Se encontraron 2 investigaciones en el año 2024
El Grupo de Ciencia de Materiales y Energías Renovables (MatER) de la Pontificia Universidad Católica del Perú (PUCP) desde 2017 cuenta con un laboratorio con equipamiento adecuado para la caracterización y calibración de paneles FV. Además, cuenta con 3 sistemas FV de 1.5 kWp cada uno, de tecnologías PERC, HJT y CIGS, y sistemas de monitoreo. Su laboratorio fue financiado por fondos de la PUCP y por proyectos de investigación del Fondecyt y Banco Mundial. Estos mismos sistemas FV el grupo instaló en 5 distintas regiones (Lima, Arequipa, Tacna, Amazonas y Puno) con diferentes climas en el Perú para su evaluación energética y técnico-económica. La empresa Statkraft instaló un laboratorio con sistemas fotovoltaicos conectados a la red de las 4 tecnologías mencionadas, cada uno de 10 kWp, en La Oroya, región Junín. En colaboración con el Grupo MatER la empresa Statkraft desear realizar un proyecto de investigación cuyo objetivo principal es evaluar las distintas tecnologías FV bajo las condiciones climáticas locales a 3,694 m.s.n.m.
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Pillar I: Wide-bandgap semiconductors To develop a continuous flow photoelectrochemical electrolyzer to perform photoanode-driven NO reduction on Cu2O dark cathodes at a lower operating cell voltage obtaining a better Faradaic and energy efficiency. Pillar II: 2D materials The general objective of this pillar is the production of MAX films by magnetron sputtering. Thin films library will be produced with a variation of different concentrations of the elements M, A and X to obtain the optimal composition and thus improve the MXenos synthesis process. A second step is the production of the MXenes by varying the acid treatment parameters such as time and acid concentration. Electrochemical electrode modification with MXenes is the most promising approach to improve sensitivity, selectivity, analyte adhesion, and detection limits in electrochemical detection devices (sensors). Due to such reasons, nanomaterialbased electrochemical (bio)sensors have attracted enormous attention in recent years for the detection of a variety of analytes. In this sense, a last stage of the project would be the evaluation of the use of electrodes based on MXenes in electrochemical sensors for the detection and quantification of biomolecules (eg. neurotransmitters, glucose). It seeks to understand how the synthesis parameters of the MAX phases as well as that of the MXenos films could affect their performance as an electrode in said sensors for the detection of biomolecules of importance for human health. Pillar III: Bifacial PV system The general objective of the pillar pursues the experimental study of the impact of the main operating conditions on the energy production of photovoltaic systems connected to the grid (SFCR) based on bifacial technology. The conditions to be studied are the distance between the fixed-angle photovoltaic modules to the ground, the reflection and albedo properties of the ground, as well as the inhomogeneities of the irradiance received by the back side.
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