Kinetics and Mechanism of the Food Dye FD&C Red 40 Adsorption onto Chitosan

Jeferson S. Piccin; Guilherme L. Dotto; Mery L. G. Vieira

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Kinetics and Mechanism of the Food Dye FD&C Red 40 Adsorption onto Chitosan

机译：食用染料FD＆C Red 40在壳聚糖上的吸附动力学和机理

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The kinetics and mechanism of the food dye disodium 6-hydroxy-5-((2-methoxy-5-methyl-4-sulfophenyl)azo)-2-naphfhalenesulfonate (FD&C Red 40) adsorption onto chitosan were studied. The effects of pH (5.7 to 7.4), chitosan dosage [ (250 to 500) rng·L~(-1)], deacetylation degree (42 % to 84 %), and particle size [(0.10 to 0.26) mm] were investigated. The adsorption reaction models were used to evaluate the kinetic behavior. Infrared analysis and models based on mass transfer phenomena were used to investigate the adsorption mechanism. The maximum adsorption capacity (300 mg·g~(-1)) was found at a pH 5.7, chitosan dosage of 250 mg·L~(-1), deacetylation degree of 84 %, and particle size of 0,10 mm. Pseudosecond-order and Elovich models were the most appropriate to fit the experimental data of adsorption kinetics. The adsorption process was controlled by intraparticle diffusion, film diffusion, or convection according to the experimental conditions. Infrared analysis showed the chemical interaction between chitosan and food dye FD&C Red 40.

机译：研究了食用色素6-羟基-5-（（2-甲氧基-5-甲基-4-磺基苯基）偶氮）-2-萘氟磺酸二钠（FD＆C Red 40）吸附在壳聚糖上的动力学和机理。 pH（5.7至7.4），壳聚糖用量[（250至500）rng·L〜（-1）]，脱乙酰度（42％至84％）和粒径[（0.10至0.26）mm]的影响分别为调查。吸附反应模型用于评估动力学行为。基于传质现象的红外分析和模型被用来研究吸附机理。在pH 5.7，壳聚糖用量为250 mg·L〜（-1），脱乙酰度为84％，粒径为0.10 mm时，最大吸附量为300 mg·g〜（-1）。伪二级和Elovich模型最适合于吸附动力学的实验数据。根据实验条件，通过颗粒内扩散，膜扩散或对流来控制吸附过程。红外分析显示壳聚糖与食用染料FD＆C Red 40之间的化学相互作用。

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《Journal of Chemical and Engineering Data: the ACS Journal for Data》 |2011年第10期|共7页
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Jeferson S. Piccin; Guilherme L. Dotto; Mery L. G. Vieira;
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1. Kinetics and Mechanism of the Food Dye FD&C Red 40 Adsorption onto Chitosan [J] . Jeferson S. Piccin, Guilherme L. Dotto, Mery L. G. Vieira Journal of Chemical and Engineering Data: the ACS Journal for Data . 2011,第10期

机译：食用染料FD＆C Red 40在壳聚糖上的吸附动力学和机理
2. ADSORPTION ISOTHERMS AND THERMOCHEMICAL DATA OF FD&C RED N° 40 BINDING BY CHITOSAN [J] . J. S. Piccinee, G. L. Dotto, L. A. A. Pinto Brazilian journal of chemical engineering . 2011,第2期

机译：壳聚糖对FD＆C RED N°40的吸附等温线和热化学数据
3. Adsorption isotherms and thermochemical data of FD&C Red n° 40 binding by Chitosan [J] . G. L. Dotto, J. S. Piccin, L. A. A. Pinto Brazilian journal of chemical engineering . 2011,第2期

机译：壳聚糖结合FD＆C Red n°40的吸附等温线和热化学数据
4. Adsorption of Food Dye onto Gelatin Microspheres: pH Effect in Kinetics and Mechanism [C] . Haiyan Xue, Fang Han, Baoyuan He International Conference on Manufacturing Science and Engineering . 2012

机译：食品染料在明胶微球上的吸附：动力学和机理中的pH效应
5. Application and Modifications of Ordered Mesoporous Carbon (OMC) for BTEX Removal: Characterization, Adsorption Mechanisms, and Kinetic Studies. [D] . Konggidinata, Mas Iwan. 2017

机译：有序介孔碳（OMC）在BTEX去除中的应用和修饰：表征，吸附机理和动力学研究。
6. Sustainable Catalytic Activity of Ag-Coated Chitosan-Cappedγ-Fe2O3 Superparamagnetic BinaryNanohybrids (Ag-γ-Fe2O3@CS) for the Reductionof Environmentally Hazardous Dyes—A Kinetic Study of the OperatingMechanism Analyzing Methyl Orange Reduction [O] . Mandeep Kaloti, Anil Kumar, * 2018

机译：包银壳聚糖包覆的可持续催化活性γ-Fe2O3超顺磁性二元纳米杂化物（Ag-γ-Fe2O3@ CS）还原有害染料的研究—运行的动力学研究甲基橙还原的机理分析
7. Adsorption isotherms and thermochemical data of FD&C Red n° 40 binding by Chitosan [O] . J. S. Piccin, G. L. Dotto, L. A. A. Pinto 2011

机译：壳聚糖与FD＆C Red n°40结合的吸附等温线和热化学数据

Kinetics and Mechanism of the Food Dye FD&C Red 40 Adsorption onto Chitosan

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