Valorization of corn cobs: a sustainable filtration approach for caffeine and triclosan removal

IF 5.7 3区环境科学与生态学 Q1 WATER RESOURCES

Applied Water Science Pub Date : 2025-08-29 DOI:10.1007/s13201-025-02577-0

Cristina E. Almeida-Naranjo, Cristina Villamar-Ayala, Andrea Daquilema, Alexis Debut

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Abstract

The continuous occurrence of emerging contaminants, such as caffeine and triclosan in water sources, poses significant environmental and public health risks, particularly in decentralized low-income contexts. This study evaluated the performance of corn cobs (low-cost abundant agro-industrial by-product) used as filter medium for emerging contaminant removal. Laboratory-scale filters (height: 100 cm; diameter: 12 cm) were packed with corn cobs of different particle sizes—small (SPF: 0.8–2.0 cm), medium (MPF: 2.0–3.5 cm), large (LPF: 3.5–5.7 cm), and mixed (MxPF), operating under three hydraulic loading rates (1, 2, and 4 m³/m²·d) with intermittent feeding cycles (6 h/day). Prior to use, the corn cobs were washed, oven-dried at 80 °C, sieved, and characterized using ASTM standard methods, FTIR, BET, and SEM analyses. The MPF filter operated at 2 m³/m²·d showed the best overall performance, with up to 92.1% caffeine and 99.0% triclosan removal, without clogging (head losses: − 2.1–4.8 cm H₂O), and extended operational time (up to 246 h). Triclosan columns exhibited slower saturation, likely due to stronger interactions with the filter media driven by its higher molecular weight and hydrophobicity. Its antimicrobial properties may have also supported greater filter stability, a possibility that warrants further investigation. These findings underscore the potential of corn cob-based systems for water treatment/reclamation in decentralized low-income zones, promoting agricultural residues revaluation according to circular economy principles.

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玉米芯的增值：一种去除咖啡因和三氯生的可持续过滤方法

水源中不断出现咖啡因和三氯生等新出现的污染物，对环境和公共健康构成重大风险，特别是在分散的低收入环境中。本研究评估了玉米芯（低成本、丰富的农工副产品）作为过滤介质去除新兴污染物的性能。实验室规模的过滤器（高度：100 cm，直径：12 cm）填充不同粒径的玉米芯——小（SPF: 0.8-2.0 cm）、中（MPF: 2.0-3.5 cm）、大（LPF: 3.5-5.7 cm）和混合（MxPF），在三种水力加载率（1、2和4 m3/m2·d）下运行，间歇饲喂周期（6 h/天）。使用前，玉米芯清洗，在80°C下烘干，筛选，并使用ASTM标准方法，FTIR， BET和SEM分析进行表征。以2 m3/m2·d的速度运行的MPF过滤器表现出最佳的整体性能，咖啡因去除率高达92.1%，三氯生去除率高达99.0%，无堵塞（水头损失：−2.1-4.8 cm H₂O），运行时间延长（高达246 H）。三氯生柱表现出较慢的饱和，可能是由于其较高的分子量和疏水性与过滤介质的相互作用更强。它的抗菌特性也可能支持更大的过滤器稳定性，这种可能性值得进一步研究。这些发现强调了以玉米棒为基础的系统在分散的低收入地区进行水处理/回收的潜力，促进了根据循环经济原则对农业残留物的重新评估。

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