Global ETD Search

11	Damage Evolution of Pipeline API X52 Steel with Different Coating Conditions under Cathodic Protection in Soil and NS4 Solutions Li, Ximing 16 September 2014 (has links) No description available. Chemical Engineering pipeline coating electrochemical impedance spectroscopy transmission line model equivalent circuit damage evolution
12	Investigating Particle Cracking in Single- and Polycrystalline Nickel-Rich Cathodes using In Situ Impedance Spectroscopy Sjödin, Mattias January 2021 (has links) State-of-the-art Li-ion cathode materials are based on LiMO2 (M=Ni, Mn, Co) layered transition metal oxides (denoted NMC) with Ni-rich composition because of their high specific capacity. Yet, these materials suffer from poor capacity retention due to crack formation during de-/lithiation cycling. Particle cracking leads to exposure of new electrode surface which leads to Li-inventory loss, increased side reactions, and electric disconnection. Quantification of the extent of cracking is therefore desirable, especially during in situ whilst cycling of the Li-ion cell. Herein, we evaluate and improve an analytical methodology based on electrochemical impedance spectroscopy (EIS) in order to estimate the changes in electrochemically active surface area of both poly- and single-crystalline Ni0.8Mn0.1Co0.1(NMC811) active materials. A transmission-line model (TLM) applied to both non-blocking and blocking electrode condition was utilized in order to deconvolute and interpret the acquired experimental data. Fits of the complex TLM equivalent-circuits to the impedance spectra was facilitated by developing a global stochastic iterative function based on local multivariate optimization. Impedance analysis during short- term cycling showed that the single-crystalline NMC811 suffered from less particle cracking and side reactions compared to polycrystalline NMC811, which was also confirmed from post-mortem gas adsorption analysis. A novel approach to estimate the extent of particle cracking in commercial Li-ion cells by utilizing an empirically strong positive correlation between the charge-transfer capacitance and resistance was proposed. The work presented herein demonstrates the unique prospects of the EIS methodology in the development and research of future rechargeable batteries Electrochemical surface area particle cracking NMC811 transmission-line model equivalent-circuit fitting commercial Li-ion batteries Materials Chemistry Materialkemi
13	The application of negative refractive index metamaterials to mm and sub-mm wavelength instrumentation Mohamed, Imran January 2013 (has links) The manipulation of electromagnetic radiation via the use of periodic arrays of sub-wavelength metallic structures (unit cells), nowadays named "metamaterials", has been known of in the microwave engineering community for over fifty years. In the last decade interest in such sub-wavelength structures grew, mainly due to their ability to interact with radiation in ways natural materials could not e.g. by producing a negative refractive index (NRI). This project sought to see whether NRI metamaterials could provide benefits to the mm and sub-mm wavelength astronomical instrumentation currently in use. To aid rapid design and optimisation of devices made from a cascaded set of metamaterial unit cells, a hybridised Transmission Line (TL) model was developed where the matrix components used in the TL model were "seeded" with data taken from a Finite Element Method (FEM) model of a simpler structure. A comparison between the two found that the TL model was capable of providing results that differed from the FEM model by no more than ~10E−4 for the transmitted intensity, \|S21\|^2, and <1° for transmitted phase, arg(S21). A slab of material with a refractive index, n = −1, can exhibit an effect known as "superlensing". A three unit cell thick NRI slab was designed, manufactured and experimentally tested. It was found to be capable of producing an NRI across a fractional band of at least 21%, producing a refractive index value of n = −1 at around 90 GHz. The experimental and simulated transmission and reflection data show good match with each other. A highly birefringent air gap Half Wave Plate (HWP) was designed, manufactured and experimentally tested. Defining its useful bandwidth as the region where the phase difference, is equal to (−180 ± 3)° a single HWP had a fractional bandwidth of 0.3%. The bandwidth was extended by using the Pancharatnam method, developed in the 1950's to produce highly achromatic optical wave plates. The method however is applicable to other frequencies and polarisation control technologies. Optimising a three HWP TL-based Pancharatnam model, the HWP's modelled fractional bandwidth increased to 6.6%. Experimental data agrees with the model showing a plateauing of the phase difference at −180°. A highly birefringent polypropylene embedded Quarter Wave Plate (QWP) was also designed, manufactured and tested. Defining its useful bandwidth as the region where the differential phase is (90 ± 2)° a single QWP produced a fractional bandwidth of 0.6%. By optimising a four QWP TL-based Pancharatnam model, the QWP's performance was improved to 7.8%. Experimental data, whilst not in complete agreement with the model does show a reduction in the gradient of phase difference where it crossed 90°. It was found that current designs for NRI metamaterials fall short of the standards required to be used in quasi-optical astronomical instrumentation due to high dispersion and absorption. The high dispersion limits NRI metamaterials to uses in instruments built for narrowband applications. Whilst the Pancharatnam method can increase bandwidths where a flat differential phase response is required, this comes at the cost of increased absorption. To reach their full potential, NRI metamaterials' lossiness must be reduced e.g. possibly by cryogenic means or the use of "active" metamaterials. 621.382
14	Standardization of diffusion and porosity models for electrochemical systems Tröltzsch, Uwe, Kanoun, Olfa January 2010 (has links) For example for battery diagnosis it is essential to understand mechanisms during discharge and because of aging to optimize cell design and operating conditions. Therefore the overall battery behavior can be modeled by combining models of relevant mechanisms like porosity, charge transfer reaction and diffusion. The aim of this contribution is to define one transmission line model for modeling several of these mechanisms. Thereby a sophisticated normalization strategy allows to eliminate ambiguity and to quantify the influence of each model parameter. The results allow a better understanding of impedance measurements and can for example be used for battery diagnosis and simplified simulations of electrochemical systems. Fitting derived impedance models to measurement data by nonlinear parameter extraction techniques allows to monitor battery parameters during discharge and because of aging. Thereby a sophisticated normalization strategy is essential for unambiguous parameter extraction and useful to quantify the influence of each model parameter. info:eu-repo/classification/ddc/541 ddc:541 info:eu-repo/classification/ddc/537 ddc:537 Porosität Porosität, Leitungsmodell porosity, transmission line model
15	Remote Pressure Control - Considering Pneumatic Tubes in Controller Design Rager, David, Neumann, Rüdiger, Murrenhoff, Hubertus January 2016 (has links) In pneumatic pressure control applications the influence of tubes that connect the valve with the control volume ist mainly neglected. This can lead to stability and robustness issues and limit either control performance or tube length. Modeling and considering tube behavior in controller design procedure allows longer tubes while maintaining the required performance and robustness properties without need for manual tuning. The author\'s previously published Simplified Fluid Transmission Line Model and the proposed model-based controller design enable the specification of a desired pressure trajectory in the control volume while the pressure sensor is mounted directly at the valve. Thus wiring effort is reduced as well as cost and the chance of cable break or sensor disturbance. In order to validate the simulated results the proposed control scheme is implemented on a real-time system and compared to a state-of-the-art pressure regulating valve info:eu-repo/classification/ddc/620 ddc:620 info:eu-repo/classification/ddc/ZQ 5460 ddc:ZQ 5460
16	Corrosion Protection of Aluminum Alloy 2024-T3 by Al-Rich Primer Wang, Xi 17 October 2019 (has links) No description available. Materials Science Al-rich Primer AA2024-T3 Al-Zn-In aluminum alloys cathodic protection EIS transmission line model SEM TEM trivalent chrome process TCP B117 GMW14872 polarization coating pretreatment corrosion epoxy
17	Uma proposta de representação de sistemas de aterramento diretamente no domínio do tempo / Seixas, Claudiner Mendes de January 2017 (has links) Orientador: Sérgio Kurokawa / Resumo: Este trabalho apresenta uma proposta de representação de sistemas de aterramento elétrico diretamente no domínio do tempo, tendo como vantagem os benefícios da modelagem realizada no domínio da frequência, com os resultados fornecidos diretamente no domínio do tempo, sem passar por transformadas inversas (Laplace ou Fourier). Os modelos no domínio do tempo são facilmente inseridos nos softwares convencionais de análise transitória, onde as tensões e correntes são melhor compreendidas. A maior contribuição deste trabalho está no desenvolvimento de uma técnica capaz de representar o aterramento com elementos discretos e positivos de circuitos (resistores-R, capacitores-C e indutores-L). Assim, o circuito equivalente representativo do aterramento será sempre um circuito possível de ser implementado fisicamente. Nesta proposta o aterramento é inicialmente modelado no domínio da frequência, sua impedância harmônica é obtida e representada por meio de elementos discretos de circuitos (RLC) associados em série e/ou paralelo. Aterramentos constituídos por um eletrodo horizontal ou uma haste vertical foram representados por meio de aproximação usando o método dos mínimos quadrados (vector fitting), que permite obter a função racional equivalente à admitância do aterramento, a partir da qual são extraídos os ramos de circuitos e consequentemente o circuito equivalente. Apesar de ser possível representar uma infinidade de aterramentos, dependendo do comprimento e diâmetro do eletrodo/ha... (Resumo completo, clicar acesso eletrônico abaixo) / Doutor Aterramento elétrico Circuitos elétricos. Raio. Domínios do tempo e da frequência Função racional Impedância harmônica Modelo de linha de transmissão Modelo eletromagnético Resistividade do solo Resposta em frequência Atmospheric discharge Electric circuits Electrical grounding Electromagnetic model Frequency response Harmonic impedance Rational function Soil resistivity Time and frequency domains Transmission line model
18	Analyse et caractérisation des couplages substrat et de la connectique dans les circuits 3D : Vers des modèles compacts / Analysis and characterization of substrate and connection couplings in 3D circuits : Towards compact models Sun, Fengyuan 19 July 2013 (has links) L’intégration 3D est la solution technologique la plus prometteuse pour suivre le niveau d’intégration dictée par la loi de Moore (cf. more than Moore, versus more Moore). Elle entraine des travaux de recherche importants depuis une douzaine d’années. Elle permet de superposer différents circuits et composants dans un seul boitier. Son principal avantage est de permettre une association de technologies hétérogènes et très spécialisées pour la constitution d’un système complet, tout en préservant un très haut niveau de performance grâce à des connexions très courtes entre ces différents circuits. L’objectif de ce travail est de fournir des modélisations cohérentes de via traversant, ou/et de contacts dans le substrat, avec plusieurs degrés de finesse/précision, pour permettre au concepteur de haut niveau de gérer et surtout d’optimiser le partitionnement entre les différentes strates. Cette modélisation passe par le développement de plusieurs vues à différents niveaux d’abstraction: du modèle physique au modèle « haut niveau ». Elle devait permettre de répondre à différentes questions rencontrées dans le processus de conception :- le modèle physique de via basé sur une simulation électromagnétique 2D ou 3D (solveur « éléments finis ») est utilisé pour optimiser l’architecture du via (matériaux, dimensions etc.) Il permet de déterminer les performances électriques des via, notamment en haute fréquence. Les simulations électromagnétiques permettent également de quantifier le couplage entre via adjacents. - le modèle compact analytique de via et de leur couplage, basé sur une description de type ligne de transmission ou noyaux de Green, est utilisé pour les simulations au niveau bloc, ainsi que des simulations de type Spice. Les modèles analytiques sont souvent validés par rapport à des mesures et/ou des modèles physiques. / The 3D integration is the most promising technological solution to track the level of integration dictated by Moore's Law (see more than Moore, Moore versus more). It leads to important research for a dozen years. It can superimpose different circuits and components in one box. Its main advantage is to allow a combination of heterogeneous and highly specialized technologies for the establishment of a complete system, while maintaining a high level of performance with very short connections between the different circuits. The objective of this work is to provide consistent modeling via crossing, and / or contacts in the substrate, with various degrees of finesse / precision to allow the high-level designer to manage and especially to optimize the partitioning between the different strata. This modelization involves the development of multiple views at different levels of abstraction: the physical model to "high level" model. This would allow to address various issues faced in the design process: - The physical model using an electromagnetic simulation based on 2D or 3D ( finite element solver ) is used to optimize the via (materials, dimensions etc..) It determines the electrical performance of the via, including high frequency. Electromagnetic simulations also quantify the coupling between adjacent via. - The analytical compact of via their coupling model, based on a description of transmission line or Green cores is used for the simulations at the block level and Spice type simulations. Analytical models are often validated against measurements and / or physical models. Electronique Conception de cricuits numériques Intégration 3D Circuits intégrés 3D Modélisation Couplage de substrats Fonction de Green Modèle de ligne de transmission Fréquence radio (RF) Extraction de l'impédence Electronics Through-Cilicon Vias 3D Integrated Circuits Compact modeling Substrates coupling Green's function Transmission Line Model Radio Frequency - RF Impedance Extraction 621.381 520 72
19	Uma proposta de representação de sistemas de aterramento diretamente no domínio do tempo / A proposal of representation of grounding systems directly in the time domain Seixas, Claudiner Mendes de [UNESP] 25 August 2017 (has links) Submitted by CLAUDINER MENDES DE SEIXAS null (claudiner2010@gmail.com) on 2017-10-21T02:06:24Z No. of bitstreams: 1 Tese_Claudiner_seixas_ac_dr_ilha.pdf: 3441885 bytes, checksum: 9e1f3e2ff82a0a8220457c535d4cea55 (MD5) / Approved for entry into archive by Luiz Galeffi (luizgaleffi@gmail.com) on 2017-10-26T14:27:13Z (GMT) No. of bitstreams: 1 seixas_cm_dr_ilha.pdf: 3441885 bytes, checksum: 9e1f3e2ff82a0a8220457c535d4cea55 (MD5) / Made available in DSpace on 2017-10-26T14:27:13Z (GMT). No. of bitstreams: 1 seixas_cm_dr_ilha.pdf: 3441885 bytes, checksum: 9e1f3e2ff82a0a8220457c535d4cea55 (MD5) Previous issue date: 2017-08-25 / Este trabalho apresenta uma proposta de representação de sistemas de aterramento elétrico diretamente no domínio do tempo, tendo como vantagem os benefícios da modelagem realizada no domínio da frequência, com os resultados fornecidos diretamente no domínio do tempo, sem passar por transformadas inversas (Laplace ou Fourier). Os modelos no domínio do tempo são facilmente inseridos nos softwares convencionais de análise transitória, onde as tensões e correntes são melhor compreendidas. A maior contribuição deste trabalho está no desenvolvimento de uma técnica capaz de representar o aterramento com elementos discretos e positivos de circuitos (resistores-R, capacitores-C e indutores-L). Assim, o circuito equivalente representativo do aterramento será sempre um circuito possível de ser implementado fisicamente. Nesta proposta o aterramento é inicialmente modelado no domínio da frequência, sua impedância harmônica é obtida e representada por meio de elementos discretos de circuitos (RLC) associados em série e/ou paralelo. Aterramentos constituídos por um eletrodo horizontal ou uma haste vertical foram representados por meio de aproximação usando o método dos mínimos quadrados (vector fitting), que permite obter a função racional equivalente à admitância do aterramento, a partir da qual são extraídos os ramos de circuitos e consequentemente o circuito equivalente. Apesar de ser possível representar uma infinidade de aterramentos, dependendo do comprimento e diâmetro do eletrodo/haste combinado com determinadas resistividade e permissividade elétricas do solo, esse método pode não garantir que todos os elementos RLC sejam positivos. Por isso foi desenvolvido uma nova técnica e testada em aplicações com configurações de aterramento mais complexas (malhas). Essa técnica fornece resultados precisos e garante que todos os elementos RLC serão positivos. Sua validação foi realizada comparando os resultados propostos com os resultados obtidos pelo modelo de linha de transmissão (no caso de eletrodo/haste) e pelo modelo eletromagnético híbrido HEM (no caso das malhas). Essa técnica permite o uso de qualquer modelo capaz de fornecer a impedância harmônica, podendo ser aplicada a configurações genéricas de aterramento, o que a torna muito versátil e atrativa. / This work presents a proposal to represent of electrical grounding systems directly in time domain, taking into account the benefits in frequency domain modelling, without employing inverse Laplace or Fourier transforms. The time domain models are easily inserted in conventional electromagnetic transient software, where voltages and currents are better understood. The main contribution of this work is the development of a technique that can represent grounding by discrete and positive circuits elements (R-resistors, C-capacitors and L-inductors). The representation of the grounding is an electric circuit, possible to be implemented physically. Grounding systems is initially modelled in the frequency domain, where its harmonic impedance is obtained and then represented by elements of circuit (RLC) made in series and/or parallel association. Grounding systems constituted by a horizontal electrode or a vertical rod were represented by means of an approximation using the method of the least squares (vector fitting). It reproduces the rational function equivalent to the admittance of the grounding, which branches of circuits are extracted, forming an equivalent circuit. Although it is possible to represent an infinity of groundings, depending on the length and diameter of the electrode / rod combined with certain electrical resistivity and permittivity of the soil, this technique may not guarantee that all RLC elements are positive. However, a new technique was developed and tested in more complex grounding systems (grids). This technique provides accurate results and ensures that all RLC elements will be positive. Its validation was performed comparing the proposed results with the results obtained by the TLM (Transmission Line Model) employed for the horizontal electrodes and vertical rods and by the HEM (Hybrid Electromagnetic Model) employed for grounding grids. This technique allows the use of any model capable of providing harmonic impedance, and can be applied to generic ground configurations, making it very attractive to electromagnetics transient analyses. Aterramento elétrico Circuitos elétricos Descarga atmosférica Domínios do tempo e da frequência Função racional Impedância harmônica Modelo de linha de transmissão Modelo eletromagnético Resistividade do solo Resposta em frequência Atmospheric discharge Electric circuits Electrical grounding Electromagnetic model Frequency response Harmonic impedance Rational function Soil resistivity Time and frequency domains Transmission line model
20	Voltage Transients in the Field Winding of Salient Pole Wound Synchronous Machines : Implications from fast switching power electronics Felicetti, Roberto January 2021 (has links) Wound Field Synchronous Generators provide more than 95% of the electricity need worldwide. Their primacy in electricity production is due to ease of voltage regulation, performed by simply adjusting the direct current intensity in their rotor winding. Nevertheless, the rapid progress of power electronics devices enables new possibilities for alternating current add-ins in a more than a century long DC dominated technology. Damping the rotor oscillations with less energy loss than before, reducing the wear of the bearings by actively compensating for the mechanic unbalance of the rotating parts, speeding up the generator with no need for additional means, these are just few of the new applications which imply partial or total alternated current supplying of the rotor winding. This thesis explores what happens in a winding traditionally designed for the direct current supply when an alternated current is injected into it by an inverter. The research focuses on wound field salient pole synchronous machines and investigates the changes in the field winding parameters under AC conditions. Particular attention is dedicated to the potentially harmful voltage surges and voltage gradients triggered by voltage-edges with large slew rate. For this study a wide frequency band simplified electromagnetic model of the field winding has been carried out, experimentally determined and validated. Within the specific application of the fast field current control, the research provides some references for the design of the rotor magnetic circuit and of the field winding. Finally the coordination between the power electronics and the field winding properties is addressed, when the current control is done by means of a long cable or busbars, in order to prevent or reduce the ringing. apparent resistance cable modeling current control transmission line model eddy currents field winding frequency analysis response Fourier Transform impedance mismatch main inductance overvoltage parasitic capacitance partial discharge quality factor ringing slew rate stray inductance voltage gradient winding resonance frequency Elektroteknik och elektronik

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