Macadamia nut residue-derived biochar: An eco-friendly solution for β-naphthol and Reactive Black-5 removal

IF 5.2 2区化学 Q1 CHEMISTRY, APPLIED Catalysis Today Pub Date : 2024-09-14 DOI:10.1016/j.cattod.2024.115050

Gilberto B. Fernandes , Ruan de Oliveira Alves , Lilia T. Marconsini , Michel P. de Oliveira , Renato R. Passos , Demetrius Profeti , Luciene P.R. Profeti

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Abstract

The generation of liquid waste containing dyes and complex organic compounds is a problem in the textile industries. In this work, we evaluated the use of macadamia nut residue as a precursor of a biochar for the treatment of these effluents through the adsorption process. The macadamia nut endocarp undergoes a sequential treatment involving pyrolysis at 600 °C followed by physical activation with CO₂ and H₂O vapor at 700 °C. Characterization of the resulting macadamia nut residue-derived biochar (MB) is accomplished through various techniques, including X-ray diffractometry (XRD), thermogravimetric analysis (TGA), scanning electron microscopy coupled with energy dispersive X-ray spectroscopy (SEM-EDS), nitrogen physisorption analysis and the pH at the zero charge point (pH_ZCP). Performance studies reveal that pH exerts minimal influence on the adsorption phenomenon. The Elovich kinetic model effectively describes the adsorption kinetics for both β-naphthol and Reactive Black 5 (RB5), with adjusted coefficients of determination (R²_adj) of 0.99 and 0.94, respectively. Further analysis using the intraparticle diffusion model demonstrates that β-naphthol adsorption kinetics involve multiple mechanisms, while RB5 adsorption is predominantly governed by intraparticle diffusion. Equilibrium adsorption data for both adsorbates fit well with the Sips isothermal model, yielding maximum adsorption capacities of q_max β-naphthol = 15.16 mg∙g⁻¹ and q_max RB5 = 3.08 mg∙g⁻¹ at 55 °C. The adsorption process for both compounds is spontaneous and endothermic, based on the enthalpy values, it can be inferred that the β-naphthol adsorption is governed by weak van der Waals forces, indicating physisorption. As for RB5, the enthalpy value suggests that the phenomenon occurs due to electrostatic interactions between the molecule and the surface groups with higher energy involved. This study highlights the potential of macadamia nut residue biomass as a precursor for biochar, demonstrating its favorable attributes for application as an effective adsorbent material in the removal of organic compounds such as β-naphthol and RB5 from wastewater streams within the textile industry.

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从澳洲坚果残渣中提取的生物炭：去除β-萘酚和活性黑-5 的环保解决方案

含有染料和复杂有机化合物的液体废物的产生是纺织工业的一个问题。在这项工作中，我们评估了如何利用澳洲坚果残渣作为生物炭的前体，通过吸附工艺处理这些废水。澳洲坚果内果皮经过一系列处理，包括在 600 °C 高温下热解，然后在 700 °C 高温下用 CO2 和 H2O 蒸汽进行物理活化。通过各种技术，包括 X 射线衍射仪 (XRD)、热重分析 (TGA)、扫描电子显微镜与能量色散 X 射线光谱仪 (SEM-EDS)、氮气物理吸附分析和零电荷点 pH 值 (pHZCP) 等，对由此产生的澳洲坚果残渣生物炭 (MB) 进行了表征。性能研究表明，pH 值对吸附现象的影响微乎其微。埃洛维奇动力学模型有效地描述了 β-萘酚和活性黑 5（RB5）的吸附动力学，其调整决定系数（R2adj）分别为 0.99 和 0.94。利用颗粒内扩散模型进行的进一步分析表明，β-萘酚的吸附动力学涉及多种机制，而 RB5 的吸附主要受颗粒内扩散的支配。这两种吸附剂的平衡吸附数据与 Sips 等温模型非常吻合，在 55 °C 时，最大吸附容量为 qmax β-naphthol = 15.16 mg∙g-1 和 qmax RB5 = 3.08 mg∙g-1 。根据焓值可以推断，β-萘酚的吸附是由微弱的范德华力控制的，表明其为物理吸附。至于 RB5，焓值表明这种现象是由于分子与表面基团之间的静电作用引起的，涉及的能量较高。这项研究强调了澳洲坚果残渣生物质作为生物炭前驱体的潜力，证明了其作为有效吸附材料用于去除纺织业废水中的有机化合物（如 β-萘酚和 RB5）的有利特性。

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来源期刊

Catalysis Today 化学-工程：化工

CiteScore

11.50

自引率

3.80%

发文量

573

审稿时长

2.9 months

期刊介绍： Catalysis Today focuses on the rapid publication of original invited papers devoted to currently important topics in catalysis and related subjects. The journal only publishes special issues (Proposing a Catalysis Today Special Issue), each of which is supervised by Guest Editors who recruit individual papers and oversee the peer review process. Catalysis Today offers researchers in the field of catalysis in-depth overviews of topical issues. Both fundamental and applied aspects of catalysis are covered. Subjects such as catalysis of immobilized organometallic and biocatalytic systems are welcome. Subjects related to catalysis such as experimental techniques, adsorption, process technology, synthesis, in situ characterization, computational, theoretical modeling, imaging and others are included if there is a clear relationship to catalysis.