使用不同的食品级酸处理猪皮:对副产品理化特性的影响

Diego Ezequiel Velazquez, Mariana Marta Sánchez, Maria Emilia Latorre
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引用次数: 0

摘要

食品升级回收有助于减少食物损失和浪费,并为新产品提供可持续的解决方案。在本工作中,研究了使用食品级酸(乙酸(AH),乳酸(AL),柠檬酸(AC)和抗坏血酸(AA))来获得猪皮副产物,酸溶性胶原(ASC)和明胶(G)。目的是评估使用不同食品级酸对猪皮副产物特性的影响。对副产物的物理化学和热特征进行了评价,包括羟脯氨酸(Hyp)、pH、差示扫描量热法(DSC)和颜色。ASC和G溶液的pH´s与所使用的酸溶液pH呈正相关。AH和AA ASC组分的Hyp含量低于AC和al处理。AH和AA处理的G - h含量高于AC和al处理。干燥后的ASC-AH和-AA的热转变温度(Td)低于AL和AC。4种干燥后的g样品在120℃左右表现出吸热信号,但焓值不同。目前的研究结果表明,在加热过程中使用的酸和溶液的pH值会影响副产物的物理化学性质。使用食品级酸获得不同猪皮副产品的可能性可能是获得新型ASC和G用途的一种选择。与处理无关,G副产物是主要产率。同样,需要进一步研究以了解副产物的化学差异及其潜在用途。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pigskin Treatment Using Different Food-Grade-Acids: Effects on The Physicochemical Characteristics of The By-Products
Upcycling foods contributes to reducing food loss and waste and provides sustainable solutions to novel products. In the present work, it was studied the use of food-grade acids (Acetic(AH), Latic(AL), Citric(AC), and Ascorbic(AA) acid) to obtain pigskin by-products, acid-soluble collagen (ASC), and gelatin (G). The aim was to evaluate the effect of the use of different food-grade acids on pigskin by-product characteristics. The physicochemical and thermal features, including Hydroxyproline (Hyp), pH, Differential Scanning Calorimetry (DSC), and color, were evaluated on by-products. The ASC and G solutions pH´s showed relation with the acid solution pH used. The AH and AA ASC fractions, showed lower Hyp content than AC and AL-treatments. By contrast, G Hyp-content was higher for AH and AA than AC and AL-treatments. The dried ASC-AH and -AA thermal transition temperatures (Td) resulted lower than AL and AC. The four dried-G samples showed an endothermic signal around 120 °C but with differences on enthalpy values. Current results suggest that the acid used and the pH of the solution during the thermal process would affect the physical-chemical properties of the by-products. The possibility to obtain different pigskin by-products using food grade acid could be an option for obtaining novel ASC and G use. Independently of the treatment, the G by-product was the main yield. Likewise, further studies are required to understand the by-products chemical differences and their potential uses.
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