RU2677125C1 - Method of producing marmalade with nanostructured l-arginine - Google Patents

Abstract

FIELD: food industry.SUBSTANCE: invention relates to confectionary industry. Method of producing marmalade with nanostructured L-arginine is proposed, in which 100 g of sugar is dissolved in 200 g of water and the mixture is boiled down for 10 minutes, then 2 g of agar-agar is added and boiled for another 5 minutes, 50 g of cherry syrup is pored and boiled, cooled to 60 °C, 100 mg of nanostructured L-arginine is added and poured into forms. In addition, L-arginine is used as a nanostructured additive in sodium alginate, or konjac gum, or gellan gum, or sodium carboxymethylcellulose, or high or low esterified apple or citrus pectin.EFFECT: invention allows to obtain a finished product of high quality, containing nanostructured L-arginine.6 cl, 1 tbl, 8 ex

Description

The invention relates to the food industry, namely, to a method for producing marmalade.

In US Pat. RF №2341107 (A23L 1/06 dated 12/20/2008) describes a method for producing marmalade with increased vitamin activity by adding fresh berries and to obtain a low-calorie product due to the complete replacement of sugar with a substitute of plant origin - stevioside and diabetic purpose.

The disadvantage of this solution is the use of fresh berries, since they destroy the homogeneous structure of marmalade and create additional difficulties associated with the instability of the quality of the resulting product.

In US Pat. RF №2376869 (A23L 1/06 dated 12/27/2009) in order to increase the nutritional value of finished products, increase the shelf life of finished products, it is proposed to use vegetable or fruit and vegetable puree based on agar-fruit syrup.

The disadvantage of this method is the need for high-temperature processing of vegetable puree and, as a result, vitamins are destroyed. When mashed potatoes are added to marmalade, it loses transparency, its structure worsens.

In US Pat. RF №2059387 (A23L 1/06 dated 05/10/1996) to obtain marmalade, protein is used, sweeteners, flavoring and aromatic additives and water, as well as a therapeutic and prophylactic additive, which are used as carrots, carrot juice, beet pectin, beetroot juice boiled beets.

The disadvantage of this method is that the resulting jelly mass is boiled, which affects the low content of vitamins in the finished product.

The closest is the method according to US Pat. RF №2468605 (A23L 1/06 of 12/10/2012), on the use of different in composition freshly squeezed or freshly squeezed quick-frozen juices of fruits, berries, vegetables, root crops. The plant component is added at the stage of cooking the syrup 2-3 minutes before the end of the cooking process. Moreover, in order to reduce the microbiological contamination of plant materials, they are treated with superheated steam before pressing.

The disadvantage of this method is the need for processing raw materials to reduce microbiological contamination by superheated steam and, therefore, in the low content of vitamins in the finished product due to their decomposition.

An object of the invention is to develop a method for producing marmalade, which allows to obtain a finished product of high quality containing nanostructured L-arginine.

The technical result of the invention is to improve the quality and biological value of the finished product through the use of nanostructured L-arginine, the method does not require additional technological operations and allows you to get marmalade for special functional purposes, as well as expanding the range.

The required nanostructured L-arginine is obtained according to patents No. 2579608 of 04/10/2016, No. 2557903 of July 27, 2015, No. 2556202 of July 10, 2015, No. 260,589 of January 10, 2017, No. 2626831 of August 2, 2017, No. 2642233 of January 24, 2018.

EXAMPLE 1

100 g of sugar are dissolved in 200 g of water and the mixture is boiled for 10 minutes, then 2 g of agar agar is added and cooked for another 5 minutes, pour 50 g of cherry syrup and bring to a boil, cool to 60 ° C, add 100 mg of nanostructured L -Arginine in sodium alginate and pour into forms.

EXAMPLE 2

100 g of sugar are dissolved in 200 g of water and the mixture is boiled for 10 minutes, then 2 g of agar agar is added and cooked for another 5 minutes, pour 50 g of cherry syrup and bring to a boil, cool to 60 ° C, add 100 mg of nanostructured L -Arginine in konjak gum and pour into forms.

EXAMPLE 3

100 g of sugar are dissolved in 200 g of water and the mixture is boiled for 10 minutes, then 2 g of agar agar is added and cooked for another 5 minutes, pour 50 g of cherry syrup and bring to a boil, cool to 60 ° C, add 100 mg of nanostructured L -arginine in gellan gum and pour into forms.

EXAMPLE 4

100 g of sugar are dissolved in 200 g of water and the mixture is boiled for 10 minutes, then 2 g of agar agar is added and cooked for another 5 minutes, pour 50 g of cherry syrup and bring to a boil, cool to 60 ° C, add 100 mg of nanostructured L -Arginine in sodium carboxymethyl cellulose and pour into forms.

EXAMPLE 5

100 g of sugar are dissolved in 200 g of water and the mixture is boiled for 10 minutes, then 2 g of agar agar is added and cooked for another 5 minutes, pour 50 g of cherry syrup and bring to a boil, cool to 60 ° C, add 100 mg of nanostructured L -Arginine in a highly esterified apple pectin and pour into forms.

EXAMPLE 6

100 g of sugar are dissolved in 200 g of water and the mixture is boiled for 10 minutes, then 2 g of agar agar is added and cooked for another 5 minutes, pour 50 g of cherry syrup and bring to a boil, cool to 60 ° C, add 100 mg of nanostructured L -arginine in low esterified apple pectin and pour into forms.

EXAMPLE 7

100 g of sugar are dissolved in 200 g of water and the mixture is boiled for 10 minutes, then 2 g of agar agar is added and cooked for another 5 minutes, pour 50 g of cherry syrup and bring to a boil, cool to 60 ° C, add 100 mg of nanostructured L -arginine in a highly esterified citrus pectin and poured into forms.

EXAMPLE 8

100 g of sugar are dissolved in 200 g of water and the mixture is boiled for 10 minutes, then 2 g of agar agar is added and cooked for another 5 minutes, pour 50 g of cherry syrup and bring to a boil, cool to 60 ° C, add 100 mg of nanostructured L arginine in a low esterified citrus pectin and poured into forms.

The marmalade obtained in this way has high palatability, a pleasant sweetish taste, a jelly-like consistency, the correct form and can be used as a functional product to increase working capacity and relieve fatigue and stress, especially for people suffering from cardiovascular diseases.

Organoleptic and physico-chemical characteristics of the finished raw materials are shown in table 1.

Thus, the proposed method for producing marmalade using nanostructured L-arginine allows you to:

- get a new high-quality product with reduced energy value:

- give the finished product a therapeutic and prophylactic purpose:

- expand the range of confectionery for special purposes.

Claims (6)

1. A method of producing marmalade with nanostructured L-arginine, characterized in that 100 g of sugar are dissolved in 200 g of water and the mixture is boiled for 10 minutes, then 2 g of agar-agar are added and cooked for another 5 minutes, 50 g of cherry syrup are poured and bring to a boil, cool to 60 ° C, add 100 mg of nanostructured L-arginine and pour into forms. 2. The method according to p. 1, characterized in that as a nanostructured additives use L-arginine in sodium alginate. 3. The method according to p. 1, characterized in that as a nanostructured additives use L-arginine in konjac gum 4. The method according to p. 1, characterized in that as a nanostructured additives use L-arginine in gellan gum 5. The method according to p. 1, characterized in that as the nanostructured additives use L-arginine in sodium carboxymethyl cellulose 6. The method according to p. 1, characterized in that as a nanostructured additive, L-arginine is used in high or low esterified apple or citrus pectin.