文章基本信息

标题：Effect of Low Flow Rate of Air Injection on Remazol Red Degradation in Contact Glow Discharge Electrolysis Reactor
本地全文：下载
作者：Tulus Sukreni ; Setijo Bismo ; Nelson Saksono 等
期刊名称：Journal of Environmental Science and Technology
印刷版ISSN：1994-7887
电子版ISSN：2077-2181
出版年度：2019
卷号：12
期号：5
页码：197-204
DOI：10.3923/jest.2019.197.204
出版社：Asian Network for Scientific Information
摘要：Background and Objective: The plasma electrolysis requires a high amount of energy at the beginning of the process. The purpose of the study was to examine how air injection could reduce the energy of plasma formation. Furthermore, the effect of the flow rate of injected air on hydroxyl radical production and Remazol Red degradation were also studied. Materials and Methods: In this study, the air was injected directly through the glass sheath at the anode in Contact Glow Discharge Electrolysis reactor. Material used were Remazol Red RB-133 200 ppm as synthetic dye waste, Fe2 20 ppm as catalyst and Na2SO4 0.02 Mas electrolyte solution. Results: For the same energy input, the higher the flow rate of air injection, the radical hydroxyl concentration increased to an optimum point at a certain flow rate. Moreover, the rate of airflow at optimum condition increased with increasing voltage. An airflow rate of 0.05 L min1 and a voltage of 600 V was the optimum condition. The concentration of hydroxyl radical at this condition produced 19.0849 mmol L1 after 30 min. Conclusion: This was an increase of 48.43% in comparison with the amount of •OH where air injection was not used. The presence of air injection also increased the degradation of Remazol Red. Within 5 min, Remazol Red degradation had reached 86.37% at an airflow rate of 0.05 L min1. This indicated a 53.59% increase compared to the degradation process without air injection.
关键词：Air injection; contact glow discharge electrolysis; degradation process; optimal condition; Remazol Red