Anodic oxidation of phenol at a graphite electrode has shown good treatment efficiency. The removal efficiency was a function of the current applied, with around 70 % phenol removal efficiency at a current of 2.2 A. After about 5 months of operation, there was no sign of deterioration of the graphite bed. An empirical relationship was developed relating phenol removal efficiency to the current. The relationship showed excellent prediction of the experimental data. Furthermore, a methodology for calculating the cell capacity was developed. The relation between the cell capacity and phenol residual concentration was modelled using a non linear model. Preliminary design procedure for the electrochemical cell was illustrated and the designs res...
Anodic oxidation of the major phenolics that arise in coal conversion effluents was investigated. Ex...
This work compares two electrode materials used to mineralize phenol contained in waste waters. Two ...
We studied the electrochemical oxidation of phenol by the coupling of anodic and cathodic reactions....
The effects of current and pH on the electrochemical oxidation of phenol on graphite electrodes is i...
The electrochemical oxidation of phenol for waste treatment applications was investigated on lead di...
Background and Objectives: Phenol is one of the most important organic chemicals presenting in water...
Phenolic compounds are the major pollutants in waste water from coal and petroleum industries and th...
The influence of different operational parameters (i.e., applied current density, chloride concentra...
The influence of operational parameters and anode materials on degradation kinetics, mineralization ...
he electrochemical oxidation of phenol for waste water treatment was studied at a platinum anode. An...
Introduction: Phenolic compounds are industrial chemicals that they are interested in due to the man...
The electrochemical oxidation of phenol was studied using a packed bed reactor of PbO ~ pellets with...
The electrochem. oxidn. of PhOH in wastewater was studied using Pt and DSA anodes. Anal. of reaction...
The removal of chemical oxygen demand (COD) from wastewater-containing phenol was investigated using...
This work investigates the performance of BDD electrodes during oxidation of aqueous solutions of ph...
Anodic oxidation of the major phenolics that arise in coal conversion effluents was investigated. Ex...
This work compares two electrode materials used to mineralize phenol contained in waste waters. Two ...
We studied the electrochemical oxidation of phenol by the coupling of anodic and cathodic reactions....
The effects of current and pH on the electrochemical oxidation of phenol on graphite electrodes is i...
The electrochemical oxidation of phenol for waste treatment applications was investigated on lead di...
Background and Objectives: Phenol is one of the most important organic chemicals presenting in water...
Phenolic compounds are the major pollutants in waste water from coal and petroleum industries and th...
The influence of different operational parameters (i.e., applied current density, chloride concentra...
The influence of operational parameters and anode materials on degradation kinetics, mineralization ...
he electrochemical oxidation of phenol for waste water treatment was studied at a platinum anode. An...
Introduction: Phenolic compounds are industrial chemicals that they are interested in due to the man...
The electrochemical oxidation of phenol was studied using a packed bed reactor of PbO ~ pellets with...
The electrochem. oxidn. of PhOH in wastewater was studied using Pt and DSA anodes. Anal. of reaction...
The removal of chemical oxygen demand (COD) from wastewater-containing phenol was investigated using...
This work investigates the performance of BDD electrodes during oxidation of aqueous solutions of ph...
Anodic oxidation of the major phenolics that arise in coal conversion effluents was investigated. Ex...
This work compares two electrode materials used to mineralize phenol contained in waste waters. Two ...
We studied the electrochemical oxidation of phenol by the coupling of anodic and cathodic reactions....