Abstract

IGNATOV, Ignat et al. Registration of Different Types of Water with Corona Gas Discharge Effects and Parameters of Brightness. Port. Electrochim. Acta [online]. 2025, vol.43, n.4, pp.219-226.  Epub Aug 31, 2025. ISSN 0872-1904.  https://doi.org/10.4152/pea.2025430401.

Corona gas discharge (CGD) is a physical process that occurs when a gas is ionized. It is observed as a bluish glow at high breakdown voltages from 5 to 30 kV. In laboratory conditions, 1 has objectively studied CGD, in the former USSR, in the late 1940s. The method was classified as electrophotography, for recording information. Based on an electrophotographic information recording, Carlson developed xerography in the 1960s. 3 has conducted experiments using electrophotographic CGD methods, to record data. Antonov and co-authors proved that CGD primarily depends on the object’s dielectric permeability rather than on conductivity. 15, 16 have measured photon emission in different types of water. The method is called color coronal spectral analysis. Since 2012, 12 have developed a method for analyzing CGD image, assessing brightness for various water types. The authors consider that, with CGD, information is connected with water dielectric permeability and, thus, with H2O molecules restructuring. The developed method of water classification allows for an integral assessment of H2O characteristics. The experimental sample was classified based on brightness histogram (BH) analysis of CGD radiation images.

Keywords : BH; CGD; discharge image; H₂O.

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