Rice husk-based magnetic biochar produced via hydrothermal route for petroleum spills adsorption: characterization, adsorption kinetics, and isotherms

IF 3 4区 工程技术 Q3 CHEMISTRY, PHYSICAL Adsorption Pub Date : 2024-10-01 DOI:10.1007/s10450-024-00544-w
Dessy Ariyanti, Aprilina Purbasari, Denny Nugroho Sugianto, Dina Lesdantina, Marissa Widiyanti
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Abstract

Marine pollution, particularly oil spills, can occur as a result of tanker operations (air ballast), ship daily operational in the terminals, ship scrapping, and most frequently caused by accidents and collisions. The aftereffects range from fish migration and death to altered behaviour and reproduction in marine species, plankton pollution, fish migration, ecosystem harm, and economic loss. These give long term hazardous effect for ecosystem balance. Bio-based adsorbents such as biochar can be an alternative that environmentally friendly to replace chemical sorbents that till date effective to adsorb oil spills. However, its small particle size complicates at the time of separation. Adding magnetic properties to biochar is important to make it easy to separate and reuse so that its sustainability can be achieved. This study investigated the synthesization and performance of magnetic biochar to remove oil spills. Using the hydrothermal process at 200°C, it also involves the synthesis of magnetic biochar from agricultural waste, specifically rice husks. Because it can be done at low temperatures—between 180° and 250°C—hydrothermal carbonization is thought to be a cost-effective technique of producing biochar. The presence of FeO on the samples, as shown by FTIR, further supports the SEM-EDX study results showing the presence of Fe elements in magnetic biochar. Magnetic rice husk biochar has an area functional group of 20.79 and a surface area of 27.65 m2/g. It supports in adsorbing petroleum spill with an adsorption capacity of 0.593 g.g-1 and the effectiveness achieved at 63.1%. The reaction kinetics follows pseudo-second-order non-linear with R2 of 0.99. Magnetic rice husk biochar has a saturated magnetization of 0.46 emu/gr.

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通过水热法生产的稻壳基磁性生物炭用于石油泄漏吸附:特性、吸附动力学和等温线
油轮作业(空气压载)、码头船舶日常作业、船舶报废以及最常见的事故和碰撞都可能造成海洋污染,尤其是石油泄漏。其后果包括鱼类迁移和死亡、海洋物种行为和繁殖改变、浮游生物污染、鱼类迁移、生态系统损害和经济损失。这些都会对生态系统平衡造成长期危害。以生物为基础的吸附剂(如生物炭)是一种环保型替代品,可以取代迄今为止对吸附溢油有效的化学吸附剂。不过,生物炭的粒径较小,在分离时比较复杂。在生物炭中加入磁性,使其易于分离和再利用,从而实现生物炭的可持续发展,这一点非常重要。本研究调查了磁性生物炭的合成和性能,以清除溢油。该研究使用 200°C 水热工艺,还涉及从农业废弃物(特别是稻壳)中合成磁性生物炭。由于可以在 180° 至 250°C 的低温条件下进行,水热碳化被认为是一种具有成本效益的生物炭生产技术。傅立叶变换红外光谱(FTIR)显示样品中存在氧化铁,这进一步证实了 SEM-EDX 研究结果,即磁性生物炭中存在铁元素。磁性稻壳生物炭的面积官能团为 20.79,表面积为 27.65 平方米/克。磁性稻壳生物炭吸附石油溢出物的能力为 0.593 g.g-1,吸附效率为 63.1%。反应动力学为假二阶非线性,R2 为 0.99。磁性稻壳生物炭的饱和磁化率为 0.46 emu/gr。
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来源期刊
Adsorption
Adsorption 工程技术-工程:化工
CiteScore
8.10
自引率
3.00%
发文量
18
审稿时长
2.4 months
期刊介绍: The journal Adsorption provides authoritative information on adsorption and allied fields to scientists, engineers, and technologists throughout the world. The information takes the form of peer-reviewed articles, R&D notes, topical review papers, tutorial papers, book reviews, meeting announcements, and news. Coverage includes fundamental and practical aspects of adsorption: mathematics, thermodynamics, chemistry, and physics, as well as processes, applications, models engineering, and equipment design. Among the topics are Adsorbents: new materials, new synthesis techniques, characterization of structure and properties, and applications; Equilibria: novel theories or semi-empirical models, experimental data, and new measurement methods; Kinetics: new models, experimental data, and measurement methods. Processes: chemical, biochemical, environmental, and other applications, purification or bulk separation, fixed bed or moving bed systems, simulations, experiments, and design procedures.
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