Application of impregnated biocarbon produced from soybean hulls in dye decolorization

Aleksandra Kulic-Mandic, M. Bečelić-Tomin, Gordana Pucar-Milidrag, M. Rašeta, Djurdja Kerkez
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引用次数: 1

Abstract

Waste soybean hulls (WSH) were investigated as a Fe-support in two forms: raw and carbonized (i.e. biocarbon, BC), as possible value-added materials. Fe-impregnation was implemented in order to produce heterogeneous Fenton catalysts for Reactive Blue 4 dye degradation. Materials characterization demonstrated a rise in the specific surface area due to decomposition of WSH constituents during carbonization (to obtain BC) and thermal activation (to obtain Fe-WSH and Fe-BC), thus producing catalysts with high mesoporosity and hematite as the active site for Fenton reaction. Among the investigated materials, Fe-WSH showed the greatest ability for ?OH production in acidic medium. Next, the heterogeneous Fenton process was optimized by using response surface methodology, which resulted in selection of the following reaction conditions: 3 mM H2O2, 100 mg Fe-WSH, reaction time of 180 min, at a constant pH 3, RB4 concentration of 50 mg dm-3 and at room temperature. The achieved dye removal and mineralization were 85.7 and 66.8 %, respectively, while the catalyst showed high stability and the reaction intermediates formed during the oxidation process had a low inhibitory effect on Vibrio fischeri bacteria.
大豆皮浸渍生物炭在染料脱色中的应用
研究了废大豆壳(WSH)作为铁载体的两种形式:原料和碳化(即生物碳,BC),作为可能的增值材料。采用铁浸渍法制备非均相Fenton催化剂降解活性蓝4染料。材料表征表明,在炭化(得到BC)和热活化(得到Fe-WSH和Fe-BC)过程中,WSH组分的分解使比表面积增加,从而产生高介孔催化剂,赤铁矿作为Fenton反应的活性位点。在所研究的材料中,Fe-WSH在酸性介质中产生- OH的能力最强。其次,采用响应面法对非均相Fenton工艺进行优化,选择反应条件为:H2O2 3 mM, Fe-WSH 100 mg,反应时间180 min, pH恒定,RB4浓度50 mg dm-3,室温。染料去除率和矿化率分别为85.7和66.8%,催化剂稳定性高,氧化过程中形成的反应中间体对费氏弧菌的抑制作用低。
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