Production of hydrochars from Pinus caribaea for biosorption of methylene blue and tartrazine yellow dyes

João Gabriel da Silva Andrade , Carlos Eduardo Porto , Wardleison Martins Moreira , Vagner Roberto Batistela , Mara Heloísa Neves Olsen Scaliante
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引用次数: 8

Abstract

Wood is one of the most abundant renewable resources in the world. However, large volumes of waste are generated in the losses and cuts of wood saws, being an important environmental problem. This work aims to evaluate the production of hydrochar from wood residues of Pinus caribaea combined with acid-base treatment for application as dyes Methylene Blue (MB) and Tartrazine Yellow (TAR). Hydrocarbonization was carried out at 200 or 240 ..C for 12 or 24 h, in acidic or basic medium. The pHZPC of the hydrocarbons obtained in acidic medium was between 2.66-4.12 and 4.46-5.76 for those processed in basic medium. The pseudo-secondorder model (PSO) better fitted the adsorption of MB and TAR on Pinus in natura and on hydrochar. In addition, the Sips model was considered the most suitable for MB (qmax= 132.1 mg g-1 for PIN and 149.0 mg g-1 for PIN-200-24-B) and Toth for TAR (qmax= 18.14 mg g-1 for PIN and 23.01 mg g-1 for PIN-200-24-B adsorption isotherms). Therefore, the hydrocarbonization of waste generated from the wood industry in acidic and basic environments has great potential for the treatment of materials such as biosorbents, thus promoting greater sustainability in this sector.

以加勒比松为原料制备生物吸附亚甲基蓝和酒石黄染料的碳氢化合物
木材是世界上最丰富的可再生资源之一。然而,木材锯的损耗和切割会产生大量废物,这是一个重要的环境问题。本工作旨在评估加勒比海松木材残留物结合酸碱处理生产水炭作为染料亚甲基蓝(MB)和柠檬黄(TAR)的应用。加氢碳化在200或240下进行。。在酸性或碱性介质中培养12或24小时。对于在碱性介质中处理的烃,在酸性介质中获得的烃的pHZPC在2.66-4.12和4.46-5.76之间。拟二阶模型(PSO)较好地拟合了MB和TAR在天然松和水炭上的吸附。此外,Sips模型被认为最适合MB(PIN的qmax=132.1 mg g-1,PIN-200-24-B的qmax=1.49.0 mg g-1)和TAR的Toth(PIN的qmax=18.14 mg g-1和PIN-200-24-B的23.01 mg g-1吸附等温线)。因此,木材工业在酸性和碱性环境中产生的废物的碳氢化合物化在处理生物吸收剂等材料方面具有巨大潜力,从而促进该部门的更大可持续性。
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