Adsorptive Treatment of Cyanide-Bearing Wastewater: A Prospect for Sugar Industry Waste

NEHA GUPTA; CHANDRAJIT BALOMAJUMDER; VIJAY KUMAR AGARWAL

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Adsorptive Treatment of Cyanide-Bearing Wastewater: A Prospect for Sugar Industry Waste

机译：含氰废水的吸附处理：制糖工业废水的前景

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The biosorption of cyanide ions from aqueous solution by bagasse was studied in a batch adsorption system with pH, contact time, cyanide ion concentration, metal ion concentration, and adsorbent dosage as variables. XRD, FT-IR spectroscopy, CHN, proximate, ultimate, and TG/DTG thermal analyses were used for the characterization of bagasse. The biosorption capacities and rates of biosorption of cyanide ions onto bagasse were evaluated. The Langmuir and Freundlich adsorption models were applied to describe the isotherms and isotherm constants. Biosorption isothermal data were interpreted by the Langmuir model followed by the Freundlich model with maximum adsorption capacity of 98% of cyanide ion on bagasse. The kinetic experimental data were properly correlated with the first- and second-order kinetic model.

机译：在pH，接触时间，氰化物离子浓度，金属离子浓度和吸附剂剂量为变量的间歇式吸附系统中，研究了甘蔗渣对水溶液中氰化物离子的生物吸附。 X射线衍射，FT-IR光谱，CHN，近邻，极限和TG / DTG热分析用于表征蔗渣。评价了氰化物离子在蔗渣上的生物吸附能力和生物吸附速率。用Langmuir和Freundlich吸附模型描述等温线和等温线常数。用Langmuir模型和Freundlich模型解释生物吸附等温数据，在甘蔗渣上最大吸附量为98％氰化物离子。动力学实验数据与一阶和二阶动力学模型正确相关。

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来源
《Chemical Engineering Communications》 |2013年第9期|共15页
作者
NEHA GUPTA; CHANDRAJIT BALOMAJUMDER; VIJAY KUMAR AGARWAL;
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正文语种 eng
中图分类化学工业;
关键词
Adsorption; Bagasse; Biosorption; Cyanide; Isotherms; Modeling;

机译：吸附;蔗渣;生物吸附;氰化物;等温线;建模;

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机译：含氰废水的吸附处理：制糖工业废水的前景
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Adsorptive Treatment of Cyanide-Bearing Wastewater: A Prospect for Sugar Industry Waste

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