Bibliographic citations
Salazar, G., Solis, W. (2022). Desarrollo de un sistema de control automático del proceso de obtención de HHO a través de la electrólisis del agua [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/668156
Salazar, G., Solis, W. Desarrollo de un sistema de control automático del proceso de obtención de HHO a través de la electrólisis del agua [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2022. http://hdl.handle.net/10757/668156
@misc{renati/405778,
title = "Desarrollo de un sistema de control automático del proceso de obtención de HHO a través de la electrólisis del agua",
author = "Solis Montesinos, Wilmer Alexande",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2022"
}
This article proposes the development of an automatic control system in order to obtain HHO from a dry cell through the electrolysis of water. Calculations and technical specifications of the materials used for the implementation are supported by mathematical, physical and chemical formulas and theories (Faraday´s Law, electrolysis process and mechanical design). The importance of the mechanical design lies in achieving an efficient use of the energy provided to the cell that allows the separation of the H2 and O2 molecules without overheating the cell and evaporating the water, without current losses due to the geometry of the electrodes (Foucault Current) Moreover, choosing materials for proper implementation and physical robustness is mandatory. In addition, the mechanical design of the cell and the efficiency in the production of HHO have an important relationship. Therefore, the mechanical design and the calculations were performed, as well as the construction of the dry cell to obtain HHO. The results of the implementation and production were placed and compared with what theoretically the dry cell should produce from the law of Faraday. All the process was controlled through a fuzzy logic loop to maintain an optimal production flow by controlling the cell temperature. Finally, the volumetric flow rate of HHO obtained was 2.70 L per minute. It means a production efficiency of 98.68%, which is taller than most dry cells.
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