Synthesis of Nano-biocomposite Adsorbent and Investigation of Remediation of Reactive Black 5 Dye from Wastewater

IF 2.4 Q3 CHEMISTRY, MULTIDISCIPLINARY Moroccan Journal of Chemistry Pub Date : 2021-08-07 DOI:10.48317/IMIST.PRSM/MORJCHEM-V9I3.23059
Azize Alayli
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引用次数: 2

Abstract

When the wastes generated as a result of industrial production are directly released to the environment, they cause pollution of the ecosystem, which is valuable for all living things, with harmful and toxic substances and their derivatives. One of the most important of these wastes is synthetic chemical dyes. A lot of work is being done on waste management and waste disposal due to its importance. The purpose of our work was developed a new non-toxic and biodegradable biosorbent using sunflower waste material and chitosan. Later, we modified these biosorbents with nano-iron molecules to investigate the usability of this bio and nano-biosorbent in the removal of Reactive Black 5 (RB5) dye. The optimum removal conditions for RB5 dye were determined by examining the parameters (pH, temperature, contact time, etc.) for the removal of Reactive Black 5 dye. Surface and molecular changed and kinetic characterizations for bio and nano-biosorbent before and after dye removal were examined by UV-vis, SEM, TEM, FT-IR and XRD techniques. For UV-vis analysis, 597 nm was used as the highest absorbance wavelength of RB5. In paint removal studies using CS and CSN, the optimum dye removal time was found to be 90 minutes. For CS and CSN, it was determined that the optimum temperature 40 and 50 o C and acidic pH (2-4) were higher for RB5 dye removal, respectively. The superficial and molecular changes of the synthesized nano-biosorbent after its interactions with the dye have been demonstrated and explained using different techniques. It is understood from the results that it can adsorb 22.5 mg / g dye for CSN and 21.59 mg/g for CS. These removal rates and the fact that we have obtained these rates using bioabsorbent shows that the method can be used to successfully remove RB5 dye.
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纳米生物复合吸附剂的合成及对废水中活性黑5染料的修复研究
工业生产产生的废物直接排放到环境中,对一切生物都有价值的生态系统造成了有害和有毒物质及其衍生物的污染。这些废物中最重要的一种是合成化学染料。由于废物管理和废物处理的重要性,人们正在进行大量的工作。以葵花籽废料和壳聚糖为原料,研制了一种无毒、可生物降解的新型生物吸附剂。随后,我们用纳米铁分子修饰了这些生物吸附剂,以研究这种生物和纳米生物吸附剂在去除活性黑5 (RB5)染料中的可用性。通过考察pH、温度、接触时间等参数对活性黑5染料的去除效果,确定了RB5染料的最佳去除条件。采用UV-vis、SEM、TEM、FT-IR和XRD等技术对生物和纳米生物吸附剂脱除染料前后的表面和分子变化及动力学特性进行了研究。在紫外可见光谱分析中,RB5的最高吸光度波长为597 nm。在使用CS和CSN进行脱色研究时,发现最佳脱色时间为90分钟。CS和CSN对RB5脱色的最佳温度分别为40℃和50℃,酸性pH值(2 ~ 4)较高。合成的纳米生物吸附剂与染料相互作用后的表面和分子变化已经用不同的技术证明和解释。从实验结果可知,它对CSN和CS的吸附量分别为22.5 mg/g和21.59 mg/g。这些去除率以及我们使用生物吸附剂获得这些去除率的事实表明,该方法可以成功地用于去除RB5染料。
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来源期刊
Moroccan Journal of Chemistry
Moroccan Journal of Chemistry CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
3.40
自引率
9.10%
发文量
0
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