Abstract
UDC 532.54:541.13
DOI https://doi.org/10.5281/zenodo.4045941
The mechanisms of electrification of various solids in contact or friction as well as in the interaction of liquid media with conductive and dielectric materials are described and analyzed. Output characteristics of nanogenerators based on the phenomenon of electrification of solids and liquids are considered. The design and results of the study of an electrostatic nanogenerator based on the electrification of a glass porous structure when a dielectric fluid passes through it are presented.
Keywords: electrification, porous structure, Schott filter, nanogenerator, polyethylsiloxane liquid, flow, voltage, density, current, potential, time, generator, electrical conductivity.