1,020 research outputs found
Energy performance evaluation of a photovoltaic window
A photovoltaic window specially built by a manufacturer has been studied. An amorphous silicon photovoltaic module encapsulated between two transparent glass sheets, an air chamber and a second double glass sheet with an air chamber forms the photovoltaic window. Everything is framed in a PVC structure. The effective dimensions of the a-Si photovoltaic module are 0.57x1.17 m2, equivalent to a standard measurement of 0.60x1.20 m2.
To know the electrical characteristics of PV window in standard test conditions, a test in accordance with IEC standard 61646 it has carried out. A peak power of 50.74 Wp was obtained.
Measurements of energy production in real sunlight were carried out. The window was placed vertically facing south on a test bench. Measurements of the energy produced by the photovoltaic window were made in several sunny days of August and September 2016 from sunrise to sunset. On average, the irradiance received on the plane of the photovoltaic window was 4114 Wh/m2 and the energy produced 71.2 Wh each day. These results match those obtained using the Malaga radiation databases.
For one square meter of the window studied, 79.868 kWh/m2/year are obtained, when an overall efficiency of 0.8 is considered. Integrating this PV window in a building in Malaga (Spain), an annual electric production of 345030 kWh is obtained when a glazing surface of 4320 m2 is considered. This energy is enough to meet the annual electricity needs of the 68 household of the building.Universidad de Málaga. Campus de Excelencia Internacional Andalucia Tech.
This work is partially derived from the contract nº 8.06/5.31.4644 Libre Evolución de EnergÃa S.L
Exergy analysis of a solar photovoltaic module
PV energy is the direct conversion of solar radiation into electricity. In this paper, an analysis of the influence of parameters such as global irradiance or temperature in the performance of a PV installation has been carried out.
A PV module was installed in a building at the University of Málaga, and these parameters were experimentally determined for different days and different conditions of irradiance and temperature. Moreover, IV curves were obtained under these conditions to know the open-circuit voltage and the short-circuit current of the module. With this information, and using the first law of thermodynamics, an energy analysis was performed to determine the energy efficiency of the installation. Similarly, using the second law of thermodynamics, an exergy analysis is used to obtain the exergy efficiency.
The results show that the energy efficiency varies between 10% and 12% and the exergy efficiency between 14% and 17%. It was concluded that the exergy analysis is more suitable for studying the performance, and that only electric exergy must be considered as useful exergy. This exergy efficiency can be improved if heat is removed from the PV module surface, and an optimal temperature is reached.Universidad de Málaga. Campus de Excelencia Internacional AndalucÃa Tech
Las energÃas renovables
El desarrollo sostenible se concibe para mejorar la calidad de vida del ser humano sin que ello suponga peligro para el bienestar de actuales y futuras generaciones. Un objetivo que pone de relieve la estrecha relación entre el suministro de fuentes llimpias como el viento, el sol y el mar y su consumo eficiente
2022-8 Slutsky Matrix Symmetry: A New Behavioral Condition
The Slutsky matrix function encodes all the information about local variations in demand with respect to small (Slutsky) compensated price changes. When the demand function is the result of utility maximization the Slutsky matrix is symmetric. However, symmetry does not imply rationality. Here, we provide a necessary and sufficient condition for Slutsky symmetry. The new condition requires symmetric attention to compensated price-paths
Moldeamiento de la comprensión y profundización de un concepto
La matemática tradicional se ha enfocado en enseñar números, formulas y procesos mecánicos, los mismos que no tienen necesariamente una relación con los problemas del diario vivir de las personas; es por eso que este estudio se fundamenta en relacionar problemas reales o situaciones cotidianas, que permitan al estudiante generar un conocimiento propio a partir de una experiencia de la vida real.
El propósito de la aplicación de este modelamiento matemático busca generar un concepto propio o interpretación de la relación del fenómeno natural con el fenómeno matemático mediante la proporcionalidad mayor a 1 y menor a 1
Generación de hidrógeno a partir de energia solar para su uso en vehÃculos con célula de combustible
Tradicionalmente se ha considerado a los combustibles fósiles como fuente de energÃa barata y abundante. Sin embargo, la disminución de las reservas y el aumento de la demanda mundial de energÃa, además de la contaminación que producen, hacen insostenible el modelo energético basado en este tipo de combustibles. Por ello se hace necesario un nuevo modelo basado en el empleo de fuentes de energÃa renovable.
El principal inconveniente de las energÃas renovables es el desfase entre producción y demanda, por lo que muchas veces es necesario acumular la energÃa producida para tenerla disponible en el momento en el que se demanda. Hasta ahora, la forma más extendida de acumular energÃa en instalaciones de energÃa renovable es mediante el empleo de baterÃas. Sin embargo, el problema de la acumulación de grandes cantidades de energÃa puede superarse mediante la tecnologÃa del hidrógeno.
El hidrógeno no es una fuente de energÃa sino un vector energético puesto que no existen yacimientos. Por lo tanto hay que obtenerlo a partir de otras sustancias. La manera más sencilla y limpia de extraer hidrógeno es del agua mediante la electrolisis, empleando energÃas renovables para generar la energÃa eléctrica necesaria. En este proceso no se generan emisiones contaminantes.
En este trabajo se ha diseñado una estación de repostaje de vehÃculos de pila de combustible en un campo de golf. La estación emplea energÃa solar fotovoltaica para generar el hidrógeno necesario mediante electrolizadores. El hidrógeno se almacena en estado gaseoso en depósitos a presión y se comprime empleando también energÃa solar fotovoltaica.
Se ha calculado que para satisfacer la demanda anual de hidrógeno hacen falta 117 módulos alimentando a 6 electrolizadores. El modelo de módulo fotovoltaico escogido es el SUNTECH STP320S. El electrolizador es el ACTA EL1000, que produce 1 Nm3/h de hidrógeno a 30 bar consumiendo 4,78 kW. El modelo de inversor de red escogido es el Sunny Tripower 15000 TL HE del fabricante SMA.
Debido a que la demanda de hidrógeno no coincide con su producción, es necesario acumular el hidrógeno producido. El hidrógeno que se debe tener disponible requiere un volumen para los depósitos de baja presión de 118 m3 y 12,2 m3 para los de alta presión A partir de la demanda energética y la generación de hidrógeno, se ha obtenido, con un programa desarrollado en MatLab, la curva de la cantidad de hidrógeno que se debe tener acumulada cada dÃa del año. Los resultados muestran que el sistema de generación diseñado cubre la demanda anual de hidrógeno para el funcionamiento de las células de combustible de los vehÃculos.Universidad de Málaga. Campus de Excelencia Internacional AndalucÃa Tech
2022-9 A Rationalization of the Weak Axiom of Revealed Preference
Samuelson’s (1938) weak (generalized) axiom of revealed preference– WGARP–is a minimal and appealing consistency condition of choice. We offer a rationalization of WGARP in general settings. Our main result is an exact analog of the celebrated Afriat’s theorem, but for WGARP. Its ordinal rationalization is in terms of an asymmetric and locally nonsatiated preference function. Its cardinal rationalization uses a coalitional multi-utility (CMU) maxmin representation with a coherency restriction on the coalition structure. Effectively, the CMU representation aggregates piecemeal preferences within the decision maker (multiple rationales without preference reversals that allow for transitivity violations). Basic consumer theory and welfare analysis are also developed. Extensions to the weak axiom of revealed preference–WARP–and choices obeying the law of demand are included
Analysis of a PV Window for Building Integrated Photovoltaic (BIPV) Applications
An amorphous silicon photovoltaic module encapsulated between two transparent glass sheets, an air chamber and a second double glass sheet with an air chamber forms the photovoltaic window. Everything is framed in a PVC structure. The effective dimensions of the a-Si photovoltaic module are 0,57 m x 1,17 m, equivalent to a standard measurement of 0,60 m x 1,20 m.
To know the electrical characteristics of PV window in standard test conditions, a test in accordance with IEC standard 61646 and 61215 was carried out. A peak power of 50,74 Wp was obtained and a power uncertainty of ± 6,78% was found. The PV window was placed in a test bench installed on the rooftop of the building of the Andalusian Institute of Renewable Energies, at Málaga (36,73 N; 4,55 W). The test bench allows an adjustment of both azimuth and inclination. A pyranometer was used to measure the global irradiance on the window plane, and a temperature sensor measures its temperature. The photovoltaic window was placed in vertical position facing South. A protocol for data collection that allows knowing the instantaneous power generated by the photovoltaic window has been developed. The irradiance received in a sunny day on the plane of the photovoltaic window was 4114 Wh/m2 and the energy produced was 71,2 Wh. These values are consistent with radiation data obtained from databases and the power value obtained from PV window under standard test conditions.
The production of electricity, the economic savings, and CO2 emissions avoided will be analyzed if PV semi-transparent windows were used to replace the glazing skylight of the Industrial Engineering School of Malaga. It will result a BIPV system of 122,73 kWp that could produce 198 MWh per year, save € 27738 and avoid the emission into the atmosphere of 76 tons of CO2.Universidad de Málaga. Campus de Excelencia Internacional AndalucÃa Tech
Performance of a Photovoltaic Pumping System
In this work, a PV pumping system was installed in a building at the University of Malaga. The system simulates a conventional PV pumping system which in real conditions would supply a small agricultural installation.
In the installation under examination it has been find that it is possible to improve the overall efficiency of the system obtaining a similar volume of water with a less photovoltaic modules installed. It can be concluded that the optimal performance allow a lower investment cost. Also a lower surface for the PV generator is a benefit.Pumping water with solar photovoltaic (PV) is an application of particular interest in isolated systems. This technology has proven over the years to be an effective way to supply drinking water to communities, as well as for agricultural use (irrigation) and livestock (troughs).
The earlier installations of PV pumping were based on the use of DC motors of medium and low power directly coupled to the PV generator operating centrifugal pumps. Later they have been proposing and using various types of systems based on different combinations of DC motors, AC motors, DC brushless motors, centrifugal pumps, positive displacement pumps, DC/DC converters and DC/AC inverters. They all have the common characteristic of being a result of specific developments to efficiently use in PV pumping systems.
In this work a PV pumping system was installed on a building at the University of Malaga. The system simulates a conventional PV pumping system. A set of experiments has been carried out to study the performance of the system.
In the installation studied, it has been proved that it is possible to improve the overall efficiency of the system by reducing the photovoltaic power installed to obtain the same volume of water. As a conclusion it may be said that a lower investment and less surface occupied by photovoltaic system is achieved.Universidad de Málaga. Campus de Excelencia Internacional AndalucÃa Tec
Religious Tourism in the Hill of Tepexpan: A new research approach-from dedifferentiation
This theoretical and methodological paper presents research undertaken to comprehend
the social dynamic of religious tourism in a traditional sanctuary located in the Hill of
Tepexpan, Mexico. Visitor experience, as tourist or pilgrim, has been little studied in
Mexican religious tourism literature, which has focused mainly on quantitative and
economics aspects. For this reason, a more holistic and comprehensive way to
understand the phenomenon is desirable, especially in destinations that receive a variety
of visitors with different practices and motivations.
The Tepexpan Hill Sanctuary has been a sacred place since Colonial times for two
ethnic groups: Mazahuas and OtomÃes. Their rituals and celebrations are good examples
of syncretism between Pre-Hispanic and Catholic beliefs. However, in recent years there
has been a rise of visitors that do not belong to the traditional pilgrimages, which may
lead to the existence of secular activities and motivations in the hill. Hence, there is a
need to understand the social practices of visitors, sacred or secular, in different spaces
during their stay in the sanctuary.
Using Collins-Kreiner’s dedifferentiation concept (2010) enriched with contributions
from Smith (1992), this research attempts to understand the Tepexpan Hill Sanctuary as
a ‘third space’ where tourism and pilgrimage practices coexist (Collins-Kreiner and
Gatrell, 2006). Ethnography seems to be the most suitable method of qualitative
research as religious tourism implies a quest for meaning in the visit. Studying the
similarities and intersections between tourism and pilgrimage is useful for visitor
management in religious sites. To achieve a sustainable management of the sanctuary in
the future, the proposed research can help to maximise benefits while minimising social
and cultural conflicts between actors with different interests in the destination
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