Bibliographic citations
Rodriguez, K., (2022). Diseño e implementación de un equipo electrónico portátil aplicando Matlab para mejorar la detección de plomo en la sangre utilizando la Voltametría Anódica [Universidad de Ciencias y Humanidades (UCH)]. http://hdl.handle.net/20.500.12872/671
Rodriguez, K., Diseño e implementación de un equipo electrónico portátil aplicando Matlab para mejorar la detección de plomo en la sangre utilizando la Voltametría Anódica []. PE: Universidad de Ciencias y Humanidades (UCH); 2022. http://hdl.handle.net/20.500.12872/671
@misc{renati/689557,
title = "Diseño e implementación de un equipo electrónico portátil aplicando Matlab para mejorar la detección de plomo en la sangre utilizando la Voltametría Anódica",
author = "Rodriguez Villarreal, Kevin Jairol",
publisher = "Universidad de Ciencias y Humanidades (UCH)",
year = "2022"
}
The study carried out in this thesis is aimed at the construction of electronic equipment, capable of measuring the levels of toxicity and concentration in people exposed to Lead, knowing that this is a heavy metal and toxic to health. Various electrochemical methods were compared to measure Pb in blood, of which Anodic Voltammetry was chosen. The problem is due to the high levels of pollution produced by industrial plants and their poor control of emissions of this metal, since these cause irreversible damage to health, in children, since their body is less strengthened than an adult. In Peru, we have problems with informal mining, which causes much of the environmental pollution, since the emissions they produce are not controlled. Likewise, another source of contamination is lead-containing paint, which also causes poisoning in minors. The objective that is sought with the elaboration of the work, is to develop a device based on Anodic Voltammetry that allows to measure concentrations of Lead in blood, for this different version of the prototype were achieved to reach the most effective design. The purpose of the electronic equipment is to be able to measure small Pb concentrations and make characterization curves that allow a better reading of the samples. These curves are made with a graphical environment created in MATLAB. The results obtained were that the electronic device (potentiostat) was created with some limitations, but it meets the proposed objective and works as expected. The checks and comparisons of the samples taken in the laboratory when compared with other equipment with higher performance were similar despite being a low-cost equipment. These results obtained were of great contribution to validate the effectiveness of the equipment. On the other hand, the graphical interface (GUI) was created in Matlab as a complement to the measurement equipment, the creation of the graphical interface facilitated the reading and understanding of the values produced by the equipment.
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