Evaluation of the Magnetic Field Generated by the Inverter of an Electric Vehicle

In hybrid and electric vehicles, passengers sit very close to an electric system of significant power, which means that they may be subjected to high electromagnetic fields. The hazards of long-term exposure to these fields must be taken into account when designing electric vehicles and their components. Among all the electric devices present in the power train, the electronic converter is the most difficult to analyze, given that it works with different frequencies. In this paper, a methodology to evaluate the magnetic field created by a power electronics converter is proposed. After a brief overview of the recommendations of electromagnetic fields exposure, the magnetic field produced by an inverter is analyzed using finite element techniques. The results obtained are compared to laboratory measurements, taken from a real inverter, in order to validate the model. Finally, results are used to draw some conclusions regarding vehicle design criteria and magnetic shielding efficiency.

Gravitational actions upon a tether in a non-uniform gravity field with arbitrary number of zonal harmonics

We develop general closed-form expressions for the mutual gravitational potential, resultant and torque acting upon a rigid tethered system moving in a non-uniform gravity field produced by an attracting body with revolution symmetry, such that an arbitrary number of zonal harmonics is considered. The final expressions are series expansion in two small parameters related to the reference radius of the primary and the length of the tether, respectively, each of which are scaled by the mutual distance between their centers of mass. A few numerical experiments are performed to study the convergence behavior of the final expressions, and conclude that for high precision applications it might be necessary to take into account additional perturbation terms, which come from the mutual Two-Body interaction.

Investigación de métodos de recuperación secundaria en yacimientos kársticos complejos en presencia de acuífero activo infinito

El yacimiento Casablanca es un campo petrolífero maduro en etapa de agotamiento considerado como el más grande del mar Mediterráneo. Lleva en explotación desde 1977 y tiene una producción acumulada de 22.6 MMm3 de petróleo. La formación productiva consiste en carbonatos karstificados del Grupo Basal Terciario y del Mesozoico. El mecanismo de drenaje identificado es por empuje de agua de un gran acuífero activo considerado como infinito ya que ha mantenido la presión al 95% de la original después de casi 40 años de producción. En el año 1999, los pozos asociados al campo Casablanca producían unos 500 m3/d de agua que era tratada y vertida al mar. Para cumplir con las leyes medio ambientales de la época, se convirtió el pozo Casablanca-9 en pozo sumidero con el objetivo de devolver a la formación toda el agua producida de una manera segura, limpia y totalmente respetuosa con el medio ambiente. Años después se observó que ésta inyección no era inocua, sino que tenía un impacto en la producción de petróleo. En la presente tesis se ha definido una metodología que, mediante la experimentación en campo con trazadores, pruebe la existencia de comunicación entre pozos productores y pozos sumidero, rompiendo así el paradigma instaurado en el campo que reza que no es posible la recuperación mejorada mediante inyección de agua en Casablanca debido al gran acuífero existente. Los resultados obtenidos serán el punto de partida para la construcción de un modelo de simulación que permita verificar que es posible la aplicación de técnicas IOR/EOR, y más concretamente la recuperación mejorada mediante inyección de agua en presencia de un acuífero activo infinito. ABSTRACT Casablanca is a brown field in the decline stage and is considered as the largest field in the Mediterranean Sea. It has been on production since 1977 and the cumulative production is 22.6 MMm3 of oil. The productive reservoir formation consists on complex karstified carbonates from Basal Tertiary Group and Mesozoic. The drive mechanism identified is water drive by a large aquifer considered as infinite acting due to the pressure maintenance at 95% of the original after near 40 years of production. In 1999, the wells associated to Casablanca field produced about 500 m3/d of water that was treated and disposed to the sea. In order to comply with the environmental laws at that time, Casablanca-9 was converted from producer to water disposal well with the objective to dispose all the water back to the formation in a safe, clean and environmental fully respectful way. Years later, it was observed that injection was not innocuous, but had an impact on oil production. The methodology defined in this thesis will demonstrate the existence of communication between producers and disposal wells through field experiments with tracers, breaking the paradigm established in the field that says it is not possible to apply waterflooding techniques in Casablanca due to the existence of a strong infinite acting aquifer. The results obtained will be the starting point in order to build a simulation model able to demonstrate that the application of IOR / EOR techniques are suitable, more specifically water flooding techniques in presence of an infinite active aquifer.

Neutron field characteristics of Ciemat's Neutron Standards Laboratory Hector Rene Vega-Carrillo

Monte Carlo calculations were carried out to characterize the neutron field produced by the calibration neutron sources of the Neutron Standards Laboratory at the Research Center for Energy, Environment and Technology (CIEMAT) in Spain. For 241AmBe and 252Cf neutron sources, the neutron spectra, the ambient dose equivalent rates and the total neutron fluence rates were estimated. In the calibration hall, there are several items that modify the neutron field. To evaluate their effects different cases were used, from point-like source in vacuum up to the full model. Additionally, using the full model, the neutron spectra were estimated to different distances along the bench; with these spectra, the total neutron fluence and the ambient dose equivalent rates were calculated. The hall walls induce the largest changes in the neutron spectra and the respective integral quantities. The free-field neutron spectrum is modified due the room return effect.

Self-organized colloidal quantum dots and metal nanoparticles for plasmon-enhanced intermediate-band solar cells

A colloidal deposition technique is presented to construct long-range ordered hybrid arrays of self-assembled quantum dots and metal nanoparticles. Quantum dots are promising for novel opto-electronic devices but, in most cases, their optical transitions of interest lack sufficient light absorption to provide a significant impact in their implementation. A potential solution is to couple the dots with localized plasmons in metal nanoparticles. The extreme confinement of light in the near-field produced by the nanoparticles can potentially boost the absorption in the quantum dots by up to two orders of magnitude. In this work, light extinction measurements are employed to probe the plasmon resonance of spherical gold nanoparticles in lead sulfide colloidal quantum dots and amorphous silicon thin-films. Mie theory computations are used to analyze the experimental results and determine the absorption enhancement that can be generated by the highly intense near-field produced in the vicinity of the gold nanoparticles at their surface plasmon resonance. The results presented here are of interest for the development of plasmon-enhanced colloidal nanostructured photovoltaic materials, such as colloidal quantum dot intermediate-band solar cells.

Análisis de las causas de dispersión en los resultados de las medidas del coeficiente de absorción acústica en cámara reverberante

El objetivo del presente Trabajo Fin de Máster es llevar a cabo un estudio de las causas de la precisión de los resultados de las medidas del coeficiente de absorción acústica en cámara reverberante, siguiendo el procedimiento descrito en la norma UNE-EN ISO 354 “Medición de la absorción acústica en una cámara reverberante”. En primer lugar, se han estudiado los fundamentos teóricos relacionados con el método de ensayo. A continuación, se ha detallado dicho método y se ha aplicado a un caso práctico con la instrumentación disponible en el laboratorio de Acústica de la Escuela. Puesto que el resultado de un ensayo únicamente se halla completo cuando está acompañado de una declaración acerca de la incertidumbre de dicho resultado, en el presente trabajo se ha aplicado a este método de ensayo, tanto el enfoque clásico de la GUM, como el método de Monte Carlo, para evaluar la incertidumbre y comparar los resultados obtenidos mediante las dos metodologías. Para estudiar la influencia que produce en el campo sonoro de una cámara reverberante la introducción de un material absorbente en su interior, se realizó un estudio mediante trazado de rayos de la cámara reverberante del CEIS. ABSTRACT The objective of this Master's Thesis is to study the causes of accuracy of the measurements results of sound absorption coefficient in a reverberation room, according to the procedure of standard UNE-EN ISO 354 "Measurement of sound absorption in a reverberation room ". Firstly, theoretical basis related to the test method have been studied. Then, this method has been defined and applied to a particular case with the instrumentation available in the Acoustics laboratory of the College. The test result must be accompanied by a statement of the uncertainty of the result. For this reason, Monte Carlo method and GUM uncertainty framework have been applied in this project for estimating uncertainty and comparing the results obtained by these two methodologies. In addition, a study was made in the reverberation room of CEIS, by ray tracing, to study the influence on the sound field produced by the introduction of an absorbent material inside of the room.

Water seepage beneath dams on soluble evaporite deposits: a laboratory and field study (Caspe Dam, Spain)

The paper presents analytical methods and results for assessing the variation in the concentration of sulphate (and other ions) over space and time in groundwater flowing through a soluble evaporite terrain beneath a dam. The influence of effective porosity, groundwater flow velocity and the specific rate of dissolution (K′) are considered. The theoretical analysis was tested in a scale model simulating a dam constructed on heavily karstified bedrock. A simple and useful method for assessing how much material is lost through dissolution and how the rate of dissolution changes over time is considered in the context of the Caspe Dam, Spain.

Impact of nitrogen uptake on field water balance in fertirrigated melon.

Agronomic management in Ciudad Real, a province in central Spain, is characteristic of semi-arid cropped areas whose water supplies have high nitrate (NO3?) content due to environmental degradation. This situation is aggravated by the existence of a restrictive subsurface layer of ?caliche? or hardpan at a depth of 0.60 m. Under these circumstances, fertirrigation rates, including nitrogen (N) fertilizer schedules, must be carefully calibrated to optimize melon yields while minimizing the N pollution and water supply. Such optimization was sought by fertilizing with different doses of N and irrigating at 100% of the ETc (crop evapotranspiration), adjusted for this crop and area. The N content in the four fertilizer doses used was: 0, 55, 82 and 109 kg N ha?1. Due to the NO3? content in the irrigation water, however, the actual N content was 30 kg ha?1 higher in all four treatments repeated in two different years. The results showed correlation between melon plant N uptake and drainage (Dr), which in turn affects the amount of N leached, as well as correlation between Dr and LAI (leaf area index) for each treatment. A fertilizer factor (?) was estimated through two methods, from difference in Dr and in LAI ratio with respect to the maximum N dose, to correct ETc based on N doses. The difference was found in the adjusted evapotranspiration in both years using the corresponding ? achieved 42?49 mm at vegetative period, depending on the method, and it was not significant at senescent period. Finally, a growth curve between N uptake and plant dry weight (DW) for each treatment was defined to confirm that the observed higher plant vigour, showing higher LAI and reduced Dr, was due mainly to higher N doses.