F.C. Urruchua , M.A. Fernández , M.E. de Sousa , M. Jaworski , P. Mendoza Zelis , M.E. Zelaya-Soulé , S. Song , M.L. Montes
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The activation process has resulted in the formation of mesopores, an increase of surface area due to the destruction/release of impurities, the transformation of whewellite to calcite, and changes in magnetic behavior. These changes seem to affect the formation of Fe oxides. The COP and IP methods allow the development of magnetic composites based on BC-Act, BC-Act-COP and BC-Act-IP, with saturation magnetization of 3.1 Am<sup>2</sup>/kg and 1.5 Am<sup>2</sup>/kg, respectively, attributed to magnetite/maghemite formation and a minimal distance for manipulation by a magnetic field of 12.1 mm and 7.9 mm, respectively. These distances must be considered when developing efficient removal systems using magnetic composites. PCT was sorbed faster and more efficiently than ATE, associated with its smaller molecular size. This presents a valuable contribution to environmental sustainability and advancements in water purification, highlighting the dual advantage of converting the widely available waste product, predominantly found in South America, into an effective sorbent with magnetic characteristics, capable of removing pharmaceutical contaminants from aqueous solutions. This is done in the circular economy, avoiding the final deposition of yerba mate waste in landfills, increasing their lifespan, and safeguarding other natural and non-renewable resources, such as clays, whose preservation rather than exploitation improves environmental quality and saves energy.</div></div>","PeriodicalId":349,"journal":{"name":"Journal of Cleaner Production","volume":null,"pages":null},"PeriodicalIF":9.7000,"publicationDate":"2024-10-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Fe oxide modification of yerba mate waste-derived biochar and activated biochar via three methodologies: Effects of material surface properties on the Fe oxides grown and implications for paracetamol and atenolol sorption\",\"authors\":\"F.C. Urruchua , M.A. Fernández , M.E. de Sousa , M. Jaworski , P. Mendoza Zelis , M.E. Zelaya-Soulé , S. Song , M.L. 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引用次数: 0
摘要
这项研究首次介绍了利用从叶巴伴侣废料中提取的活化生物炭(BC-Act)开发磁性复合材料的情况。其中包括使用最常用的方法分析活化过程对铁氧化物形成的影响,这是以前从未研究过的方面。研究考虑了三种铁氧化物生长方法:共沉淀法(COP)、浸渍-热解法(IP)和硝酸盐存在下的碱性氧化法(AOPN)。这些材料具有磁性响应和足够好的 BET 面积,已被用于从水溶液中吸附扑热息痛(PCT)和阿替洛尔(ATE)。活化过程导致中孔的形成,杂质的破坏/释放导致比表面积的增加,麦饭石转变为方解石,以及磁性行为的变化。这些变化似乎影响了铁氧化物的形成。采用 COP 和 IP 方法可以开发出基于 BC-Act、BC-Act-COP 和 BC-Act-IP 的磁性复合材料,其饱和磁化率分别为 3.1 Am2/kg 和 1.5 Am2/kg,这归因于磁铁矿/方镁石的形成,以及磁场操纵的最小距离分别为 12.1 mm 和 7.9 mm。在开发使用磁性复合材料的高效去除系统时,必须考虑这些距离。与 ATE 相比,PCT 的吸附速度更快、效率更高,这与其分子尺寸更小有关。这为环境的可持续发展和水净化的进步做出了宝贵的贡献,凸显了将广泛存在于南美洲的废品转化为具有磁性特征的有效吸附剂的双重优势,能够去除水溶液中的药物污染物。这是在循环经济中实现的,避免了耶巴马黛茶废弃物在垃圾填埋场的最终沉积,延长了其使用寿命,并保护了粘土等其他不可再生的自然资源。
Fe oxide modification of yerba mate waste-derived biochar and activated biochar via three methodologies: Effects of material surface properties on the Fe oxides grown and implications for paracetamol and atenolol sorption
This work presents, for the first time, the development of magnetic composites using activated biochar (BC-Act) derived from yerba mate waste. It includes an analysis of the effect of the activation process on the formation of iron oxides using the most applied methodologies, an aspect that has not been studied before. Three methodologies have been considered for Fe oxides grown: coprecipitation (COP), impregnation-pyrolysis (IP), and alkaline oxidation in the presence of nitrates (AOPN). The materials with magnetic response and good enough BET area have been used to sorb Paracetamol (PCT) and Atenolol (ATE) from aqueous solutions. The activation process has resulted in the formation of mesopores, an increase of surface area due to the destruction/release of impurities, the transformation of whewellite to calcite, and changes in magnetic behavior. These changes seem to affect the formation of Fe oxides. The COP and IP methods allow the development of magnetic composites based on BC-Act, BC-Act-COP and BC-Act-IP, with saturation magnetization of 3.1 Am2/kg and 1.5 Am2/kg, respectively, attributed to magnetite/maghemite formation and a minimal distance for manipulation by a magnetic field of 12.1 mm and 7.9 mm, respectively. These distances must be considered when developing efficient removal systems using magnetic composites. PCT was sorbed faster and more efficiently than ATE, associated with its smaller molecular size. This presents a valuable contribution to environmental sustainability and advancements in water purification, highlighting the dual advantage of converting the widely available waste product, predominantly found in South America, into an effective sorbent with magnetic characteristics, capable of removing pharmaceutical contaminants from aqueous solutions. This is done in the circular economy, avoiding the final deposition of yerba mate waste in landfills, increasing their lifespan, and safeguarding other natural and non-renewable resources, such as clays, whose preservation rather than exploitation improves environmental quality and saves energy.
期刊介绍:
The Journal of Cleaner Production is an international, transdisciplinary journal that addresses and discusses theoretical and practical Cleaner Production, Environmental, and Sustainability issues. It aims to help societies become more sustainable by focusing on the concept of 'Cleaner Production', which aims at preventing waste production and increasing efficiencies in energy, water, resources, and human capital use. The journal serves as a platform for corporations, governments, education institutions, regions, and societies to engage in discussions and research related to Cleaner Production, environmental, and sustainability practices.