PMHS Shoulder Stiffness Determined by Lateral and Oblique Impacts

Caupp, Sarah N.

05 September 2014

No description available.

Anatomy and Physiology

Biomechanics

Biomedical Engineering

shoulder

side impact

PMHS

quasi-static testing

dynamic testing

lateral loading condition

oblique loading condition

Quasi-static, Deformable-body Analysis of a Face Gear-Thrust Bearing System

Prewitt, Thomas Joseph

29 August 2012

No description available.

Engineering

Mechanical Engineering

Face Gear

Quasi-static

Deformable-body Analysis

Finite Element Analysis

Thrust Bearing

FEA

Transmission3D

Modelling and analysis of complex electromagnetic problems using FDTD subgridding in hybrid computational methods : development of hybridised Method of Moments, Finite-Difference Time-Domain method and subgridded Finite-Difference Time-Domain method for precise computation of electromagnetic interaction with arbitrarily complex geometries

Ramli, Khairun Nidzam

January 2011

The main objective of this research is to model and analyse complex electromagnetic problems by means of a new hybridised computational technique combining the frequency domain Method of Moments (MoM), Finite-Difference Time-Domain (FDTD) method and a subgridded Finite-Difference Time-Domain (SGFDTD) method. This facilitates a significant advance in the ability to predict electromagnetic absorption in inhomogeneous, anisotropic and lossy dielectric materials irradiated by geometrically intricate sources. The Method of Moments modelling employed a two-dimensional electric surface patch integral formulation solved by independent linear basis function methods in the circumferential and axial directions of the antenna wires. A similar orthogonal basis function is used on the end surface and appropriate attachments with the wire surface are employed to satisfy the requirements of current continuity. The surface current distributions on structures which may include closely spaced parallel wires, such as dipoles, loops and helical antennas are computed. The results are found to be stable and showed good agreement with less comprehensive earlier work by others. The work also investigated the interaction between overhead high voltage transmission lines and underground utility pipelines using the FDTD technique for the whole structure, combined with a subgridding method at points of interest, particularly the pipeline. The induced fields above the pipeline are investigated and analysed. FDTD is based on the solution of Maxwell's equations in differential form. It is very useful for modelling complex, inhomogeneous structures. Problems arise when open-region geometries are modelled. However, the Perfectly Matched Layer (PML) concept has been employed to circumvent this difficulty. The establishment of edge elements has greatly improved the performance of this method and the computational burden due to huge numbers of time steps, in the order of tens of millions, has been eased to tens of thousands by employing quasi-static methods. This thesis also illustrates the principle of the equivalent surface boundary employed close to the antenna for MoM-FDTD-SGFDTD hybridisation. It depicts the advantage of using hybrid techniques due to their ability to analyse a system of multiple discrete regions by employing the principle of equivalent sources to excite the coupling surfaces. The method has been applied for modelling human body interaction with a short range RFID antenna to investigate and analyse the near field and far field radiation pattern for which the cumulative distribution function of antenna radiation efficiency is presented. The field distributions of the simulated structures show reasonable and stable results at 900 MHz. This method facilitates deeper investigation of the phenomena in the interaction between electromagnetic fields and human tissues.

004.19

Computation of electromagnetic fields in assemblages of biological cells using a modified finite difference time domain scheme : computational electromagnetic methods using quasi-static approximate version of FDTD, modified Berenger absorbing boundary and Floquet periodic boundary conditions to investigate the phenomena in the interaction between EM fields and biological systems

See, Chan Hwang

January 2007

There is an increasing need for accurate models describing the electrical behaviour of individual biological cells exposed to electromagnetic fields. In this area of solving linear problem, the most frequently used technique for computing the EM field is the Finite-Difference Time-Domain (FDTD) method. When modelling objects that are small compared with the wavelength, for example biological cells at radio frequencies, the standard Finite-Difference Time-Domain (FDTD) method requires extremely small time-step sizes, which may lead to excessive computation times. The problem can be overcome by implementing a quasi-static approximate version of FDTD, based on transferring the working frequency to a higher frequency and scaling back to the frequency of interest after the field has been computed. An approach to modeling and analysis of biological cells, incorporating the Hodgkin and Huxley membrane model, is presented here. Since the external medium of the biological cell is lossy material, a modified Berenger absorbing boundary condition is used to truncate the computation grid. Linear assemblages of cells are investigated and then Floquet periodic boundary conditions are imposed to imitate the effect of periodic replication of the assemblages. Thus, the analysis of a large structure of cells is made more computationally efficient than the modeling of the entire structure. The total fields of the simulated structures are shown to give reasonable and stable results at 900MHz, 1800MHz and 2450MHz. This method will facilitate deeper investigation of the phenomena in the interaction between EM fields and biological systems. Moreover, the nonlinear response of biological cell exposed to a 0.9GHz signal was discussed on observing the second harmonic at 1.8GHz. In this, an electrical circuit model has been proposed to calibrate the performance of nonlinear RF energy conversion inside a high quality factor resonant cavity with known nonlinear device. Meanwhile, the first and second harmonic responses of the cavity due to the loading of the cavity with the lossy material will also be demonstrated. The results from proposed mathematical model, give good indication of the input power required to detect the weakly effects of the second harmonic signal prior to perform the measurement. Hence, this proposed mathematical model will assist to determine how sensitivity of the second harmonic signal can be detected by placing the required specific input power.

571.4

Évaluation de la biomécanique cardiovasculaire par élastographie ultrasonore non-invasive

Porée, Jonathan

09 1900

L’élastographie est une technique d’imagerie qui vise à cartographier in vivo les propriétés mécaniques des tissus biologiques dans le but de fournir des informations diagnostiques additionnelles. Depuis son introduction en imagerie ultrasonore dans les années 1990, l’élastographie a trouvé de nombreuses applications. Cette modalité a notamment été utilisée pour l’étude du sein, du foie, de la prostate et des artères par imagerie ultrasonore, par résonance magnétique ou en tomographie par cohérence optique. Dans le contexte des maladies cardiovasculaires, cette modalité a un fort potentiel diagnostique puisque l’athérosclérose modifie la structure des tissus biologiques et leurs propriétés mécaniques bien avant l’apparition de tout symptôme. Quelle que soit la modalité d’imagerie utilisée, l’élastographie repose sur : l’excitation mécanique du tissu (statique ou dynamique), la mesure de déplacements et de déformations induites, et l’inversion qui permet de recouvrir les propriétés mécaniques des tissus sous-jacents. Cette thèse présente un ensemble de travaux d’élastographie dédiés à l’évaluation des tissus de l’appareil cardiovasculaire. Elle est scindée en deux parties. La première partie intitulée « Élastographie vasculaire » s’intéresse aux pathologies affectant les artères périphériques. La seconde, intitulée « Élastographie cardiaque », s’adresse aux pathologies du muscle cardiaque. Dans le contexte vasculaire, l’athérosclérose modifie la physiologie de la paroi artérielle et, de ce fait, ses propriétés biomécaniques. La première partie de cette thèse a pour objectif principal le développement d’un outil de segmentation et de caractérisation mécanique des composantes tissulaires (coeur lipidique, tissus fibreux et inclusions calciques) de la paroi artérielle, en imagerie ultrasonore non invasive, afin de prédire la vulnérabilité des plaques. Dans une première étude (Chapitre 5), nous présentons un nouvel estimateur de déformations, associé à de l’imagerie ultrarapide par ondes planes. Cette nouvelle méthode d’imagerie permet d’augmenter les performances de l’élastographie non invasive. Dans la continuité de cette étude, on propose une nouvelle méthode d’inversion mécanique dédiée à l’identification et à la quantification des propriétés mécaniques des tissus de la paroi (Chapitre 6). Ces deux méthodes sont validées in silico et in vitro sur des fantômes d’artères en polymère. Dans le contexte cardiaque, les ischémies et les infarctus causés par l’athérosclérose altèrent la contractilité du myocarde et, de ce fait, sa capacité à pomper le sang dans le corps (fonction myocardique). En échocardiographie conventionnelle, on évalue généralement la fonction myocardique en analysant la dynamique des mouvements ventriculaires (vitesses et déformations du myocarde). L’abscence de contraintes physiologiques agissant sur le myocarde (contrairement à la pression sanguine qui contraint la paroi vasculaire) ne permet pas de résoudre le problème inverse et de retrouver les propriétés mécaniques du tissu. Le terme d’élastographie fait donc ici référence à l’évaluation de la dynamique des mouvements et des déformations et non à l’évaluation des propriétés mécanique du tissu. La seconde partie de cette thèse a pour principal objectif le développement de nouveaux outils d’imagerie ultrarapide permettant une meilleure évaluation de la dynamique du myocarde. Dans une première étude (Chapitre 7), nous proposons une nouvelle approche d’échocardiographie ultrarapide et de haute résolution, par ondes divergentes, couplée à de l'imagerie Doppler tissulaire. Cette combinaison, validée in vitro et in vivo, permet d’optimiser le contraste des images mode B ainsi que l’estimation des vitesses Doppler tissulaires. Dans la continuité de cette première étude, nous proposons une nouvelle méthode d’imagerie des vecteurs de vitesses tissulaires (Chapitre 8). Cette approche, validée in vitro et in vivo, associe les informations de vitesses Doppler tissulaires et le mode B ultrarapide de l’étude précédente pour estimer l’ensemble du champ des vitesses 2D à l’intérieur du myocarde. / Elastography is an imaging technique that aims to map the in vivo mechanical properties of biological tissues in order to provide additional diagnostic information. Since its introduction in ultrasound imaging in the 1990s, elastography has found many applications. This method has been used for the study of the breast, liver, prostate and arteries by ultrasound imaging, magnetic resonance imaging (MRI) or optical coherence tomography (OCT). In the context of cardiovascular diseases (CVD), this modality has a high diagnostic potential as atherosclerosis, a common pathology causing cardiovascular diseases, changes the structure of biological tissues and their mechanical properties well before any symptoms appear. Whatever the imaging modality, elastography is based on: the mechanical excitation of the tissue (static or dynamic), the measurement of induced displacements and strains, and the inverse problem allowing the quantification of the mechanical properties of underlying tissues. This thesis presents a series of works in elastography for the evaluation of cardiovascular tissues. It is divided into two parts. The first part, entitled « Vascular elastography » focuses on diseases affecting peripheral arteries. The second, entitled « Cardiac elastography » targets heart muscle pathologies. In the vascular context, atherosclerosis changes the physiology of the arterial wall and thereby its biomechanical properties. The main objective of the first part of this thesis is to develop a tool that enables the segmentation and the mechanical characterization of tissues (necrotic core, fibrous tissues and calcium inclusions) in the vascular wall of the peripheral arteries, to predict the vulnerability of plaques. In a first study (Chapter 5), we propose a new strain estimator, associated with ultrafast plane wave imaging. This new imaging technique can increase the performance of the noninvasive elastography. Building on this first study, we propose a new inverse problem method dedicated to the identification and quantification of the mechanical properties of the vascular wall tissues (Chapter 6). These two methods are validated in silico and in vitro on polymer phantom mimicking arteries. In the cardiac context, myocardial infarctions and ischemia caused by atherosclerosis alter myocardial contractility. In conventional echocardiography, the myocardial function is generally evaluated by analyzing the dynamics of ventricular motions (myocardial velocities and deformations). The abscence of physiological stress acting on the myocardium (as opposed to the blood pressure which acts the vascular wall) do not allow the solving the inverse problem and to find the mechanical properties of the fabric. Elastography thus here refers to the assessment of motion dynamics and deformations and not to the evaluation of mechanical properties of the tissue. The main objective of the second part of this thesis is to develop new ultrafast imaging tools for a better evaluation of the myocardial dynamics. In a first study (Chapter 7), we propose a new approach for ultrafast and high-resolution echocardiography using diverging waves and tissue Doppler. This combination, validated in vitro and in vivo, optimize the contrast in B-mode images and the estimation of myocardial velocities with tissue Doppler. Building on this study, we propose a new velocity vector imaging method (Chapter 8). This approach combines tissue Doppler and ultrafast B-mode of the previous study to estimate 2D velocity fields within the myocardium. This original method was validated in vitro and in vivo on six healthy volunteers.

Élastographie quasi-statique

caractérisation biomécanique

imagerie ultrasonore ultrarapide

maladies cardiovasculaires

athérosclérose

Quasi-static elastography

biomechanical characterization

ultrafast ultrasound imaging

cardiovascular disease

atherosclerosis

Static and time-dependent mechanical behaviour of preserved archaeological wood : Case studies of the seventeenth century warship Vasa

Vorobyev, Alexey

January 2017

Wooden objects have been widely used in the history of humanity and play an important role in our cultural heritage. The preservation of such objects is of great importance and can be a challenging task. This thesis investigates the static and time-dependent mechanical behaviour of archaeological oak wood from the Vasa warship. Characterisation of mechanical properties is necessary for the formulation of a numerical model to design an improved support structure. The ship was impregnated with polyethylene glycol (PEG) for dimensional stabilisation. All elastic engineering constants of the Vasa oak have been identified and compared with those of recent oak by means of the static and dynamic testing. The experiments were done on samples with cubic geometry, which allowed obtaining all elastic constants from a single sample. The usage of cubic samples with orthotropic mechanical properties during compressive experiments was validated with finite-element simulations. The Young's moduli of the Vasa oak in all orthotropic directions were smaller than those for the recent oak. The shear moduli of Vasa oak was determined and verified with the resonant ultrasound spectroscopy. The time-dependent mechanical behaviour of the Vasa oak has been studied. Creep studies were performed in uniaxial compression on the cubic samples in all orthotropic directions. The samples loaded in the longitudinal direction were subjected to different stress levels. A stress level below 15% of the yield stress in the longitudinal direction did not result in non-linear creep with increasing creep rates within the time frame of the tests. The results of the studies in radial and tangential directions showed that creep was dominated by the effect of annual fluctuations in relative humidity and temperature. The weight changes based on annual fluctuations of relative humidity were measured for Vasa oak and recent oak. The Vasa oak showed higher variations due to an increased hygroscopicity which is the result of the impregnation with PEG. In conceiving a full-scale finite-element model of Vasa ship, not only the stress-strain relations of the material but also those of the structural joints are needed. Since the in-situ measurement of joints is not an option, a replica of a section of the ship hull was built and tested mechanically. The load-induced displacements were measured using 3D laser scanning which proved to have advantages to conventional point displacement measurements. The mechanical characteristics of the Vasa oak and joint information presented in this work can be used as input for a finite-element model of the Vasa ship for simulation of static and time-dependent behaviour on a larger scale. / Stötta Vasa

archaeological wood

compression test

cubic samples

elastic constants

oak wood

barrelling formation

quasi-static loading

resonant ultrasound spectroscopy (RUS)

Vasa ship

creep

3D laser scanning

Time-dependent behaviour

Contribution à l'étude du comportement mécanique de voies ferrées, composants à caractère dissipatif non-linéaire : semelle sous rail et sous-couche de grave bitumineuse. / Contribution to the study of the mechanical behavior of railway track., components with non-linear and dissipative behaviour : rail pad and bituminous mixture sub-ballast.

Zhuravlev, Roman

14 December 2017

Les voies ferrées sont endommagées par les chargements dynamiques répétés issus du passage des trains, en particulier pour les trains à grandes vitesses. Structures multicouches complexes, ces voies sont constituées : de rails en acier, de semelles en élastomère, des traverses de béton, d’une couche de ballast et d’une sous-couche. L’étude du comportement mécanique d’une voie ferrée (de chaque composant à la structure entière) est donc étroitement liée à l’amélioration de la sécurité ferroviaire, ainsi qu’à l’efficacité de ce mode de transports.Ce travail de thèse se focalise sur l’étude des semelles sous rail et de la sous-couche en grave bitumineuse. Ces deux composants ont été choisis pour leurs similarités en termes de comportement mécanique non linéaire et capacité de dissipation d’énergie. Ce manuscrit est divisé en trois chapitres.Dans le cadre de ce premier chapitre le modèle d’intégrale par convolution (modèle-CI) est choisi pour modéliser le comportement mécanique du matériau élastomère de la semelle. Le modèle-CI est une extension naturelle de la théorie de la viscoélasticité linéaire, car basé sur l'extension du principe de superposition Boltzmann ; la séparation des contraintes proposée par ce modèle, a été observée expérimentalement par de nombreux auteurs.Le deuxième chapitre concerne l’étude du comportement mécanique du matériau élastomérique qui compose les semelles sous-rail et de modélisation pour prédire le comportement non-linéaire et la capacité d'absorption d'énergie d'une structure semelle.Le modèle de comportement (modèle-CI) permet de représenter de façon très fiable la partie chargement de la semelle (erreur de 1 % pour la rigidité). Pour la partie déchargement, la représentation est un peu moins bonne : la déformation résiduelle "numérique" est de 2,2 % alors qu'expérimentalement elle n'est que de 0,4 %, ce qui conduit à une erreur de prédiction sur l'énergie dissipée de 37.5 %. La comparaison entre les résultats numériques et expérimentaux in-situ montrent que le modèle utilisé permet de décrire assez correctement la réponse de la semelle au passage d'un train dans les limites d’erreur de prédiction de la déformation résiduelle.Ce modèle-CI doit être utilisé sur le modèle géométrique 3D complet de la semelle, les approches simplifiées (2D, semelle sans rainure) conduisent à des prédictions fortement erronées.Le troisième chapitre se focalise sur l’étude du matériau de type asphalte utilisé pour la couche sous-ballast des voies ferrées. Des cubes de “Matériaux Virtuels” ont été réalisés en disposant aléatoirement des inclusions sphériques monodisperses rigides dans un volume de matrice au comportement hyper-élastique. L’influence du diamètre et de la fraction volumique de ces inclusions sur le comportement mécanique d’une structure a été étudiée numériquement et expérimentalement en utilisant un plan d’expérience de type Doehlert. Cette approche de « Matériaux Virtuels » a permis d’avoir une correspondance exacte entre les géométries des spécimens numériques et expérimentaux sur les 7 échantillons testés.L’analyse des surfaces de réponses a montré que les deux paramètres observés F_max et E_% sont fortement corrélés aux valeurs de V_fr. L’influence du diamètre des inclusions, par contre, est très faible.Enfin, les simulations par éléments finis ont permis d’étudier la répartition interne des contraintes et déformations. Les résultats ont été présentés pour l’échantillon V0225-D08 : la chaine d’effort a été visualisée à l’intérieur de la matrice et présente des contraintes de Von Mises jusqu’à 8 fois celles obtenues dans la matrice.Dans l’étude proposée, le diamètre et la forme des inclusions ont été fixés. Il serait intéressant de faire varier ces paramètres en utilisant la même méthodologie. Par ailleurs, les récentes avancées en termes de fabrication additive permettent d’imaginer la construction d’échantillons hétérogènes complexes. / Repetitive dynamic loads caused by passing trains can damage a railway track, especially at high speeds. The complex multilayer structure of the modern track consists of: stainless steel rails, elastomeric rail pads, concrete sleepers, track ballast and sub-ballast layers. Investigation of the mechanical behaviour of the railway track structure (as the whole and by parts) can have a great importance for the improvement of safety and efficiency of railway transportation.In the present study rail pad and bituminous mixture (BM) sub-ballast layers of a standard ballasted railway track were considered for investigation. These parts of the track were chosen for their similarities in the mechanical behaviour (nonlinearity and energy dissipation) and function (reduction of the dynamic part of load, an influence on the load distribution).The first chapter reviews the main aspects of the mechanical behaviour of elastomeric materials and covers the common theoretical approaches, appropriate for the modelling of this behaviour. The Convolution Integral approach (CI-model) was chosen to represent the mechanical behaviour of a rail pad material as a natural extension of theory of linear viscoelasticity, based on extension of the well-established Boltzmann Superposition Principle.The second chapter is devoted to study of elastomeric material of a rail pad and to numerical modelling of a whole elastomeric rail pad structure subjected to common track loads. Special attention was given to possibility of the model to describe the nonlinearity of the mechanical behaviour and capability of energy dissipation.Sufficient conformity between experimental and numerical results was established on loading part of a Force vs Displacement curve (an error of 1 % was obtained for the stiffness value) for the quasi-static loading, while prediction of the residual compression displacement remains poor, especially in the first loading cycle (2.2% of the macroscopic strain against 0.4% in experiment). The observed discrepancy led to poor prediction of the dissipated energy (an error of 37.5 % was found). Comparison between results of the numerical simulation and in situ experimental measurements has shown that the FE model is capable to describe dynamic behaviour of a rail pad structure to within the error of prediction of the residual compression displacement.Possible ways to simplify the numerical model, discussed in the second chapter, generally lead to high overestimation (2D plain strain and 3D grooveless models) or underestimation (2D plain stress model) of the rail pad mechanical behaviour.The third chapter of the thesis is connected to the study of a BM material, used on a railway track as a sub-ballast layer. Influence of size and volume fraction of monodisperse spherical inclusions, randomly packed into a cubic matrix, on the mechanical behaviour of obtained composite structure were investigated using “Virtual Material” approach. This approach allows numerical study of a theoretical case without losing connection with a real experiment (by means of direct geometrical correspondence). Parameters of 7 specimens were chosen in accordance with Doehlert experimental design.Analysis of “response surfaces” has shown that both F_max and E_% have a strong dependence on the value of V_fr and almost no dependence on the value of D.Stress/strain concentrations were analyzed using FE method on example of V0225-D08 specimen. This allows to find and to visualize load-bearing chains going through the matrix. Von Mises stress in load-bearing chains is almost 8 times higher than the average in the matrix.More complex models (real and numerical) in terms of problem discretization (more than one inclusions’ fraction, different inclusions’ shapes, etc.) can be developed and studied in the similar way. Moreover, the recent progress in additive manufacturing technologies shows potential to create complex heterogeneous specimens with an increased precision.

Hyperélasticité

Viscoélasticité

Dissipation d’energie

Comportement quasi-Statique

Comportement dynamique

Materiaux hétérogène

Hyperelasticity

Viscoelasticity

Energy dissipation

Quasi-Static behaviour

Dynamic behaviour

Heterogeneous media

Contribuição ao estudo de danos e falhas progressivas em estruturas de material compósito polimérico / Contribution to the study of damage and progressive failure on composite structures

Tita, Volnei

13 August 2003

Neste trabalho buscou-se propor e implementar um modelo de material capaz de prever o comportamento mecânico de estruturas em compósitos poliméricos reforçados (CPR). Inicialmente fez-se um levantamento bibliográfico sobre os modos de danificação intralaminar e falhas interlaminares bem como sobre formas de abordagem (analítica e numérica) para tratar esses problemas. Em seguida, foram apresentadas em detalhes as etapas experimentais executadas, descrevendo todo o procedimento de fabricação dos corpos-de-prova e os resultados obtidos a partir dos ensaios quase-estáticos de tração, compressão, cisalhamento e flexão. Com base nesses resultados e em informações provenientes da literatura, propõem-se alguns modelos de material que foram implementados em sub-rotinas FORTRAN. Tais modelos são posteriormente compilados em conjunto com um programa de elementos finitos (ABAQUS®) a fim de serem avaliados e terem seus parâmetros calibrados. Numa primeira fase, através de simulações computacionais dos ensaios de tração e compressão avaliou-se os modelos de material implementados. Numa segunda fase, os parâmetros foram calibrados tomando como base três estudos de caso (flexão, endentação e teste de impacto) envolvendo seqüências de empilhamento distintas. Após a simulação computacional desses estudos, apresentou-se a proposta de uma metodologia para avaliar problemas de impacto a baixa velocidade em estruturas laminadas. Conclui-se assim que o presente projeto de pesquisa traz contribuições inovadoras, mas também apresenta várias perspectivas de trabalhos futuros. / In this work, material models were proposed to predict the mechanical behavior of composite structures. First of all, it was done a study about damage intra-ply and inter-ply (delamination) on composite materials and about analytical and numerical approaches to solve problems of progressive damage on composite structures was performed. After, many specimens were manufactured and experimental tests (tensile, compression, shear and flexural tests) were carried out. Experimental results and information from literature were used to develop some material models, which were implemented using FORTRAN compiler. These material models were compiled with a commercial finite element program (ABAQUS®) in order to evaluate and calibrate parameters of the models. In the first step, computational simulations of tensile and compression test were carried out to evaluate material models implemented. In the second step, the parameters of the material models were calibrated using three case studies (flexural, indentation and impact test) with some staking sequences. After that, a methodology was proposed to evaluate impact problems on composite structures under low velocity. Therefore, this research project not only shows new contributions but also suggests many future investigations.

Comportamento mecânico

Composites

Compósitos poliméricos

Computational simulations

Ensaios quase-estáticos

Impact test

Material model

Mechanical behavior

Modelo de material

Quasi-static tests

Simulação computacional

Testes de impacto

A importância da região de estabilidade no problema de análise de estabilidade de tensão em sistemas elétricos de potência / The importance of stability region in the problem of voltage stability in power systems

Choque Pillco, Edwin

06 May 2011

Neste trabalho, estuda-se o problema de estabilidade de tensão do ponto de vista dinâmico, enfocando a análise nas instabilidades originadas por grandes perturbações. A modelagem utilizada nestes estudos envolve dinâmicas que possuem múltiplas escalas de tempo, mas na prática, os problemas de instabilidade de tensão estão geralmente associados às dinâmicas de longo prazo. Nesse sentido, o método de análise QSS fornece muitas vantagens do ponto de vista computacional, reduzindo significativamente o tempo de processamento, mediante a substituição das equações de dinâmica rápida por suas correspondentes equações de equilíbrio. As contribuições deste trabalho são duas: a primeira consiste no estudo da importância da região de estabilidade das dinâmicas lentas do SEP e sua relação com a região de estabilidade do sistema original. A segunda consiste em estudar a aplicação do método QSS no SEP oleando para as condições existentes na literatura e analisando principalmente as desvantagens de sua aplicação. Os sistemas de potência apresentados na literatura são utilizados como exemplos. Com base nestas simulações e na teoria existente da análise QSS, são estudadas algumas condições sob as quais o método QSS é válido. A teoria de região de estabilidade para estes sistemas é explorada para fornecer indicativos de margem de estabilidade e controle preventivo. / In this work, we study the problem of voltage stability of the dynamic point of view, focusing the analysis on the instability caused by large disturbances. The modeling used in these studies involves dynamics that have multiple time scales, but in practice, the problems of voltage instability are generally associated with long-term scale. Thus, the QSS method of analysis provides many advantages in terms of computational resource, significantly reducing the processing time, by replacing the equations by their corresponding fast dynamic equilibrium equations. The contributions of this work are two: the first is to study the importance of the stability region of the slow dynamics of the power system and its relation to the stability region of the original system. The second is to study the application of the QSS method in power systems considering the current theory in the literature and analyzing the main disadvantages of its application. The power system presented in the literature are used as examples. Based on these simulations and the existing theory of the QSS method, we study some conditions under which this method is valid. The theory of stability region for these systems is exploited to provide indicative of margin stability and preventive control.

Método quase estático

Power systems

Quasi static method

Região de estabilidade

Region of stability

Singular perturbation system

Sistemas elétricos de potência

Sistemas singularmente perturbados

A importância da região de estabilidade no problema de análise de estabilidade de tensão em sistemas elétricos de potência / The importance of stability region in the problem of voltage stability in power systems

Edwin Choque Pillco

06 May 2011

Neste trabalho, estuda-se o problema de estabilidade de tensão do ponto de vista dinâmico, enfocando a análise nas instabilidades originadas por grandes perturbações. A modelagem utilizada nestes estudos envolve dinâmicas que possuem múltiplas escalas de tempo, mas na prática, os problemas de instabilidade de tensão estão geralmente associados às dinâmicas de longo prazo. Nesse sentido, o método de análise QSS fornece muitas vantagens do ponto de vista computacional, reduzindo significativamente o tempo de processamento, mediante a substituição das equações de dinâmica rápida por suas correspondentes equações de equilíbrio. As contribuições deste trabalho são duas: a primeira consiste no estudo da importância da região de estabilidade das dinâmicas lentas do SEP e sua relação com a região de estabilidade do sistema original. A segunda consiste em estudar a aplicação do método QSS no SEP oleando para as condições existentes na literatura e analisando principalmente as desvantagens de sua aplicação. Os sistemas de potência apresentados na literatura são utilizados como exemplos. Com base nestas simulações e na teoria existente da análise QSS, são estudadas algumas condições sob as quais o método QSS é válido. A teoria de região de estabilidade para estes sistemas é explorada para fornecer indicativos de margem de estabilidade e controle preventivo. / In this work, we study the problem of voltage stability of the dynamic point of view, focusing the analysis on the instability caused by large disturbances. The modeling used in these studies involves dynamics that have multiple time scales, but in practice, the problems of voltage instability are generally associated with long-term scale. Thus, the QSS method of analysis provides many advantages in terms of computational resource, significantly reducing the processing time, by replacing the equations by their corresponding fast dynamic equilibrium equations. The contributions of this work are two: the first is to study the importance of the stability region of the slow dynamics of the power system and its relation to the stability region of the original system. The second is to study the application of the QSS method in power systems considering the current theory in the literature and analyzing the main disadvantages of its application. The power system presented in the literature are used as examples. Based on these simulations and the existing theory of the QSS method, we study some conditions under which this method is valid. The theory of stability region for these systems is exploited to provide indicative of margin stability and preventive control.

Método quase estático

Região de estabilidade

Sistemas elétricos de potência

Sistemas singularmente perturbados

Power systems

Quasi static method

Region of stability

Singular perturbation system