在独特设计的反应器中应用响应面法(RSM)电凝去除水中的铅

International Journal of Chemical Engineering and Applications Pub Date : 2018-06-01 DOI:10.18178/ijcea.2018.9.3.708

U. B. Ogutveren, U. Un, N. Erginel

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引用次数: 1

摘要

铅即使在很低的浓度下，对生物体也是非常有害的。人类接触铅可产生严重的神经和生理影响。本研究的目的是在一个独特设计的反应器中使用铁电极应用RSM电凝处理水中的铅。采用RSM分析了电流密度、初始铅浓度、pH和Na2SO4作为载体电解质浓度等工艺变量对铅去除率的主要影响和交互影响。方差分析表明，电流密度增加10个单位时，各因素的影响范围为10 ~ 50 mAcm -2;初始铅浓度增加50个单位时，影响范围为50 ~ 250 mgL -1; pH增加1个单位时，影响范围为3 ~ 7;Na2SO4浓度增加0.02个单位时，影响范围为0.01 ~ 0.09 molL -1。研究发现，电流密度对去除率的影响呈线性关系，电流密度和初始pH对去除率的影响呈二次关系。当电流密度为40 mA/ cm2，初始pH为4.7时，铅的去除率达到最大值98.76%。

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Removal of Lead from Water by Electrocoagulation Applying Response Surface Method (RSM) in a Uniquely Designed Rector

Lead is highly harmful to living organisms even in very low concentration. Lead exposure in humans can have severe neurological and physiological repercussions. The objective of this study is treatment of lead from water by electrocoagulation using iron electrodes applying RSM in an uniquely designed reactor. The evaluation of the main and interaction effects of process variables such as current density, initial lead concentration, pH and Na2SO4 concentration as a supporting electrolyte on the removal efficiency of lead were analyzed applying RSM. The levels of the factors were determined with variance analysis and found to be 10-50 mAcm -2 with the increments of 10 units for current density, 50-250 mgL -1 with the increments of 50 units for initial lead concentration, 3-7 with the increments of 1 units for pH and 0.01-0.09 molL -1 with the increments of 0.02 units for Na2SO4 concentration. As a result of study, it was found that current density has a linear effect while current density and initial pH have quadratic effects on the removal efficiency. Lead removal efficiency reach a maximum value of 98.76% when the current density was 40 mA/cm 2 and initial pH was 4.7.

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International Journal of Chemical Engineering and Applications

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