Effect of Ultrasonic Intensity on the Degradation of Phenol Solution

机译：超声波强度对酚溶液降解的影响

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Effect of ultrasonic intensity on the degradation of phenol solution is investigated by changing the nominal ultrasonic power, ultrasonic frequency and the position of reactor. The actual ultrasonic intensity (I) that reaches reactor is measured by ultrasonic power measuring meter. It can be found that the ultrasonic intensity varies with ultrasonic parameters. With the nominal power input improving from 60 W to 150 W, the ultrasonic intensity rises from 0.21 W?cm~(-2) to 1.06 W?cm~(-2) and the degradation rate of phenol solution (η) increases from 21.7% to 43.7%. However, when /reaches the highest value of 1.71 W?cm~(-2) at the frequency of 100 kHz, η decreases to the lowest value of 21.5%. The ultrasonic intensity distribution is uneven in the ultrasonic bath and η increases with an increase of I in the vertical direction. The ultrasonic degradation of phenol solution is affected by ultrasonic intensity, but η doesn't definitely increase with an increase of ultrasonic intensity.

机译：超声波强度对苯酚溶液劣化的影响，通过改变标称超声波功率，超声波频率和反应器的位置来研究。通过超声波功率测量仪测量到达反应器的实际超声强度（I）。可以发现超声波强度随超声波参数而变化。利用60W至150W改善的标称电源输入，超声波强度从0.21W？cm〜（-2）升至1.06wΩ·cm〜（-2），酚溶液（η）的降解速率从21.7增加％〜43.7％。但是，当/达到100kHz频率的/达到1.71W≤CM〜（-2）的最高值，η降低到21.5％的最低值。超声波强度分布在超声波浴中不均匀，η随着垂直方向的增加而增加。苯酚溶液的超声波降解受超声波强度的影响，但η随着超声强度的增加而绝对不升高。

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《International Conference on Biotechnology, Chemical and Materials Engineering》|2012年||共4页
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Meijuan Yin; Peng Cui; Zhi Hu;
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中图分类 TB3-532;
关键词
Ultrasonic irradiation; Degradation; Phenol; Ultrasonic intensity;

机译：超声波照射;降解;苯酚;超声波强度;

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Effect of Ultrasonic Intensity on the Degradation of Phenol Solution

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