With the development of industry, the problem of refractory organic pollutant pollution in water has become increasingly serious. As a typical representative, HPAM cannot be effectively treated by traditional methods. This study focuses on the innovative ultrasonic photocatalysis technology for degrading HPAM in water, deeply analyzes the synergistic mechanism between ultrasound and photocatalysis, and explores the influence of various factors on the degradation effect through a series of experiments. It is found that the degradation efficiency of this technology is significantly higher than that of a single method, and the degradation rate of HPAM can exceed 90% under specific conditions. This research provides a solid theoretical and practical basis for the wide application of ultrasonic photocatalysis technology in the field of water treatment, and is expected to promote the innovation of environmental protection technology.

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Study on Degradation of HPAM in Water by Ultrasonic Photocatalysis Technology: Innovative Mechanism and Efficient Application

  • Gongjun Wang,
  • Dongmei Wang

摘要

With the development of industry, the problem of refractory organic pollutant pollution in water has become increasingly serious. As a typical representative, HPAM cannot be effectively treated by traditional methods. This study focuses on the innovative ultrasonic photocatalysis technology for degrading HPAM in water, deeply analyzes the synergistic mechanism between ultrasound and photocatalysis, and explores the influence of various factors on the degradation effect through a series of experiments. It is found that the degradation efficiency of this technology is significantly higher than that of a single method, and the degradation rate of HPAM can exceed 90% under specific conditions. This research provides a solid theoretical and practical basis for the wide application of ultrasonic photocatalysis technology in the field of water treatment, and is expected to promote the innovation of environmental protection technology.