ACOUSTIC CAVITATION NUMBER AND ITS EFFECT ON THE INTENSITY OF OXIDATIVE DEGRADATION OF CONGO RED DIAZO DYE

Chemistry, Technology and Application of Substances Pub Date : 2023-12-01 DOI:10.23939/ctas2023.02.016
Y. Sukhatskyi, T. S. Dmytrenko
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Abstract

A combination of two periodate activation strategies was proposed for highly efficient and highly intensive oxidative degradation of Congo red diazo dye. It was found that at the average power of the ultrasound generator of 10.2 W, which corresponded to the value of the acoustic cavitation 720, the degradation degree of Congo red using the innovative to 97.2 %, and the rate constant was 9.1·10-3 s-1. An increase in the intensity of the oxidative degradation of Congo red with a decrease in the acoustic cavitation number was revealed. The destruction ultrasound/KIO4/FeSO4 oxidation process was equal
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声空化数及其对刚果红重氮染料氧化降解强度的影响
提出了两种高碘酸盐活化策略的组合,用于高效和高强度氧化降解刚果红重氮染料。研究发现,当超声发生器的平均功率为 10.2 W(与声空化数 720 的值相对应)时,刚果红的创新降解率为 97.2%,速率常数为 9.1-10-3 s-1。结果表明,刚果红的氧化降解强度随着声空化数的减少而增加。超声/KIO4/FeSO4 氧化破坏过程等于
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Chemistry, Technology and Application of Substances
Chemistry, Technology and Application of Substances
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