纯化栗木和亚硫酸化坚木提取物的特性和鞣制效果

Journal of Leather Science and Engineering Pub Date : 2024-09-02 DOI:10.1186/s42825-024-00171-9

Silvia Conca, Vanessa Gatto, Riccardo Samiolo, Samuele Giovando, Andrea Cassani, Elisa Tarabra, Valentina Beghetto

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引用次数: 0

摘要

植物单宁是环保型鞣剂。然而，它们通常会给鞣制皮革带来深色，并严重增加废水中的有机负荷。在这项研究中，我们分别采用了栗木单宁（CT）和硫酸化坚木单宁（QT）的纯化方案，以获得纯化馏分（PCT 和 PQT）。这些样品通过 GPC、1H NMR、13C NMR、FT-IR 和 HPLC-DAD 技术进行表征，并应用于鞣制测试。通过纯化过程，有效地去除了 CT 和 QT 中的非单宁成分和较小的分子，如没食子酸、葡吡喃糖和儿茶素，从而降低了纯化馏分的水分含量、pH 值和颜色。用 PCT 和 PQT 加工的皮壳皮革呈现出理想的浅色。此外，与传统的 CT 和 QT 制革废水相比，PCT 和 PQT 制革废水中的有机负荷分别减少了 13.5% 和 19.1%。此外，用 PCT 和 PQT 处理的结皮的物理和机械特性与用 CT 和 QT 处理的结皮相当。因此，净化植物单宁可作为生产浅色植物鞣革的可行策略，同时最大限度地减少植物鞣制过程中的有机污染物排放。

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Characterisation and tanning effects of purified chestnut and sulfited quebracho extracts

Vegetable tannins are environmentally friendly tanning agents. However, they generally impart a dark colour to the tanned leather and highly contribute to the organic load in wastewaters. In this study, we employed a purification protocol separately on chestnut tannin (CT) and sulfited quebracho tannin (QT) to obtain the purified fractions (PCT and PQT). These samples were characterised by GPC, ¹H NMR, ¹³C NMR, FT-IR, and HPLC–DAD techniques and applied for tanning tests. Through the purification process, non-tannin components and smaller molecules such as gallic acid, glucopyranose, and catechin were effectively removed from CT and QT, which consequently led to the reduced moisture content, pH value, and lighter colour of purified fractions. The crust leathers processed with PCT and PQT showed desirable light shades. Moreover, the organic loads in PCT and PQT tanning wastewater were reduced by 13.5% and 19.1%, respectively, when compared to those in traditional CT and QT tanning wastewater. Additionally, the physical and mechanical characteristics of crust leathers processed with PCT and PQT were comparable to those processed with CT and QT. Thus, purification of vegetable tannins may serve as a feasible strategy for producing light-colored vegetable-tanned leather while minimizing organic pollutant discharge during the vegetable tanning process.

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来源期刊

Journal of Leather Science and Engineering 工程技术-材料科学：综合

CiteScore

12.80

自引率

0.00%

发文量