Method for simultaneously detecting 22 sugars, sugar alcohol and alcohol in fruit juice

A technology for fruit juice and sugar alcohol, applied in the field of analytical chemistry, can solve the problems of inability to meet the detection requirements and the number of components is small, and achieve the effects of reducing the detection cost, improving the accuracy and improving the detection efficiency

Active Publication Date: 2019-11-29
日照海关综合技术服务中心
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] At present, although people have studied the methods for the simultaneous detection of multiple sugars, sugar alcohols and alcohols in fruit juice, what can be retrieved in the current database is only for a certain type of components (such as simple sugars or Alcohols) or the number of simultaneously detected components is small (only about 10 kinds

Method used

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  • Method for simultaneously detecting 22 sugars, sugar alcohol and alcohol in fruit juice
  • Method for simultaneously detecting 22 sugars, sugar alcohol and alcohol in fruit juice
  • Method for simultaneously detecting 22 sugars, sugar alcohol and alcohol in fruit juice

Examples

Experimental program
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Effect test

Embodiment 1

[0046] Embodiment 1: a method for simultaneous detection of 22 kinds of sugars, sugar alcohols and alcohols in fruit juice

[0047] 1. Instruments and Reagents

[0048]ICS5000+ ion chromatography system is equipped with electrochemical detector and autosampler (Thermo Scientific, USA); Milli-Q ultrapure water instrument (Millipore, USA); electronic balance (Mettler ML802 / 02); experimental water: Ultrapure water (resistivity 18.2MΩ.cm); sugar, sugar alcohol, alcohol standard or standard reagent (purity >98%); sodium hydroxide solution (50% w / w, Fisher Chemical); hydrochloric acid (excellent grade pure); IC-RP10 column (Agela Technologies).

[0049] 2. Ion Chromatography Conditions

[0050] CarboPac MA1 (4×250 mm) analytical column, CarboPac MA1 (4×50 mm) guard column; working electrode: Gold (Au); reference electrode: AgCl electrode; mobile phase: NaOH eluent (nitrogen protection); flow rate : 0.40 mL / min; column temperature: 30 ℃; injection volume: 10 μL. Initial rinse con...

Embodiment 2

[0058] Example 2: Influence of flow rate on detection

[0059] According to the conditions of the experimental analysis in Example 1, under the condition that other conditions remain unchanged, the flow rate of the eluent is successively tested to be 0.30 mL / min, 0.40 mL / min, 0.50 mL / min, and 0.60 mL / min. The separation of the components of the standard solution, the relationship between the flow rate of the eluent and the system pressure is shown in Table 2.

[0060] Table 2 Relationship between eluent flow rate and system pressure

[0061]

[0062] From Table 2, it can be concluded that when the eluent flow rate is 0.30 mL / min, the system pressure is 885 psi, because the flow rate is lower, the pressure is lower, the peak width increases, the peak sensitivity decreases, and the overall resolution is not high. When the flow rate was 0.50 mL / min, the system pressure reached 1430 psi. Although the component sensitivity was improved, the resolution of individual components w...

Embodiment 3

[0063] Example 3: Influence of multi-stage gradient elution conditions on detection

[0064] According to the conditions of the experimental analysis in Example 1, under the condition of other conditions unchanged, test the initial eluent concentration successively and mix the standard solution components under the conditions of 420, 450, 480, 500, 520, 550 mmol / L respectively Separation situation, since the initial concentration has little effect on the resolution of the three components of components 20, 21, and 22, here we focus on the impact of the initial concentration on the first 19 components, and the component separation of the mixed standard solution is as follows figure 2 shown.

[0065] From figure 2 It can be seen from the figure that when the initial eluting concentrations were 420 and 450 mmol / L, components 7 and 8, and components 10 and 11 were not separated; when the initial eluting concentrations were 480 mmol / L, components 10 and 11 The resolution was no...

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Abstract

The invention discloses a method for simultaneously detecting 22 sugars, sugar alcohol and alcohol in fruit juice, and belongs to the field of analytical chemistry. The method adopts an integral impulse ampere-ion chromatography to research experiment factors affecting component separation via a processing method before optimization; and the method for simultaneously detecting the 22 sugars, the sugar alcohol and the alcohol (2,3-butanediol, propylene glycol, methyl alcohol, glycerin, erythritol, xylitol, rhamnose, arabitol, sorbitol, trehalose, galactitol, mannitol, 2-deoxidized-D-glucose, arabinose, melibiose, glucose, galactose, fructose, ribose, saccharose, raffinose and maltose) at a time is built. The technical difficulty of accurately analyzing the plurality of components, sugars, sugar alcohol and alcohol, in the fruit juice is solved; the method is fast, accurate and sensitive, achieves simultaneous analysis of the plurality of categories and the plurality of components, and makes an important contribution to component detection of the fruit juice.

Description

technical field [0001] The invention belongs to the field of analytical chemistry, and in particular relates to a method for simultaneously detecting 22 kinds of sugars, sugar alcohols and alcohols in fruit juice. Background technique [0002] Fruit juice is an important beverage in people's daily life, and fruit juice contains protein, amino acid, sugar, sugar alcohol and other ingredients. Among them, carbohydrates are the main source of energy for people to maintain life activities. Sugar alcohol is a substance formed by the reduction of aldehyde or ketone groups of sugars to hydroxyl groups. It is mainly a sweetener produced by the reaction of corresponding sugars. It will not cause blood sugar to rise, so it has the effect of preventing diabetes and obesity. Alcohols are compounds that contain a hydroxyl group bound to a hydrocarbon group or a carbon on the side chain of a benzene ring in the molecule. Many alcohols are beneficial to human health, but some alcohols hav...

Claims

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Application Information

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IPC IPC(8): G01N30/96G01N30/88G01N30/06G01N30/14G01N30/34G01N30/30
CPCG01N30/06G01N30/14G01N30/30G01N30/34G01N30/88G01N30/96G01N2030/047G01N2030/146G01N2030/884
Inventor 宋卫得高尧华许美玲叶佳宇李林杰林令海
Owner 日照海关综合技术服务中心
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