田口优化法合成葡萄修剪废弃物水凝胶作为水中农药的潜在吸附剂。

Taguchi optimisation of the synthesis of vine-pruning-waste hydrochar as potential adsorbent for pesticides in water.

机构信息

Department of Chemical Engineering and Analytical Chemistry, Faculty of Chemistry, Universitat de Barcelona, C/Martí i Franquès, 08028 Barcelona, Spain; School of Chemical Engineering, Universidad de Costa Rica, San José 11501, Costa Rica.

Department of Chemical Engineering and Analytical Chemistry, Faculty of Chemistry, Universitat de Barcelona, C/Martí i Franquès, 08028 Barcelona, Spain.

出版信息

Bioresour Technol. 2024 May;399:130552. doi: 10.1016/j.biortech.2024.130552. Epub 2024 Mar 7.

DOI:10.1016/j.biortech.2024.130552

PMID:38458262

Abstract

This research aimed to synthesise an effective hydrochar adsorbent from vineyard pruning wastes to remove emerging contaminants as a potential valorisation product. The adsorption capacity of the hydrochar was optimised using the Taguchi method. Four synthesis variables were evaluated: hydrothermal reaction temperature, use of HPO as a catalyst, number of acetone washes, and type of chemical cold activation. The simultaneous adsorption of five model pesticides (clothianidin (CTD), acetamiprid (ACE), 2,4-D, metalaxyl (MET), and atrazine (ATZ)) at an initial pH of 7 was studied. At optimum conditions, the hydrochar presented a total adsorption capacity of 22.7 μmol/g, representing a 2.7-fold improvement with respect to pristine hydrochar performance. High percentage removals were achieved for all pollutants (85 % CTD, 94 % ACE, 86 % MET, and 95 % ATZ) except for 2,4-D (4 %). This research provides a valuable reference for developing hydrochar adsorbents for pollution control and the valorisation of biomass wastes.

摘要

本研究旨在利用葡萄园修剪废物合成一种有效的水热炭吸附剂，以去除新兴污染物，作为一种潜在的增值产品。采用田口法优化了水热炭的吸附容量。评估了四个合成变量：水热反应温度、使用 HPO 作为催化剂、丙酮洗涤次数和化学冷活化类型。在初始 pH 为 7 的条件下，研究了同时吸附五种模型农药（噻虫嗪（CTD）、噻虫胺（ACE）、2,4-D、甲霜灵（MET）和莠去津（ATZ））的情况。在最佳条件下，水热炭的总吸附容量为 22.7 μmol/g，比原始水热炭的性能提高了 2.7 倍。所有污染物（85% CTD、94% ACE、86% MET 和 95% ATZ）的去除率均较高，除 2,4-D（4%）外。本研究为开发用于污染控制和生物质废物增值的水热炭吸附剂提供了有价值的参考。

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田口优化法合成葡萄修剪废弃物水凝胶作为水中农药的潜在吸附剂。

Taguchi optimisation of the synthesis of vine-pruning-waste hydrochar as potential adsorbent for pesticides in water.

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