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Abstract:
Ozone generation is a water disinfection method, superior to chlorine in terms of fewer byproducts and no residual taste. However, its high production cost limits its widespread adoption. This paper designs an ozone generation sinusoidal power supply for water treatment. Ozone generation requires a high-frequency and high-voltage power supply to produce ozone from oxygen molecules. The study evaluates two power supply topologies, one with a parallel LC filter and the other with an LCL filter, assessing their feasibility, effectiveness, and reliability. Theoretically, the LCL filter achieves higher gains than the parallel LC filter. The larger inductance in the parallel LC filter reduces gain, while the larger inductance in the LCL filter increases gain. Simulation and practical results validate these findings, achieving gains of 40 for the parallel LC filter and 150 for the LCL filter.
摘要:
臭氧产生是一种水消毒方法,在更少的副产品和没有残留的味道方面优于氯。然而,它的高生产成本限制了它的广泛采用。本文设计了一种用于水处理的臭氧产生正弦电源。臭氧产生需要高频和高压电源来从氧分子产生臭氧。该研究评估了两种电源拓扑,一个带有并行LC滤波器,另一个带有LCL滤波器,评估其可行性,有效性,和可靠性。理论上,LCL滤波器实现比并行LC滤波器更高的增益。并联LC滤波器中较大的电感会降低增益,而LCL滤波器中较大的电感会增加增益。仿真和实际结果验证了这些发现,获得40的并行LC滤波器和150的LCL滤波器的增益。
