Examinando por Materia "Cobre"
Mostrando 1 - 4 de 4
Resultados por página
Opciones de ordenación
Ítem Aplicación de la metodología Kaizen a las operaciones mina en la empresa de explotación de cobre Miner S.A.(Universidad EAFIT, 2019) Gelves Vargas, Misael Ricardo; Henao Rivas, Doraida; Escalante Gómez, Juan EstebanThis work presents a proposal for continuous improvement developed at Miner S.A copper mine, this company is dedicated to commercializing copper and gold concentrate, Miner S.A is located close to El Carmen de Atrato town and it is supported by Kaizen Methodology. In the first part of the work, results of the Key Performance Indicators (KPIs) of the last periods in the mine operation are analysed. An area that includes extraction process are selected for intervention and there are characterize by having results that require management. Analysis is framed by a detailed description of elements that constitute each process in order to have detailed information about resources involved. The selected KPIs are efficiency percentage of drilling and blasting process and energy consumption. After selecting these processes, proposals for improvement are presented by using of Ishakawa diagrams tool or fishbone. This tool allows easy identification of problem causes performance in both selected processes. In order to make this analysis as complete as possible and being able to share the Kaizen Philosophy to each area of the organization, its development was supported by administrative and operative workforce.Ítem Diseño de un manual de geo-metalurgia como herramienta para los procesos de enseñanza-aprendizaje en los procesos extractivos del cobre(Universidad Eafit, 2020) Zuluaga Zapata, Karen Johana; Marín Cerón, Maria Isabel; Garrido Palma, Mauricio NicolásÍtem Improving DFT-based approaches to study CO2 electroreduction on transition metals(Universidad EAFIT, 2021) Rendón Calle, Jessica Alejandra; Calle Vallejo, Federico; Builes Toro, SantiagoThe industrial-scale conversion of electricity obtained from renewable sources is crucial to achieve an economy based on renewable energy. In that scenario, the electrochemical reduction of CO2, offers the possibility of producing some of the most demanded fuels and chemicals in a sustainable way. However, its efficient implementation on industrial scale is limited by factors as the high energy requirements for the product formation, the low selectivity and efficiency of electrolyzers, and the long-term deactivation of the catalysts. Understanding the many aspects that influence the reaction behavior is a challenging task because, apart from solvent and electrolyte effects, there are multiple intermediates, pathways, and products possible under similar operating conditions. In the recent decades this research field has been highly active in theory and experiments, and many studies have focused on finding the main factors that enhance the reaction performance. In this thesis, the electrochemical CO2 reduction is studied using state-of-the-art density functional theory (DFT) simulations, incorporating solvation effects as a crucial factor for improving thermodynamic predictions. To this end, a systematic micro-solvation method was developed to determine the number of hydrogen-bonded water molecules in the first solvation shell and the energetic stabilization granted by those hydrogen bonds. The reduction of CO2 to CO, CH4 and CH3OH on Cu, was considered to test this method, finding very good agreement with experiments without the need to include calculations of reaction kinetics. The estimation of solvation contributions for the CO2 reduction to CO has been extended to other transition metals such as Ag, Au, and Zn, finding significant variations between solvation corrections for the same adsorbates on different metals and finding very good agreement with experimental results. The increase in accuracy of the predictions make possible the development of a semiempirical method to explain the deactivation evidenced experimentally on Cu electrodes during CO2RR to CH4.Ítem Recuperación de cobre a partir de los residuos de tarjetas de circuitos integrados de aparatos eléctricos y electrónicos(Universidad EAFIT, 2017) Vargas Muñoz, Mariana; Tirado Gallego, Luis Fernando; Gutiérrez Monsalve, Jaime Andrés