本文以介质阻挡放电法为例进行分析,研究整个臭氧发生系统的电能损耗源。
This thesis analyzes the main power consumptions of the DBD principle ozone generator.
物种灭绝、森林砍伐、河流筑坝、洪水、臭氧层损耗、海洋系统恶化和许多其他变化都在加速发生。
Species extinction, deforestation, damming of rivers, occurrence of floods, the depletion of ozone, the degradation of ocean systems and many other areas are all experiencing acceleration.
系统的分析了频率跟踪移相PWM控制全桥供电的串联谐振负载式DBD型臭氧发生器电源系统的工作过程。
The working processes of the frequency-tracking phase-shift PWM controlled full bridge power supply load series resonant type DBD ozone generation power system are analyzed.
实施改造后三个多月的运行实践证明,该系统安全可靠,保证了臭氧发生器的稳定运行。
After the reconstruction, the operation practice for more than three months proves that this system is safe and reliable, guaranteeing the stable operation of ozone generator.
以空气或氧气为气源,采用电晕放电技术,设计了一种由臭氧管、高频电源、风机和控制系统组成臭氧发生器。
The ozone generator was designed by corona discharge technology. The source gas for generating ozone was air or oxygen gas.
以空气或氧气为气源,采用电晕放电技术,设计了一种由臭氧管、高频电源、风机和控制系统组成臭氧发生器。
The ozone generator was designed by corona discharge technology. The source gas for generating ozone was air or oxygen gas.
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