Bibliographic citations
Sanchez, J., (2023). Diseño de un sistema energético autosustentable mediante la biodigestión de residuos orgánicos para el abastecimiento de energía eléctrica en el mercado Modelo - Chiclayo [Universidad Católica Santo Toribio de Mogrovejo]. http://hdl.handle.net/20.500.12423/7230
Sanchez, J., Diseño de un sistema energético autosustentable mediante la biodigestión de residuos orgánicos para el abastecimiento de energía eléctrica en el mercado Modelo - Chiclayo []. PE: Universidad Católica Santo Toribio de Mogrovejo; 2023. http://hdl.handle.net/20.500.12423/7230
@misc{renati/583594,
title = "Diseño de un sistema energético autosustentable mediante la biodigestión de residuos orgánicos para el abastecimiento de energía eléctrica en el mercado Modelo - Chiclayo",
author = "Sanchez Manayay, Jesus David",
publisher = "Universidad Católica Santo Toribio de Mogrovejo",
year = "2023"
}
This research presents the design of a self-sustainable energy system for the Modelo market - Chiclayo, with the purpose of mitigating the accumulations of solid waste, the impact on the health of the population and also taking advantage of the organic waste that the market merchants generate daily a through the sale of different products and supplies; in such a way that electrical energy is generated from the anaerobic conversion. A quantitative analysis was carried out to determine the maximum demand of the Modelo market in validation with the months, SED EN09 (199.26 kW) and SED EN519 (22.97 kW). The solid waste production in the market is classified as 3.72 MT/day, of which only organic waste is 2.29 MT/day. In the market, waste generation is classified as 3.72 Tm/day, of which only organic waste is 2.29 Tm/day. Using the design process methodology, requirements, functionality and criteria are identified to evaluate each proposed alternative solution from the technical and economic point of view “The possible alternative is number 01“, a biodigester in vertical position connected by steel pipes to a main vessel for biogas storage. The calculations justifying the biodigester and components give a volume of 4.6 m3 which are two of the same capacity, so the gasometer will have a volume of 9.2 m3; with this capacity a generator running on 375 kW/430kVA biogas fuel is selected. The CAD design was made with the detail of the components and corresponding measurement. In the end, the NPV-IRV approach was used to conduct a financial analysis, which yielded a payback period of 5 years. Therefore, it was determined that the investment is profitable for its implementation.
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