Global ETD Search

31	Evaluation of the Efficacy of Wildlife Warning Reflectors to Mitigate Wildlife-Vehicle Collisions on Roads Benten, Anke 07 September 2018 (has links) No description available. 634 Wildlife Warning Reflectors Deer mirrors Ungulate Roadside Behavior Animal-Vehicle Collisions Deer-Vehicle Collisions Forstwirtschaft (PPN621305413)
32	Determinação experimental de parâmetros de física de reatores utilizando refletor de água pesada no reator IPEN/MB-01 / Experimental determination of reactor physics parameters using heavy water reflector at the IPEN/MB-01 research reactor facility MAEDA, REINALDO de M. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:35:04Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:00:44Z (GMT). No. of bitstreams: 0 / Dissertação (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP REACTOR PHYSICS HEAVY WATER PLANTS RESEARCH REACTORS NEUTRON REFLECTORS ABSORPTION SPECTROSCOPY CROSS SECTIONS CONTROL ELEMENTS REACTOR CORES
33	Determinação experimental de parâmetros de física de reatores utilizando refletor de água pesada no reator IPEN/MB-01 / Experimental determination of reactor physics parameters using heavy water reflector at the IPEN/MB-01 research reactor facility MAEDA, REINALDO de M. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:35:04Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:00:44Z (GMT). No. of bitstreams: 0 / Este trabalho apresenta a realização de experimentos no reator nuclear IPEN/MB-01 submetido à presença de um refletor com água pesada instalado na sua face oeste. Após a instalação do refletor no reator foram conduzidos três tipos de experimentos: A calibração das barras de controle, a verificação da influência do aumento da temperatura do moderador na reatividade e a medição das taxas de reações por meio da irradiação de fios e folhas de ativação. Devido às propriedades nucleares de interação de nêutrons com água pesada, notadamente sua elevada capacidade de espalhamento e sua baixa capacidade de absorção, é possível notar alterações no funcionamento do reator observadas pelas mudanças dos padrões de retiradas e inserções de barras de controle no núcleo. Essas alterações são apresentadas no decorrer do trabalho. / Dissertação (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP reactor physics heavy water plants research reactors neutron reflectors absorption spectroscopy cross sections control elements reactor cores
34	Speciální reflektory pro širokopásmové dipólové antény / Special reflectors for wideband dipole antennas Velička, Pavel January 2012 (has links) The thesis is focused on special corrugated reflectors for ultra-wideband antennas. Corrugated reflectors are divided into a type H and a type E. Both these types are mutually combined. All those reflectors are simulated and subsequently analyzed. The thesis also deals with different types of broadband dipoles, which are completed by investigated types of reflectors. Created reflector antennas are then compared. For antennas exhibiting the best parameters, we performed simulations of the transmission between two antennas. For the simulations, we used CST Microwave Studio. Selected antennas were manufactured and measured. Consequent simulations were aimed to detect differences between the simulated and measured results.
35	Optical Efficiency of Low-Concentrating Solar Energy Systems with Parabolic Reflectors Brogren, Maria January 2004 (has links) <p>Solar electricity is a promising energy technology for the future, and by using reflectors for concentrating solar radiation onto photovoltaic cells, the cost per produced kWh can be significantly reduced. The optical efficiency of a concentrating system determines the fraction of the incident energy that is transferred to the cells and depends on the optical properties of the system components. In this thesis, low-concentrating photovoltaic and photovoltaic-thermal systems with two-dimensional parabolic reflectors were studied and optimised, and a new biaxial model for the incidence angle dependence of the optical efficiency was proposed.</p><p>Concentration of light generally results in high cell temperatures, and the uneven irradiance distribution on cells with parabolic reflectors leads to high local currents and temperatures, which reduce fill-factor and voltage. Cooling the cells by means of water increases the voltage and makes it possible to utilize the thermal energy. The performance of a 4X concentrating photovoltaic-thermal system was evaluated. If operated at 50°C, this system would produce 250 kWh<sub>electrical</sub> and 800 kWh<sub>thermal</sub> per m<sup>2</sup> cell area and year. Optical performance can be increased by 20% by using better reflectors and anti-reflectance glazing.</p><p>Low-concentrating photovoltaic systems for façade-integration were studied and optimised for maximum annual electricity production. The optimisation was based on measured short-circuit currents versus solar altitude. Measurements were performed outdoors and in a solar simulator. It was found that the use of 3X parabolic reflectors increases the annual electricity production by more than 40%. High solar reflectance is crucial to system performance but by using a low-angle scattering reflector, the fill-factor and power are increased due to a more even irradiance on the modules.</p><p>Long-term system performance depends on the durability of the components. The optical properties and degradation of reflector materials were assessed using spectrophotometry, angular resolved scatterometry, Fresnel modelling, optical microscopy, and surface profilometry before and after ageing. The degradation of reflectors was found to be strongly dependent on material composition and environmental conditions. Back surface mirrors, all-metal reflectors, and polymer-metal laminates degraded in different ways, and therefore accelerated ageing must be tailored for testing of different types of reflector materials. However, new types of reflector laminates showed a potential for increasing the cost-effectiveness of low-concentrating solar energy systems.</p> Engineering physics Photovoltaic cells Photovoltaic-thermal systems Parabolic reflectors Optical properties Reflector materials Optical efficiency Accelerated ageing Outdoor ageing Building-integrated photovoltaics Teknisk fysik Engineering physics Teknisk fysik
36	Contribution à l’étude de la réflectance et du confinement des modes dans les systèmes optiques stratifiés VANDENBEM, Cédric 15 December 2006 (has links) Contribution à l’étude de la réflectance et du confinement des modes dans les systèmes optiques stratifiés Résumé : Ce travail prolonge les études du changement de réflectivité des systèmes optiques stratifiés sous des contraintes mécanique et électrique. D’abord, nous quantifions le déplacement de la bande interdite photonique suite à une modification de l’angle d’incidence. Il en dérive une technologie bio-inspirée. Ensuite, c’est un champ électrique externe qui contrôle les propriétés de réflexion et de polarisation d’une multicouche construite à partir de cristaux liquides. Enfin, nous distinguons deux manières de confiner l’énergie électromagnétique. Ce travail s’attache à comprendre la nature des modes qui se propagent à la surface des milieux stratifiés. Par ailleurs, il montre que l’association de matériau gauche et de matériau droit pour former un guide d’onde permet de réduire la vitesse de la lumière de plusieurs ordres de grandeur. Contribution to the study of the reflectance and the mode confinement in optical stratified systems Abstract : This work extends the studies of change in reflectance in optical stratified systems under mechanical and electrical constraints. In the first part, we quantify the shift of the photonic bandgap following, a modification in the angle of incidence. We define the tools for the design of bio-inspired Bragg mirrors. In the second part, we adjust the reflection properties of a multilayer stack made of liquid crystals with an external electric field. Furthermore, we examine two distinct ways of producing light confinement. First, we contribute to the understanding of the nature of electromagnetic modes propagating at the surface of stratified media. Second, we show that a waveguide made of left- and right-handed materials can reduce the speed of light by several orders of magnitudes. Lumière lente Ondes guidées Dispositifs à cristaux liquides Réflecteurs de Bragg Couleurs interférentielles Multicouches Slow light Liquid crystal devices Guided waves Interferential color multilayer stacks Bragg reflectors
37	Optical Efficiency of Low-Concentrating Solar Energy Systems with Parabolic Reflectors Brogren, Maria January 2004 (has links) Solar electricity is a promising energy technology for the future, and by using reflectors for concentrating solar radiation onto photovoltaic cells, the cost per produced kWh can be significantly reduced. The optical efficiency of a concentrating system determines the fraction of the incident energy that is transferred to the cells and depends on the optical properties of the system components. In this thesis, low-concentrating photovoltaic and photovoltaic-thermal systems with two-dimensional parabolic reflectors were studied and optimised, and a new biaxial model for the incidence angle dependence of the optical efficiency was proposed. Concentration of light generally results in high cell temperatures, and the uneven irradiance distribution on cells with parabolic reflectors leads to high local currents and temperatures, which reduce fill-factor and voltage. Cooling the cells by means of water increases the voltage and makes it possible to utilize the thermal energy. The performance of a 4X concentrating photovoltaic-thermal system was evaluated. If operated at 50°C, this system would produce 250 kWhelectrical and 800 kWhthermal per m2 cell area and year. Optical performance can be increased by 20% by using better reflectors and anti-reflectance glazing. Low-concentrating photovoltaic systems for façade-integration were studied and optimised for maximum annual electricity production. The optimisation was based on measured short-circuit currents versus solar altitude. Measurements were performed outdoors and in a solar simulator. It was found that the use of 3X parabolic reflectors increases the annual electricity production by more than 40%. High solar reflectance is crucial to system performance but by using a low-angle scattering reflector, the fill-factor and power are increased due to a more even irradiance on the modules. Long-term system performance depends on the durability of the components. The optical properties and degradation of reflector materials were assessed using spectrophotometry, angular resolved scatterometry, Fresnel modelling, optical microscopy, and surface profilometry before and after ageing. The degradation of reflectors was found to be strongly dependent on material composition and environmental conditions. Back surface mirrors, all-metal reflectors, and polymer-metal laminates degraded in different ways, and therefore accelerated ageing must be tailored for testing of different types of reflector materials. However, new types of reflector laminates showed a potential for increasing the cost-effectiveness of low-concentrating solar energy systems. Engineering physics Photovoltaic cells Photovoltaic-thermal systems Parabolic reflectors Optical properties Reflector materials Optical efficiency Accelerated ageing Outdoor ageing Building-integrated photovoltaics Teknisk fysik Engineering physics Teknisk fysik
38	Optimization of inverse reflector design Mas Baixeras, Albert 30 March 2011 (has links) Aquesta tesi presenta un nou mètode pel disseny invers de reflectors. Ens hem centrat en tres temes principals: l’ús de fonts de llum reals i complexes, la definició d’un algoritme ràpid pel càlcul de la il•luminació del reflector, i la definició d’un algoritme d’optimització per trobar més eficientment el reflector desitjat. Les fonts de llum estan representades per models near-field, que es comprimeixen amb un error molt petit, fins i tot per fonts de llum amb milions de raigs i objectes a il•luminar molt propers. Llavors proposem un mètode ràpid per obtenir la distribució de la il•luminació d’un reflector i la seva comparació amb la il•luminació desitjada, i que treballa completament en la GPU. Finalment, proposem un nou mètode d’optimització global que permet trobar la solució en menys passos que molts altres mètodes d’optimització clàssics, i alhora evitant mínims locals. / This thesis presents new methods for the inverse reﬂector design problem. We have focused on three main topics: the use of real and complex light sources, the deﬁnition of a fast lighting simulation algorithm to compute the reﬂector lighting, and the deﬁnition of an optimization algorithm to more eﬃciently ﬁnd the desired reﬂector. The light sources are represented by near-field datasets, that are compressed with a low error, even with millions of rays and for very close objects. Then, we propose a fast method to obtain the outgoing light distribution of a reflector and the comparison with the desired one, working completely in the GPU. Finally, a new global optimization method is proposed to search the solution in less steps than most other classic optimization methods, also avoiding local minima. Infografia Computer graphics Reflectors Reflectores Disseny invers Invers design Diseño inverso Near field Algoritme d'optimització Optimization algorithm Algoritmo de optimización GPU 004 68
39	Χρήση ανακλαστήρων σε συστήματα ηλιακής ενέργειας Ζαφειράκης, Παναγιώτης 06 November 2014 (has links) Η ηλιακή ενέργεια αποτελεί μια από τις κύριες Ανανεώσιμες Πηγές Ενέργειας (ΑΠΕ). Μπορεί να αξιοποιηθεί είτε μετατρεπόμενη σε ηλεκτρισμό είτε σε θερμότητα. Για τη μετατροπή της σε ηλεκτρισμό η κύρια τεχνολογία που χρησιμοποιείται είναι η τεχνολογία των φωτοβολταϊκών. Αντίστοιχα, για την μετατροπή της σε θερμότητα χρησιμοποιούνται ευρέως οι τεχνολογίες των επίπεδων θερμικών ηλιακών συλλεκτών και των θερμικών συλλεκτών σωλήνων κενού. Βασικό ζητούμενο και στις δύο περιπτώσεις αποτελεί η μεγιστοποίηση της αποδοτικότητας τους. Μια από τις μεθόδους που μπορεί να χρησιμοποιηθεί για την αύξηση της αποδοτικότητας μιας ηλιακής συσκευής είναι η χρήση ενισχυτικών ανακλαστήρων. Επίσης, στις συνήθεις τεχνολογίες φωτοβολταϊκών που εφαρμόζονται σήμερα, η μείωση της θερμοκρασίας λειτουργίας τους βελτιώνει την απόδοση τους. Η διπλωματική ερευνητική εργασία που ακολουθεί περιλαμβάνει τη συγκριτική μελέτη φωτοβολταϊκών διατάξεων, επίπεδων θερμικών συλλεκτών και συλλεκτών σωλήνων κενού. Μελετήθηκαν συστήματα φωτοβολταϊκών με τη χρήση διαφόρων μεθόδων ψύξης, ενεργητικών και παθητικών. Επίσης μελετήθηκε η αύξηση της αποδιδόμενης ηλεκτρικής ενέργειας των φωτοβολταϊκών με χρήση ενισχυτικών ανακλαστήρων (ημικατοπτρικός ανακλαστήρας, ανακλαστήρας αλουμινίου (ματ), λευκός ανακλαστήρας). Υλοποιήθηκαν συνδυαστικά συστήματα με ταυτόχρονη ψύξη και χρήση ενισχυτικού ανακλαστήρα και μελετήθηκε η συμπεριφορά τους. Ακόμα, μελετήθηκε η αύξηση της αποδιδόμενης θερμικής ενέργειας επίπεδου ηλιακού θερμικού συλλέκτη με προσθήκη ενισχυτικών ανακλαστήρων (καθρέπτης, ανακλαστήρας αλουμινίου και λευκός ανακλαστήρας). Τέλος, κατασκευάστηκε διάταξη θερμικού συλλέκτη σωλήνα κενού με επίπεδη ανακλαστική επιφάνεια. Πραγματοποιήθηκαν πειράματα με την προσθήκη ενισχυτικών ανακλαστήρων (ημικατοπτρικός ανακλαστήρας, ανακλαστήρας αλουμινίου και λευκός ανακλαστήρας) και μελετήθηκε η αύξηση της θερμικής απόδοσης του συλλέκτη. Με βάση τα αποτελέσματα των πειραμάτων, εξάγονται αντίστοιχα συμπεράσματα και παρατίθενται προτάσεις σχετικά με τις διατάξεις αυτές. / Solar energy is one of the main Renewable Energy Sources (RES). It can be utilized by being transformed into electricity or heat. The main technology used to transform solar energy into electricity is photovoltaics. Respectively, flat plate solar thermal collectors and evacuated tube solar thermal collectors are the technologies mostly used to transform solar energy into usable heat. One of the main concerns on both cases, is the maximization of their performance. The use of booster reflectors is one of the methods that can be implemented in order to increase the performance of a solar device. Also, a method to increase the performance of the main photovoltaic technologies used at the moment, is to cool them. The following diploma – research thesis includes the comparative study of photovoltaic systems, flat plate solar thermal collectors and evacuated tube solar thermal collectors. Photovoltaic systems with the use of various cooling methods, active and passive, were studied. The increase of the photovoltaic electrical output using booster reflectors (semi specular, aluminum reflector and white reflector) was also studied. Combined systems were implemented, with simultaneous cooling and usage of booster reflector, and their behavior was observed. In addition, the increase of the thermal output of a flat plate collector by using booster reflectors (mirror, aluminum reflector and white reflector) was studied. Finally, an evacuated tube solar thermal collector system with an embedded reflective surface was implemented. Experiments were carried out with the addition of booster reflectors (semi specular, aluminum reflector and white reflector) and the increase of the collector’s thermal output was measured. Based on the experimental results, conclusions and suggestions are made about these systems. Ηλιακή ενέργεια 621.47 Solar energy Photovoltaic systems Solar thermal collectors Booster reflectors Photovoltaic cooling methods
40	Modélisation numérique du couplage thermique-photoélectrique pour des modules photovoltaïques sous faible concentration / Numerical modelling of the coupling of thermal and photoelectric effects for the photovoltaic modules under low concentration Pavlov, Marko 25 October 2016 (has links) La faible exploitation de l'irradiation inter-rangée limite la production des modules photovoltaïques (PV). Le projet "Aleph" explore l'intérêt d'ajouter des réflecteurs plans entre les rangées pour augmenter la production, et dégage des règles claires permettant l'optimisation géométrique de l'ensemble. Ce travail présente une modélisation multiphysique du système, des simulations numériques de son comportement, et la comparaison avec des données expérimentales. Deux technologies de module PV sont considérées : silicium amorphe (a-Si) et silicium polycristallin (p-Si). Les mesures montrent des gains énergétiques importants grâce aux réflecteurs. Les gains sont plus importants pour les modules a-Si que p-Si. La modélisation associe un modèle optique de lancers de rayons par méthode Monté-Carlo sous EDStaR, un modèle photoélectrique sous SPICE, et un modèle thermique empirique. Le modèle complet est calibré avec des données expérimentales en utilisant un algorithme évolutif. Une fois calibré, le modèle démontre une bonne performance en simulant la puissance générée par les modules en fonction des données atmosphériques et radiatives. / The poor utilisation of the inter-row irradiation limits the production of photovoltaic (PV) modules. The "Aleph" project explores the potential of adding inter-row planar reflectors to increase the system yield, and defines clear rules for optimal settings of such systems in a given location and under a given climate. This work presents a multiphysics model of the system, numerical simulations of its behaviour, and the comparison with experimental data. Two PV module technologies are tested: amorphous silicon (a-Si) and polycrystalline silicon (p-Si). The experimental data show significant gains in produced energy brought by the reflectors. The gains are higher for a-Si modules compared to p-Si. The modelling work combines a Monte-Carlo ray-tracing optical model (EDStaR), a photo-electric model (SPICE), and an empirical thermal model. The complete model is calibrated with measurements using an evolutionary algorithm. Once calibrated, the model demonstrates good performance in predicting the module power output as a function of atmospheric and irradiance data. Modélisation multiphysique Effets photoelectriques Modules photovoltaïques Faible concentration Silicium amorphe Silicium polycristalin Réflecteurs plans Multiphysics modelling Photoelectric effects Photovolotaic modules Low concentration Amorphous silicon Polycrystalline silicon Planar reflectors

Search results