Abstract
The optimized tube’s structure of the self-design ozone generator was made with the double dielectric inner electrode and small metal cones were embedded in the outside electrode. This ozone generator was used for the degradation of phenol in wastewater. The research was studied from ozone gas flow rate, reaction time, the initial pH and concentration of the phenol in wastewater. In addition, the article also discusses the reaction mechanism of ozone degraded the phenol in wastewater. The results illustrate that the ozone concentration of self-design ozone generator under the pure oxygen flux (1.0 L/min) were 7.06 mg/L, compared with the unoptimized ozone, the optimized ozone generator’s efficiency was improved 56.89%; the phenol removal rate was increased as the initial pH increased in wastewater, when pH was 12, the phenol removal rate was 80.17%; GC-MS analysis was adopted to analyze and determine the phenol intermediates. The results illustrate that the major oxidation degradation products of phenol may be p-benzoquinone benzenequinone, 4-cyclopentene-1, 3-dione and diacetone alcohol.
Highlights
Phenolic compounds were biodegradable and widely existed in industrial waste water which has a high toxicity
The variation of ozone concentration with pure oxygen flux is presented in Figure 3 and other operating parameters remain the same
Small metal cones were embedded in outside electrode which is advanced to increase the discharge efficiency and produced more oxygen atoms improved the ozone concentration
Summary
Phenolic compounds were biodegradable and widely existed in industrial waste water which has a high toxicity. [1] The discharge of phenol in wastewater under strict control in water pollution management. Developing an effective method to deal with phenol in wastewater has important meaning to environmental protection and peoples' health. On the basis of development and insufficiency of ozone generator and treatment of phenol in wastewater. The self-design ozone generator was optimized for its tube structure and electrode, which was applied as ozone source to removal phenol in wastewater. The ozone concentration of self-design ozone generator and the influence of operational conditions such as the initial concentration and pH of the water, the concentration of ozone on the phenol degradation and the intermediate products were evaluated
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