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Energy consumption of electrooxidation systems with boron-doped diamond electrodes in the pulse current mode
Energy consumption of electrooxidation systems with boron-doped diamond electrodes in the pulse current mode
by Jun-jun Wei Xu-hui Gao Li-fu Hei Jawaid Askari Cheng-ming Li
in Anodes / Anodizing / Boron / Ceramics / Characterization and Evaluation of Materials / Chemical oxygen demand / Chemistry and Materials Science / COD去除率 / Composites / Corrosion and Coatings / Crack opening displacement / Current density / Current efficiency / Diamonds / Electrochemical oxidation / Electrochemistry / Electrodes / Energy conservation / Energy consumption / Glass / Hydroxyl radicals / Materials Science / Metallic Materials / Natural Materials / Organic compounds / Oxidation / Phenols / Specific energy / Surfaces and Interfaces / Thin Films / Tribology / Wastewater treatment / Water treatment / 废水处理系统 / 掺硼金刚石 / 电化学系统 / 电极表面 / 电流模式 / 能源消耗 / 脉冲电流
2013
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Energy consumption of electrooxidation systems with boron-doped diamond electrodes in the pulse current mode
by Jun-jun Wei Xu-hui Gao Li-fu Hei Jawaid Askari Cheng-ming Li
in Anodes / Anodizing / Boron / Ceramics / Characterization and Evaluation of Materials / Chemical oxygen demand / Chemistry and Materials Science / COD去除率 / Composites / Corrosion and Coatings / Crack opening displacement / Current density / Current efficiency / Diamonds / Electrochemical oxidation / Electrochemistry / Electrodes / Energy conservation / Energy consumption / Glass / Hydroxyl radicals / Materials Science / Metallic Materials / Natural Materials / Organic compounds / Oxidation / Phenols / Specific energy / Surfaces and Interfaces / Thin Films / Tribology / Wastewater treatment / Water treatment / 废水处理系统 / 掺硼金刚石 / 电化学系统 / 电极表面 / 电流模式 / 能源消耗 / 脉冲电流
2013
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Energy consumption of electrooxidation systems with boron-doped diamond electrodes in the pulse current mode
Energy consumption of electrooxidation systems with boron-doped diamond electrodes in the pulse current mode
by Jun-jun Wei Xu-hui Gao Li-fu Hei Jawaid Askari Cheng-ming Li
in Anodes / Anodizing / Boron / Ceramics / Characterization and Evaluation of Materials / Chemical oxygen demand / Chemistry and Materials Science / COD去除率 / Composites / Corrosion and Coatings / Crack opening displacement / Current density / Current efficiency / Diamonds / Electrochemical oxidation / Electrochemistry / Electrodes / Energy conservation / Energy consumption / Glass / Hydroxyl radicals / Materials Science / Metallic Materials / Natural Materials / Organic compounds / Oxidation / Phenols / Specific energy / Surfaces and Interfaces / Thin Films / Tribology / Wastewater treatment / Water treatment / 废水处理系统 / 掺硼金刚石 / 电化学系统 / 电极表面 / 电流模式 / 能源消耗 / 脉冲电流
2013

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Energy consumption of electrooxidation systems with boron-doped diamond electrodes in the pulse current mode
Energy consumption of electrooxidation systems with boron-doped diamond electrodes in the pulse current mode
Journal Article

Energy consumption of electrooxidation systems with boron-doped diamond electrodes in the pulse current mode

Jun-jun Wei Xu-hui Gao Li-fu Hei Jawaid Askari Cheng-ming Li
2013
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Overview
A pulse current technique was conducted in a boron-doped diamond (BDD) anode system for electrochemical waste- water treatment. Due to the strong generation and weak absorption of hydroxyl radicals on the diamond surface, the BDD elec- trode possesses a powerful capability of electrochemical oxidation of organic compounds, especially in the pulse current mode. The influences of pulse current parameters such as current density, pulse duty cycle, and frequency were investigated in terms of chemical oxygen demand (COD) removal, average current efficiency, and specific energy consumption. The results demon- strated that the relatively high COD removal and low specific energy consumption were obtained simultaneously only if the current density or pulse duty cycle was adjusted to a reasonable value. Increasing the frequency slightly enhanced the COD re- moval and average current efficiency. A pulse-BDD anode system showed a stronger energy saving ability than a constant-BDD anode system when the electrochemical oxidation of phenol of the two systems was compared. The results prove that the pulse current technique is more cost-effective and more suitable for a BDD anode system for real wastewater treatment. A kinetic analysis was presented to explain the above results.
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Publisher
University of Science and Technology Beijing,Springer Nature B.V,Institute of Advanced Materials and Technology, University of Science and Technology Beijing, Beijing 100083, China%Institute of Manufacturing Engineering, National University of Sciences & Technology(NUST), Habib Ibrahim Rehamat ullah Road, Karachi 75350,Pakistan
Subject

Anodes

/ Anodizing

/ Boron

/ Ceramics

/ Characterization and Evaluation of Materials

/ Chemical oxygen demand

/ Chemistry and Materials Science

/ COD去除率

/ Composites

/ Corrosion and Coatings

/ Crack opening displacement

/ Current density

/ Current efficiency

/ Diamonds

/ Electrochemical oxidation

/ Electrochemistry

/ Electrodes

/ Energy conservation

/ Energy consumption

/ Glass

/ Hydroxyl radicals

/ Materials Science

/ Metallic Materials

/ Natural Materials

/ Organic compounds

/ Oxidation

/ Phenols

/ Specific energy

/ Surfaces and Interfaces

/ Thin Films

/ Tribology

/ Wastewater treatment

/ Water treatment

/ 废水处理系统

/ 掺硼金刚石

/ 电化学系统

/ 电极表面

/ 电流模式

/ 能源消耗

/ 脉冲电流

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