Catalytic wet oxidation of thiocyanate with homogeneous copper(II) sulphate catalyst

Sergio Collado; Adriana Laca; Mario Diaz

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Catalytic wet oxidation of thiocyanate with homogeneous copper(II) sulphate catalyst

机译：均相硫酸铜（II）催化剂催化湿氧化硫氰酸盐

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The wet oxidation of thiocyanate has been investigated in a semi-batch reactor at temperatures between 423 and 473 K and pressures between 6.1 × 10~3 and 1.0 × 10~4 kPa in the presence of copper(II) sulphate as catalyst. The effects of copper concentration, initial thiocyanate concentration, pressure and temperature on the reaction rate were analyzed and the main products of reaction were identified. A kinetic model for the Cu-catalyzed reaction is here proposed, including temperature, oxygen concentration, and the reduction of Cu~(2+) to Cu~+ that gives an accurate prediction of the oxidation process under the assayed conditions. A mechanistic model based on the formation of a transition complex between a copper cation and two thiocyanate anions has been proposed for the catalytic wet oxidation.

机译：在半分批反应器中，在硫酸铜（II）的存在下，在423至473 K之间的温度和6.1×10〜3至1.0×10〜4 kPa的压力下，研究了硫氰酸盐的湿式氧化。分析了铜浓度，硫氰酸盐初始浓度，压力和温度对反应速率的影响，确定了反应的主要产物。本文提出了Cu催化反应的动力学模型，包括温度，氧浓度以及Cu〜（2+）还原为Cu〜+的动力学模型，从而可以准确预测所测定条件下的氧化过程。提出了一种基于铜阳离子和两个硫氰酸根阴离子之间过渡过渡形成的机理模型，用于催化湿式氧化。

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来源
《Journal of Hazardous Materials》 |2010年第3期|p.183-189|共7页
作者
Sergio Collado; Adriana Laca; Mario Diaz;
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作者单位

Department of Chemical Engineering and Environmental Technology, University of Oviedo, c/Julian Claveria s, E-33071, Oviedo, Spain;

rnDepartment of Chemical Engineering and Environmental Technology, University of Oviedo, c/Julian Claveria s, E-33071, Oviedo, Spain;

rnDepartment of Chemical Engineering and Environmental Technology, University of Oviedo, c/Julian Claveria s, E-33071, Oviedo, Spain;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类
关键词
thiocyanate; wet oxidation; catalysis; copper; removal;

机译：硫氰酸盐湿氧化催化;铜;清除;

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Catalytic wet oxidation of thiocyanate with homogeneous copper(II) sulphate catalyst

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