The study of this article mainly focuses on the assessment and performance of current and voltage inverters in ozone generation, applying power density modulation (PDM) and typical operation. The topologies designed were a voltage-source full-bridge inverter (VSFBI), a current-source full-bridge inverter (CSFBI), and a CSFBI without considers the PDM. The inverters were analyzed and implemented considering an inductor–capacitor–capacitor (LCC) series–parallel resonant tank for the VSFBI and an $LC$ parallel resonant tank for the CSFBI. The duty cycle impact ( $D_{\mathrm{ m}}$ ) of the modulation signal was analyzed, and all inverters were compared. Based on the results, the decrease in $D_{\mathrm{ m}}$ allows increasing the ozone generation because of avoiding the dissociation of the ozone molecules. The maximum concentration and efficacy presented by the VSFBI in ozone production were 620 gr/m ³ and 0.155 gr/min. Also, the maximum electrical efficiency was 91%; it was presented by the CSFBI without PDM.

中文翻译：

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高压臭氧发生器中使用电压和电流逆变器的分析和评估

本文的研究主要集中在电流和电压逆变器在臭氧产生中的评估和性能，应用功率密度调制（PDM）和典型操作。设计的拓扑是电压源全桥逆变器（VSFBI），电流源全桥逆变器（CSFBI）和不考虑PDM的CSFBI。分析和实现了逆变器，并考虑了用于VSFBI的电感器-电容器-电容器（LCC）串联-并联谐振回路以及一个 $ LC $ CSFBI的并联谐振箱。占空比影响（ $ D _ {\ mathrm {m}} $ 分析了调制信号），并比较了所有逆变器。根据结果​​， $ D _ {\ mathrm {m}} $ 由于避免了臭氧分子的解离，因此允许增加臭氧的产生。VSFBI在臭氧生产中提供的最大浓度和功效为620 gr / m ³和0.155 gr / min。此外，最大电效率为91％；它是由不带PDM的CSFBI提供的。