Bibliographic citations
Collado, C., Quispe, J. (2024). Diseño de una planta portátil de desalinización por electrodiálisis para suministrar 20m3/día de agua potable en situaciones de emergencia [Trabajo de suficiencia profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/674717
Collado, C., Quispe, J. Diseño de una planta portátil de desalinización por electrodiálisis para suministrar 20m3/día de agua potable en situaciones de emergencia [Trabajo de suficiencia profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/674717
@misc{renati/419450,
title = "Diseño de una planta portátil de desalinización por electrodiálisis para suministrar 20m3/día de agua potable en situaciones de emergencia",
author = "Quispe Valdivia, Josue Andre",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
The objective of this research work is to design a solution to face the shortage or interruption of drinking water services caused by the El Niño phenomenon, providing a fast, efficient and autonomous response, using wind energy. The proposal is to supply 20 m3/day, to cover the basic needs of a population of 2000 people. The process uses reverse electrodialysis, and consists of five main processes, which are water collection, softening and disinfection, electrodialysis, electrical generation and finally, analysis and final treatment. The simulation, takes into consideration MEGA's RALEX EWTU-P20-EDR-30/350-0.8 equipment, operating in batch mode with a water input of 1.13m3 and will produce approximately 0.86 m3 per hour. The proposed system will operate with a supply voltage of 400 VDC, powered by wind energy. The initial parameters will be taken as those obtained from the analysis of the Peruvian coastal sea. The developed algorithm starts with the chemical composition of the inlet water, being balanced by stoichiometry. The values of current intensity used for the balance and tanks will be established. Once the concentration value is reached, the result will be plotted and the net product value of each ion present in the salts of the desalinated water will be determined. Finally, it can be concluded that the proposal proposed is effective in the mathematical model, managing to reduce the levels of salts in the collected water to values within the range considered drinking water. Requiring a final treatment to increase electrolytes and minerals necessary for human consumption.
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