Citas bibligráficas
Severo, D., (2024). Propuesta de implementación de un biodigestor para el tratamiento y reaprovechamiento de heces caninas del distrito de Chupaca [Universidad Nacional Agraria La Molina]. https://hdl.handle.net/20.500.12996/6240
Severo, D., Propuesta de implementación de un biodigestor para el tratamiento y reaprovechamiento de heces caninas del distrito de Chupaca []. PE: Universidad Nacional Agraria La Molina; 2024. https://hdl.handle.net/20.500.12996/6240
@mastersthesis{renati/246965,
title = "Propuesta de implementación de un biodigestor para el tratamiento y reaprovechamiento de heces caninas del distrito de Chupaca",
author = "Severo Romero, David Eduardo",
publisher = "Universidad Nacional Agraria La Molina",
year = "2024"
}
Canis lupus familiaris has been a specie that has accompanied humans for many years. However, its feces have become a problem because it has contributed to the increase of organic solid waste, in addition to the structural deficiency of treatment plants for this type of waste. Therefore, it can be considered a potentially dangerous waste for public and environmental health. An alternative for its treatment is through anaerobic digestion, which represents a viable option due to its low cost of implementation and maintenance with biogas and digestate as a by-product. The objective of this work was to present a proposal for the implementation of a biodigester for the treatment and reuse canine feces in the Chupaca district. Biogas yield was determined in small-scale biodigesters (BPA) using canine feces as substrate. In this study was found that the BH1 test was the one that obtained the highest yield with 11.43 ml of biogas/gr of canine feces. In the tests with the presence of plastic bags, it was found that the production of biogas is inversely proportional to the thickness of the plastic bag used. Being the BP1 test the one that obtained the highest yield with 8.62 ml of biogas/gr of canine feces. Likewise, it was estimated that the generation of the quantity of HC in the district of Chupaca is 599.4 tons of canine feces for year (fifteenth year) and the optimal volume of the biodigester for its treatment is 300 m3. Finally, the biogas production of the biodigester was estimated, with 563 m3 being the maximum amount of biogas (optimal capacity of biodigester) what represents 12951.53 MJ of energy potential. The results of this work demonstrated the feasibility of implementing a biodigester that operates and reuses the HC generated in the Chupaca district.
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