State diagrams of green peas (Pisum sativum L.) powders with different maltodextrin additions

IF 3.2 4区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Biopolymers Pub Date : 2024-04-15 DOI:10.1002/bip.23580
Anna Stępień, Mariusz Witczak
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引用次数: 0

Abstract

The purpose of this study was to examine the effect of maltodextrin addition on the physical stability of powdered green peas. The evaluation of the physical state of the material was based on the equilibrium water content of the monolayer (Xm) and the glass transition temperatures of the powders at room temperature (Tg) and in the frozen state (Tg'). Graphical sorption characteristic at 25°C was determined using static—gravimetric method while capacity of the monolayer values was calculated from the mathematical GAB model. Differential scanning calorimetry was carried out in order to determine glass transition lines and freezing curves which combine together were used to plot state diagrams. Relationship between Tg and solid content were shown by using Gordon–Taylor model. Freezing data were modeled employing the Clausius–Clapeyron equation and its development—Chen model. Sorption isotherms showed sigmoidal shape characteristic for high-molecular weight materials. Monolayer moisture content varied between 0.047 and 0.106 g water/g solids. The glass transition temperature of anhydrous green peas increased in from 89.9 to 175.6°C while Tg′ value changed from −43.4 to −26.6°C to as a result of 75% polysaccharide addition. The ultimate maximum-freeze-concentration conditions of the powders were observed in range from 0.783 to 0.814 g solids/g sample. Monolayer capacity, Tg and Tg′ values increased with increasing maltodextrin amount in the sample which indicates that the addition of starch hydrolysate has a beneficial effect on the stability of powders stored frozen and at room temperature.

Abstract Image

Abstract Image

添加不同麦芽糊精的青豌豆(Pisum sativum L.)粉末的状态图
本研究的目的是考察添加麦芽糊精对青豌豆粉物理稳定性的影响。材料物理状态的评估基于单层平衡含水量(Xm)以及粉末在室温(Tg)和冷冻状态(Tg')下的玻璃化转变温度。25°C 时的图形吸附特性是用静态重力法测定的,而单层的容量值则是根据数学 GAB 模型计算出来的。为了确定玻璃化转变线和冻结曲线,采用了差示扫描量热法。使用 Gordon-Taylor 模型显示了 Tg 与固体含量之间的关系。凝固数据采用克劳修斯-克拉皮隆方程及其发展-陈模型。吸附等温线显示出高分子量材料的曲线特征。单层含水量在 0.047 至 0.106 克水/克固体之间变化。由于添加了 75% 的多糖,无水青豌豆的玻璃化温度从 89.9°C 上升到 175.6°C,而 Tg′ 值则从 -43.4°C 变为 -26.6°C。粉末的最终最大冷冻浓度范围为 0.783 至 0.814 克固体/克样品。单层容量、Tg 和 Tg′ 值随着样品中麦芽糊精含量的增加而增加,这表明淀粉水解物的添加对粉末在冷冻和室温下储存的稳定性有好处。
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来源期刊
Biopolymers
Biopolymers 生物-生化与分子生物学
CiteScore
5.30
自引率
0.00%
发文量
48
审稿时长
3 months
期刊介绍: Founded in 1963, Biopolymers publishes strictly peer-reviewed papers examining naturally occurring and synthetic biological macromolecules. By including experimental and theoretical studies on the fundamental behaviour as well as applications of biopolymers, the journal serves the interdisciplinary biochemical, biophysical, biomaterials and biomedical research communities.
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