水热法制备农业废弃物磁性生物炭用于石油泄漏吸附

D. Ariyanti, I. N. Widiasa, M. Widiyanti, Dina Lesdantina, W. Gao
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引用次数: 1

摘要

石油泄漏是由油轮作业(压载)、船舶维修和维护(停靠)、海洋中部装卸码头、空气舱底(水、油和发动机加工润滑油的排放)、船舶报废以及油轮最常见的事故/碰撞引发的海洋污染事件之一。影响各不相同,包括海洋生物,特别是鱼类的死亡、生物繁殖和行为的变化、浮游生物污染、鱼类迁徙以及生态系统破坏和经济损失。生物炭等生物吸收剂是化学吸收剂的环保替代品,可以更快地吸附漏油。在本研究中,研究了磁性生物炭在清除溢油中的有效性。它还包括在200°C的温度下使用水热法从农业废弃物(甘蔗渣、稻壳和锯末)中合成磁性生物炭。水热碳化被认为是一种成本效益高的生物炭生产方法,因为该工艺可以在180°-250°C左右的低温下进行。利用扫描电子显微镜和能量分散X射线(SEM-EDX)、傅立叶变换红外光谱(FTIR)和X射线衍射(XRD)对生物炭进行了表征。Brunauer、Emmett和Teller(BET)和Barrett–Joyner–Halenda(BJH)用于分析表面积和孔径分布。基于SEM-EDX分析的结果,由于FeCl3.6H2O反应,仅由含有Fe元素的稻壳和甘蔗渣制成生物炭。基于FTIR,FeO在两个样品上的存在也证明了这种条件。三种合成的生物炭是无定形的,由于孔径约为15至16nm,被归类为中孔,其可以吸收石油泄漏,甘蔗渣基生物炭的吸收率为81%,稻壳基生物炭为84%,木屑基生物炭则为70%。稻壳生物炭具有良好的吸附效果,60分钟内吸附量为0.21 g/g,这是因为其官能团面积大,磁性化合物能很好地附着在生物炭表面形成磁性生物炭。
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Agricultural waste-based magnetic biochar produced via hydrothermal route for petroleum spills adsorption
Oil spills are one of the marine pollution events triggered by the results of tanker operations (air ballast), ship repairs and maintenance (docking), mid-ocean loading and unloading terminals, air bilge (drainage of water, oil, and engine-processed lubricants), ship scrapping, and the most common accidents/collisions of tankers. The impacts vary from the death of marine organisms, especially fish, changes in reproduction and behavior of organisms, plankton contamination, fish migration, as well as ecosystem damage, and economic loss. Bio-based absorbents such as biochar can be an environmentally friendly alternative to chemical sorbents that works to adsorb oil spills faster. In this study, the effectiveness of magnetic biochar in oil spill removal was investigated. It also includes the synthesisation of magnetic biochar from agricultural waste (bagasse, rice husks, and sawdust) using the hydrothermal method at a temperature of 200°C. Hydrothermal carbonization is considered a cost-effective method for biochar production because the process can be carried out at low temperatures around 180°- 250°C. Biochar characterization was carried out with a Scanning Electron Microscope and Energy Dispersive X-Ray (SEM-EDX), Fourier Transform Infrared Spectroscopy (FTIR), and X-Ray Diffraction (XRD). The Brunauer, Emmett, and Teller (BET) and Barrett–Joyner–Halenda (BJH) were used to analyse the surface area and pore size distribution. Based on the results of the SEM-EDX analysis, only biochar was made from rice husk and sugarcane bagasse which contained Fe elements, as a result of the FeCl3.6H2O reaction. This condition is also proven by the presence of the FeO on both samples based on FTIR. The three synthesized biochar are amorphous and categorized as mesopores due to pore size around 15 to 16 nm, which can absorb petroleum spills with a percentage of 81% for sugarcane bagasse-based biochar, 84% for rice husk-based biochar, and 70% for sawdust-based biochar. Biochar from rice husk has excellent adsorption effectiveness with an adsorption capacity of 0.21 g/g in 60 min due to its large functional group area and the excellent attachment of magnetic compound into the biochar surface to form magnetic biochar.
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CiteScore
4.50
自引率
16.00%
发文量
83
审稿时长
8 weeks
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