Among advanced oxidation processes often used for treatment, Sono- Photo-Fenton processes (S-P-FP) receive a lot of attention due to high pollutant degradation efficiency. This review highlights the fundamentals and main applications of methods such as Fenton, photo-Fenton with emphasis on S-P-FP. The S-P-FP method is capable to dwindle the drawbacks of advanced oxidation based on the Fenton process through direct and synergistic effects of ultrasound and light (photo) which lead to the highest generation of reactive radicals such as various radicals such as ^•OH, ^•H and ^•OOH are produced besides the catalytic role of ferrous ions. In this review have been investigated effective parameters include pH, H₂O₂, pollutant and Fe^2+/3+ concentration, catalyst dosage, light intensity, ultrasonic power and temperature on the S-P-FP. Also, the main factors influencing the US efficiency are sonication frequency, acoustic intensity, bulk temperature, and static pressure. This review also highlights energy consumption evaluation of S-P-FP versus other AOPs and results indicated the S-P-FP has less TCS due to energy savings because decreasing of energy consumption.

在通常用于处理的高级氧化工艺中，声光-芬顿工艺（SP-FP）由于污染物降解效率高而备受关注。本文着重介绍了Fenton，photo-Fenton等方法的基本原理和主要应用，重点是SP-FP。SP-FP方法能够通过超声波和光（照片）的直接和协同作用，消除基于Fenton工艺的高级氧化的缺点，从而导致产生最高的反应性自由基，例如^• OH，^•除了亚铁离子的催化作用外，还会生成H和^• OOH。在这篇综述中，已经研究了有效参数，包括pH，H ₂ O ₂SP-FP上的污染物，Fe ^{2 + / 3 +}浓度，催化剂用量，光强度，超声功率和温度。同样，影响美国效率的主要因素是超声频率，声强度，体温和静压。这篇评论还重点介绍了SP-FP与其他AOP的能耗评估，结果表明SP-FP由于能耗降低而节省了能源，因此TCS更少。