利用电化学方法研究了活性氯在3.5%NaCl溶液中316L不锈钢电极表面的阴极还原反应及其反应机制.实验表明,随着溶液中活性氯浓度的增加,316L不锈钢的自腐蚀电位正移,阴极反应的极限扩散电流明显增大,说明活性氯对316L不锈钢电极表面的两个阴极反应,即HClO还原和ClO-还原具有明显的促进作用.本文的研究确定了产生这两个还原反应的电位范围,并进一步探索了该还原反应速度的控制步骤.
The cathodic reducing reactions of active chlorine on 316L SS electrode surface have been investigated by electrochemical techniques. The open circuit potential shifted positively and the limited diffusion current density increased significantly with the increasing content of active chlorine in the 3.5%sodium chloride solution. The two cathodic reduction processes of HClO and ClO- exhibited on the surface of electrode with the active chlorine added to the 3.5%sodium chloride solution and the corresponding potentials of the two reducing reactions were confirmed. The linear relationship of the mass transport_limited Faradaic current, Id vs. the square root of the angular velocity of the rotating disc following indicates that the overall active chlorine reducing reactions is controlled by a mass transport control process.
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