Bibliographic citations
Lozano, J., (2023). Estudio de prefactibilidad de instalación planta automatizada para la producción de celdas de iones de litio en Juliaca-Puno [Universidad Antonio Ruiz de Montoya]. http://hdl.handle.net/20.500.12833/2521
Lozano, J., Estudio de prefactibilidad de instalación planta automatizada para la producción de celdas de iones de litio en Juliaca-Puno []. PE: Universidad Antonio Ruiz de Montoya; 2023. http://hdl.handle.net/20.500.12833/2521
@misc{renati/1008379,
title = "Estudio de prefactibilidad de instalación planta automatizada para la producción de celdas de iones de litio en Juliaca-Puno",
author = "Lozano Cassana, Jean Carlos",
publisher = "Universidad Antonio Ruiz de Montoya",
year = "2023"
}
The study evaluates the technical, commercial, financial, economic and social feasibility of the implementation of the first automated plant producing lithium-ion cells (Li-ion batteries) in Peru, in order to market them worldwide as the best option in electric energy accumulators and that are sustainable, mainly due to their high charge density or long useful life and their light weight compared to other cells on the market, this is a great opportunity to participate alongside multinational companies in the technological sectors that are currently on the rise, such as: The electric vehicle sector, self-sustainable infrastructure sector, and electronic components (Smartphones, laptops, tablets, among others). Its composition is based on the union of three basic structures: First, the aluminium layer (Al) that covers the lithium oxide (〖Li〗_2 O) obtained mainly from the recently operational and exploited Macusani mine in the north of Puno. Second, the copper (Cu) layer that covers the graphite (C), both resources obtained from the different mines throughout the Peruvian territory, as we are the No. 2 copper exporter in the world. And thirdly, the insulating layer together with the electrolyte or sulphuric acid (H_2 〖SO〗_4). The commercial design of the cell, cylindrical and small almost like a conventional battery, makes its manufacture automated, fast, safe and of high quality; with the help of the automation technology of the German company ""KUKA"", it is planned to design an optimal plant not only in the working space of 1,000m^2 in the industrial zone of Puno-Juliaca, but also to be ecological, sustainable and efficient; The plant is designed to meet the large and growing demand for more than 3.5 billion lithium-ion cells per year, and that's if we are talking about the GIGAFACTORY TESLA company alone, and its annual target of 500,000 electric vehicles per year. In addition, the lithium-ion cell market is projected to become a 90 billion dollar per year industry in the next 10 years. The total investment is S/. 4.552.360; 75% financed through banks and local, national and international governments and 25% directed to equity investors. The project will generate beneficial results for the shareholders, presenting an NPV of S/. S/. 1.957.154; an IRR of 86,49%, and a benefit/cost ratio of 2,72 in an approximate recovery period of 1 year and 3 months.
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