semi-finished product [1].

However, such a syrup cannot fulfill the role of a sweetener due to the low sweetness of milk sugar, which is only 15-20% of the sweetness of sucrose. In addition, milk sugar is slightly soluble, which makes it impossible to prepare sugar syrups based on it with a mass fraction of solids of more than 40%. In such syrups, milk sugar crystallizes, which makes them unstable during storage. So, for example, the shelf life of milk sugar syrup with a mass fraction of dry matter of 57-60% is not more than 3 days. from the day of production at 10 ^o C with periodic stirring every 2 hours for 15 minutes

 Partial hydrolysis of lactose makes it possible to increase the sweetness and stability of lactose syrups and make it possible to use them as a sweetener, since the resulting sugar mixture has a sweetness close to sucrose and is readily soluble in syrups with a mass fraction of solids of up to 60%. This effect is already achieved with 50% hydrolysis of lactose.

 The closest technical solution to the proposed one is a method for the production of hydrolyzed lactose syrup, which involves introducing an enzyme preparation of beta-galactosidase into a lactose solution, hydrolyzing it, heating the hydrolyzate, thickening up to 15-20% dry matter, demineralizing the hydrolyzate, concentrating up to 58-62% dry matter with subsequent cooling of the resulting syrup [2]. As the initial solution of lactose, milk or curd whey is used.

 The method is quite complex, requiring significant technological and energy costs.

The technological result of the invention is to simplify the method and obtain storage stable sweet syrups. This is achieved by the fact that in the proposed method for the production of hydrolyzed lactose syrup, comprising introducing an enzymatic preparation of beta-galactosidase into a lactose solution, its hydrolysis, heating the hydrolysis and cooling the finished syrup, use a solution of raw milk sugar or its crystals after separation of molasses by centrifugation with a dry content substances 58-62%, the solution is cooled to 60-65 ^o C and hydrolysis is carried out at this temperature until the degree of hydrolysis of at least 50%.

The proposed method is as follows. Raw milk sugar or its crystallizate is dissolved with stirring and drinking water at a temperature of 90-95 ^o C so that the mass fraction of solids in the solution is 58-62%, cooled to a hydrolysis temperature of 60-65 ^o C, make a soluble enzyme preparation beta β-galactosidase with an activity of 1000 E / g in an amount of 0.6% by weight of dissolved raw milk sugar and hydrolysis is carried out with continuous stirring for 22-24 hours, maintaining the hydrolysis temperature. The degree of lactose hydrolysis at the end of the process should be at least 50%. The use of milk sugar crystals as a raw material after centrifugation allows to reduce the cost of the final product due to the exclusion of drying of the crystals. This method is most suitable for the production of syrups directly at dairy enterprises producing milk sugar.

 It was found that high concentrations of lactose in the solution in the range of 20-60% have a stabilizing effect on the enzyme and the activity of beta-galactosidase only slightly decreases with an increase in the mass fraction of lactose in the solution (see Table 1).

When radiating the influence of temperature on the degree of hydrolysis of lactose in a solution with a mass fraction of dry matter of 58-62%, it was found that the optimum temperature is 60-65 ^o C (see table. 2). At temperatures below 60 ^o C, the degree of hydrolysis of lactose does not reach 50% due to the fact that part of the lactose is in an insoluble form and inaccessible to the action of the enzyme. At temperatures above 65 ^o C, the degree of hydrolysis is below 50% due to thermal inactivation of the enzyme.

After hydrolysis, the syrup is heated to 85-90 ^o C, add a suspension of refining agents (in the case of obtaining refined syrup), filtered on a filter press through a filter cloth (lavoan belting) and cooled to storage temperature. Such syrup is stored for at least one month in unregulated conditions and for at least two months at 0-10 ^o C.

 The resulting product is a light yellow syrup with a pronounced sweet taste and a slight serum odor, it can be used along with sugar syrups in the production of dairy products, confectionery, drinks, etc.

 Thus, the implementation of the proposed method for producing hydrolyzed lactose by enzymatic hydrolysis in a solution of milk sugar with a mass fraction of solids of 58-62% can significantly simplify the process by eliminating the stage of vacuum concentration of the hydrolyzate and reduce energy costs associated with the consumption of steam and electricity at concentration. At the same time, the possibility of developing microflora and reducing the quality of the syrup due to the fermentation of part of the carbohydrates is practically excluded.

Example 1. 100 kg of raw milk sugar of the highest grade are dissolved in 72 L of water heated to 95 ^° C, the solution is cooled to 60 ^° C and 0.6 kg of a soluble beta-galactosidase preparation with an activity of 1000 E / g is added. The solution was kept at 60 ^° C. and continuously stirred for 24 hours. At the end of the process, the degree of hydrolysis of lactose was 50%. The resulting syrup is heated to 85 ^o C and in the hot state is filtered on a filter press through a belting fabric under a pressure of 0.03 MPa. The clear syrup is cooled to storage temperature and used for direct consumption or in food production in return for beet sugar.

Example 2. 100 kg of milk sugar crystals after separation of molasses by centrifugation, containing 3.5% residual moisture, are dissolved in 55.5 L heated to 90 ^o C, the solution is cooled to 65 ^o C and 0.6 kg of soluble enzyme preparation Lactocanestinum is introduced ( beta-galactosidase) with an activity of 1000 E / g. Hydrolysis of lactose is carried out for 22 hours at 65 ^o C with continuous stirring. The final degree of hydrolysis of lactose is 53%. The resulting syrup is heated to 90 ^° C., a suspension of refining agents is introduced, and in the hot state it is filtered on a filter press through a belting fabric under a pressure of 0.03 MPa. The clear syrup is cooled to storage temperature and used for direct consumption or in food production in return for beet sugar.

Sources of information:
1. Khramtsov AG, Pavlov VA, Nesterenko P.G. et al. Processing and use of whey. Technological notebook. M .: Rosagropromizdat, 1989, p. 214-216.

 2. SU. author St. N 1739951, class A 23 C 21/00, 1992.

Claims (1)

A method for the production of hydrolyzed lactose syrup, comprising introducing an enzyme preparation of beta-galactosidase into a lactose solution, hydrolyzing it, heating the hydrolyzate and cooling the finished syrup, characterized in that they use a solution of raw milk sugar or its crystals after separation of molasses by centrifugation with a solids content of 58 - 62%, the solution is cooled to a temperature of 60 - 65 ^o C and hydrolysis is carried out at this temperature until the degree of hydrolysis of at least 50%.

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