通过数学模型研究臭氧发生器电子源的特性

Yessen Bagdollauly, Gulzada Yerkeldessova, Ayaulym Oralbekova, Elvira Chukenova, Nuraly Ilyassov, Assem Yerzhan, Palvan Kalandarov
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引用次数: 0

摘要

通过数学模型研究臭氧发生器电源的特性对于满足卫生和工业需求至关重要。臭氧是一种具有消毒特性的强氧化剂,因此其应用非常广泛。然而,臭氧的生产效率在很大程度上取决于臭氧发生器电源的质量。在这项研究中,我们开发并使用了数学模型,旨在确定用于臭氧生产的各类臭氧发生器的主要电力参数。研究结果表明,有可能提高臭氧发生器的能效并优化其运行参数。数学模型是预测臭氧发生器运行模式和必要电力参数的重要工具,有助于提高臭氧发生器的整体生产率,降低臭氧生产成本。在分析过程中,我们考虑了臭氧发生器电源的稳定性、高频功率传输以及电能消耗水平。我们的研究旨在确定这些参数如何影响臭氧生产过程,并在考虑到这些影响的情况下,设计和改进臭氧发生器的电源。
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Investigation of the properties of electrical sources of ozonators through mathematical models
The study of the properties of electrical power sources of ozonators through mathematical models is crucial for satisfying sanitary-hygienic and industrial needs. Ozone is a strong oxidant with disinfectant properties, making its application widespread. However, the efficiency of its production largely depends on the quality of the ozonators’ electrical power sources. In this research, we developed and utilized mathematical models aimed at determining the main electrical parameters of various types of ozonators used in ozone production. The results of the study show possibilities for enhancing the energy efficiency of ozonators and optimizing their operational parameters. Mathematical modeling serves as a significant tool for predicting the operating modes and necessary electrical power parameters of ozonators, helping to increase their overall productivity and reduce the cost of ozone production. During the analysis, we considered the stability of the electrical power sources of ozonators, their high-frequency power transmission, and the level of electrical energy consumption. Our research aimed to determine how these parameters affect the ozone production process and, considering these effects, to design and improve the electrical power sources of ozonators.
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