Global ETD Search

831	Wind resource assessment for posibel wind farm development in Dekemhare and Assab, Eritrea Negash, Teklebrhan January 2018 (has links) Recently wind resource assessment studies have become an important research tool to identify the possible wind farm locations. In this thesis work technical analysis was carried out to determine the wind resource potential of two candidate sites in Eritrea with help of suitable software tools. The first site is located along the Red Sea cost which is well known for its wind resource potential, whereas the second site is located in the central highlands of Eritrea with significant wind resource potential. Detailed wind resource assessment, for one year hourly weather data including wind speed and wind direction, was performed for the two candidate sites using MS Excel and MATLAB. The measured wind data at Assab wind site showed that the mean wind speed and power density was 7.54 m/s and 402.57 W/m2 , whereas the mean wind speed and mean power density from Weibull distribution was 7.51 m/s and 423.71 W/m2 respectively at 80m height. Similarly, the measured mean wind speed and mean power density at Dekemahre wind site was obtained to be 5.498 m/s and 141.45 W/m2, whereas the mean wind speed and mean power density from Weibull distribution was 5.4859m/s and 141.057W/m2 respectively. Based on the analysis results Assab wind site classified as wind class-III and Dekemhare as wind class-I. Wind farm modeling and Annual Energy Production (AEP) estimation was performed for E-82 & E-53 model turbines from Enercon Company with the help of MATLAB and Windpro software. The analysis revealed that Assab wind farm was an ideal site for wind energy production with capacity factor (CF) 53.4% and 55% for E-82 and E-53 turbines respectively. The gross and net AEP for turbine E-82 at Assab wind farm was 469.5 GWh and 446.025 GWh respectively with 95% park efficiency. Similarly, the analysis showed that the CF in Dekemhare site was very low with typical value 14.2% and 15.26% for E-82 and E-53 turbines respectively. The gross and net AEP of that site for model turbine E-53 was 53.5 GWh and 50.825 GWh respectively with 5% wake loss. Finally, a simplified economic analysis was carried out to determine the economic feasibility of possible wind power projects in both sites by assuming investment cost 1600 €/kW for E-82 turbine and 2000 €/kW for E-53 turbine. The total wind farm investment cost was found to be 215.85 and 107.93 Million Euro for E-82 and E-53 model turbines respectively. The levelized cost of energy at Assab and Dekemhare wind farm for E-82 model turbine was 0.0307 €/kWh and 0.5526 €/kWh respectively. The analysis result show that the levelized cost of energy in Dekemhare wind fasrm was much higher than that of Assab wind farm. Wind resource assessment Wind farm Annual Energy Aroduction Assab wind site Dekemahre wind site Eritrea Weibull distribution Wind rose Wind power density Capacity factor. Engineering and Technology Teknik och teknologier Övrig annan teknik
832	Controlador adaptativo por posicionamento de p?los e estrutura vari?vel aplicado ao controle de geradores e?licos baseados em m?quina de indu??o duplamente alimentada Honda, Daniel Wanderley 13 September 2013 (has links) Made available in DSpace on 2014-12-17T14:56:15Z (GMT). No. of bitstreams: 1 DanielWH_DISSERT.pdf: 3818359 bytes, checksum: ac34198b688307ffda10243b5ad47c74 (MD5) Previous issue date: 2013-09-13 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / In the last decade, the renewable energy sources have present a major propulsion in the world due to several factors: political, environmental, financial and others. Within this context, we have in particular the energy obtained through wind, wind energy - that has highlighted with rapid growth in recent years, including in Brazil, mostly in the Northeast, due to it s benefit-cost between the clean energies. In this context, we propose to compare the variable structure adaptive pole placement control (VS-APPC) with a traditional control technique proportional integral controller (PI), applied to set the control of machine side in a conversion system using a wind generator based on Double-Fed Induction Generator (DFIG). Robustness and performance tests were carried out to the uncertainties of the internal parameters of the machine and variations of speed reference. / As fontes de energia renov?veis t?m, na ?ltima d?cada, ganho uma grande propuls?o em todo o mundo devido aos mais diversos fatores: pol?ticos, ambientais, financeiros, entre outros. Dentro deste universo, temos, em especial, a energia obtida atrav?s do vento, energia e?lica - que tem se destacado com um crescimento vertiginoso nos ?ltimos anos, inclusive no Brasil, principalmente na regi?o Nordeste, devido ao seu custo-benef?cio entre as energias "limpas". Neste cen?rio, prop?e-se a compara??o do controlador por posicionamento de polos e estrutura vari?vel (VS-APPC) com o controlador proporcional integral (PI) aplicados em um sistema de convers?o de energia e?lica que utiliza um gerador de indu??o duplamente alimentado (Double-Fed Induction Generator- DFIG). Testes de robustez e desempenho foram realizados com incertezas nos par?metros da m?quina e varia??es de refer?ncia de velocidade CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA
833	Avaliação da viabilidade técnico-econômica de projetos de geração eólica no Brasil / Evaluation of the technical economic feasibility of wind power projects in Brazil Cruz, Ulysses de Brito 28 August 2013 (has links) Wind power is very relevant not only for being a clean and renewable power source, but also for being financially viable. Mindful of this scenario, Brazil has been searching to diversify its power matrix with the use wind power on a large scale as a sustainable alternative source of power. Brazil s climate and topography contribute to keeping the concentration of winds. Furthermore, the complementary function of wind power and the cutting on average production costs are the main financial attractiveness compared to hydropower and other sources, bringing new investors. The first step was the building of a new sector regulatory model, it was not enough though. Technical, contractual, environmental, regulatory and government barriers have to be eliminated or reduced. Recent data from ANEEL show that by 2015 will be expected to come into operation in Brazil 8579.45 MW of wind power. However, from that amount, only 27,17% of the projects are environmentally certified and with their construction schedule on time. Most projects (72,83%) have problems concerning not started, delayed and suspended works due to lack of environmental license, request to revoke authorization, litigation and environmental statement infeasibility of the project. This work attempts to investigate the aspects related to the technical-economic feasibility of wind power projects in Brazil, with the aid of RETScreen4 program, presenting solutions which eliminate or reduce the most commonly identified barriers, aiming at contributing to setting wind source in the Brazilian matrix energy. / A energia oriunda dos ventos tem se mostrado relevante não apenas por ser uma fonte de energia limpa e renovável, mas também por ser viável economicamente. Atento a esse cenário, o Brasil vem procurando diversificar sua matriz energética com a implantação da energia eólica em larga escala como fonte alternativa sustentável. O Clima e o relevo aqui existentes contribuem para concentração dos ventos. Além disto, a função complementar da energia eólica em relação à energia hidrelétrica e a redução do custo médio de produção surgem como principais atrativos à realização de novos investimentos no setor. O primeiro passo para isso foi dado com a criação do Novo Modelo do Setor Elétrico, porém não foi o bastante. Entraves de ordem técnica, contratual, ambiental, regulatório e governamental precisam ser eliminados ou reduzidos. Dados recentes consolidados pela ANEEL apontam que até 2015 estão previstos para entrar em operação no Brasil 8.579,45MW de fonte eólica. Contudo, deste total, apenas 27,17% dos projetos estão com a licença ambiental vigente e cronograma de obras em dia. A maioria dos projetos (72,83%) apresenta problemas relacionados, por exemplo, a obras não iniciadas, com atraso ou paralisadas por causa da suspensão do processo de licenciamento ambiental, solicitação de revogação da autorização, demandas judiciais e declaração de inviabilidade ambiental do empreendimento. Este trabalho procura investigar aspectos relacionados à viabilidade técnicoeconômica de projetos de geração eólica no Brasil, com auxílio do programa RETScreen4, apresenta possíveis soluções que eliminem ou atenuem os entraves identificados, a fim de contribuir para fixação da fonte eólica na matriz energética brasileira. Engenharia elétrica Energia eólica Energia eólica - Brasil Energia - Fontes alternativas Energia eólica - Avaliação Recursos energéticos Brazil Electric engineering Power resources Renewable energy sources Wind power CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA
834	Sistema para gerenciamento do carregamento de baterias alimentado por uma turbina eólica Farias, Guilherme de Carvalho 29 February 2016 (has links) Made available in DSpace on 2016-08-17T14:52:41Z (GMT). No. of bitstreams: 1 Dissertacao-GuilhermeCarvalhoFarias.pdf: 1837201 bytes, checksum: 75a44efdfd7752087fd597668e388184 (MD5) Previous issue date: 2016-02-29 / This study consists in a comparative analysis of MPPT strategies for low power wind turbines and the development of a control methodology for a battery charging system. The main MPPT strategies in the literature are described and implemented, along with all of their auxiliary control loops. To perform the comparison, a simulation platform is developed. Mathematical modeling of all components in the platform is described, as well as how they relate with each other. This platform allows keeping the system parameters the same for all methods, and modifying only the necessary to implement each of them. The control method for battery charging is presented and analyzed. One of the MPPT strategies described is applied together with this methodology. The methodology of the simulations are performed with switched models to validate the project realized with the developed average models. / Este trabalho consiste na análise comparativa entre métodos MPPT para turbinas eólicas de pequeno porte e desenvolvimento de uma metodologia de controle para um sistema de carregamento de baterias. Os principais métodos de MPPT presentes na literatura são descritos e implementados, juntamente com suas malhas de controle auxiliares. Para realizar a comparação, uma plataforma de simulação é desenvolvida. O modelamento matemático de todos os componentes presentes na plataforma é descrito, bem como a forma como eles se relacionam. Essa plataforma permite manter os parâmetros do sistema iguais para todos os métodos, somente modificando o necessário para implementar cada um deles. A metodologia de controle para carregamento de baterias é apresentada e analisada. Um dos métodos de MPPT descritos é aplicado juntamente à essa metodologia. As simulações da metodologia são realizadas com modelos chaveados, para validar o projeto realizado com os modelos médios levantados. Métodos MPPT Turbinas eólicas Energia eólica Conversor buck-boost não inversor Carregamento de baterias MPPT strategies Wind turbines Wind power Non-inverter buck-boost converter Battery charging CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA
835	Problems and Solutions for Implementing ERP-Systems in Swedish Wind Power Industry Bhatti, Fahim Ahmed, Khan, Hamid January 2010 (has links) Wind power industry has become the world’s fastest growing renewable energy source. A firm’s information requirements can only be understood by examining their Information System (IS) through Organizational, People, Technical and Strategic perspective. Current study focuses on the value of Information System implementation for Swedish Wind Power Industry (SWPI) that has reached to more than one billion dollars in recent decade. A well-known integrated IS i.e. Enterprise Resource Planning (ERP) used by Swedish Wind Power Industry (SWPI) for decision making activities is not without its challenges, that consumes a significant portion of their capital and resources for implementation. Exploratory and explanatory research conducted for triangulation, through quantitative and qualitative methods, with empirical data of survey, multiple case studies, interviews and extensive literature review, to highlight the problems and solutions for implementing ERP in SWPI. Several, IS are highlighted with their functionalities and critical success and failure factors. A Model of Knowledge Sharing in ERP Implementation between system users, top management and project team is proposed for critical factors of ERP implementation. / Vindkraftsindustrin har blivit världens snabbast växande förnybar energikälla. Ett företags krav på information kan endast förstås genom att granska deras informationssystem (IS) med hjälp av Organizational, Människor, tekniska och strategiska perspektiv. Aktuell studie fokuserar på värdet av informationssystem genomförande för svenska vindkraftsindustrin (SWPI) som har nått mer än en miljard dollar under de senaste tio åren. En välkänd integrerad dvs Enterprise Resource Planning (ERP) som används av svenska vindkraftsindustrin (SWPI) för beslutsfattande verksamhet som inte är utan dess utmaningar, som förbrukar en betydande del av sitt kapital och resurser för genomförandet. Undersökande och förklarande forskning som bedrivs för triangulering, genom kvantitativa och kvalitativa metoder, med empiriska data av undersökning, flera fallstudier, intervjuer och omfattande litteraturstudie för att belysa problem och lösningar för att genomföra ERP i SWPI. Flera är markeras med sina funktioner och kritiska framgångsfaktorer och faktorer misslyckande. En modell för utbyte av kunskap i ERP genomförande mellan systemanvändare, i högsta ledningen och projektgruppen föreslås för kritiska faktorer av affärssystem genomförandet. Information System (IS) Enterprise Resource Planning (ERP) ERP-Systems SAP Swedish Wind Power Industry Informationsystem Svenska vindkraftsindustrin Företag Resurs Planering ERP ERP-Systems SAP Computer and Information Sciences Data- och informationsvetenskap
836	Evaluation de la Performance des Réglages de Fréquence des Eoliennes à l’Echelle du Système Electrique : Application à un Cas Insulaire / Performance Evaluation of Frequency Response from Wind Turbines on a System-Wide Scale : Application onto an Isolated Power System Case Wang, Ye 20 November 2012 (has links) L’intégration croissante de la production éolienne ne participant pas au réglage de fréquence induit de nouvelles difficultés de gestion des systèmes électriques. Ces problèmes sont d’autant plus significatifs que le réseau est faible. La présente thèse vise à évaluer la performance et la fiabilité du réglage de fréquence des éoliennes à l’échelle du système électrique. Les études sont appliquées sur un réseau insulaire.D’abord, l’impact d’un fort taux de pénétration de la production éolienne sur l’allocation de la réserve primaire et sur le comportement dynamique du réseau est caractérisé. Il est montré que la participation des éoliennes au réglage de fréquence est techniquement indispensable pour le maintien de la sûreté du système électrique à partir d’un certain taux de pénétration. Deux solutions permettant aux éoliennes de contribuer au réglage de fréquence sont ensuite étudiées par simulations dynamiques. La performance d’une inertie émulée est caractérisée en considérant l’impact du point de fonctionnement initial des éoliennes et des paramètres du contrôleur. La contribution de la réserve éolienne à l’amélioration de la performance dynamique du système est également identifiée.Afin d’évaluer le potentiel et la fiabilité de la réserve éolienne, la dernière partie de ce travail est consacrée aux études statistiques prenant en compte la variabilité et l’incertitude de la prévision de la production. Deux stratégies du placement de réserve sont proposées et comparées. L’impact des erreurs de prévision sur le potentiel de réserve éolienne est également mis en évidence. Enfin l’énergie réglante d’une ferme et la plage de réglage du statisme éolien sont caractérisées / The increasing development of wind power that does not participate in frequency control leads to new challenges in the management of electrical power systems. The problems are more significant in weak power grids. The present thesis aims to evaluate the performance and the reliability of frequency response from wind turbines on a system-wide scale. Studies are applied onto an isolated power grid.First of all, the impact of high levels of wind penetration on primary reserve allocation and on grid dynamic behaviour is characterized. It is shown that the participation of wind turbines in frequency regulation is technically required for maintaining power system security from a certain wind penetration rate.Two solutions allowing wind turbines to contribute to frequency control are then studied through dynamic simulations. The performance of emulated inertia is characterized by taking into account the impact of initial wind operating point and controller parameters. The contribution of wind power reserve to system dynamic performance improvement is also identified.In order to assess the potential and the reliability of wind primary reserve, the last part of this research work is devoted to statistical analyses considering the variability and the prediction uncertainty of wind generation. Two strategies for reserve allocation are proposed and compared. The impact of forecast errors on the potential of wind power reserve is also highlighted. Finally the power frequency characteristic of a wind farm as well as the droop adjustment range is characterized Production éolienne Réglage de fréquence Réseaux insulaires Sûreté du système électrique Réglage primaire de fréquence Inertie synthétique Variabilité éolienne Incertitude de la prévision Wind power Frequency control Isolated power systems Power system security Primary frequency control Synthetic inertia Wind variability Prediction uncertainty Primary frequency control
837	Reactive Power Co-ordination in Grid Connected Wind Farms for Voltage Stability Enchancement Reddy, Kommi Krishna January 2013 (has links) (PDF) Recent decades have witnessed a significant increment in power contribution from wind generators. This increment in penetration requires power engineers to tackle multi-fold challenges concerning operational and stability aspects. There exists a significant attention among the researchers in analyzing the impact of wind generation on various system aspects. This thesis focuses on steady state voltage stability aspects with penetration of Variable speed wind generators. Traditionally, ancillary services are supplied by large conventional generators. However, with the huge penetration of wind generators as a result of the growing interest in satisfying energy requirements, and considering the benefits that they can bring along to the electrical system and to the environment, it appears reasonable to assume that ancillary services could also be provided by wind generators in an economical and efficient way. Certain types of wind generators can support reactive power for the Power Market. Fixed and Semi-Variable speed wind turbine generators were predominantly employed during the early installations of wind generators. These units require reactive power support from the grid and are usually equipped with capacitor banks to provide the necessary reactive power. Further, STATic synchronous COMpensator (STATCOM) and Static Var Compensator (SVC) with various configurations were proposed to enhance the system operations under normal and disturbed conditions. On the other hand, Variable speed wind turbine generators provide flexibility in control and hence are becoming increasingly popular. Popular among this class of wind turbine generating units are Doubly Fed Induction Generator(DFIG) and induction/synchronous Generator with Front End Converter(GFEC). Contrary to Fixed and Semi-Variable speed wind machines, Variable speed wind turbine generators are capable of providing reactive power to the grid. The converter and control schemes associated with these machines permits controlling the active and reactive power output to desired level. It is possible to control the reactive power output of these machines independently of the active power. Researchers in the past have investigated the impact of reactive power output of variable speed wind machines on system stability. In literature, approaches are proposed to utilize the flexibility in reactive power generation of DFIG to reduce system losses, improve reliability in static and dynamic system operation. Approaches in literature investigate the impact on voltage stability of system by considering the flexibility of reactive power output of wind machine in isolation. However, significant improvement in static voltage stability, voltage profile, system power losses etc. can be attained if the Reactive Power output of Variable Speed wind machines can be properly coordinated with other reactive power controllers. The prime objective of the thesis is to propose algorithms to coordinate the reactive power output of Variable Speed Wind Generators with other reactive power controllers for Enhancement in voltage stability margin, system losses and voltage profiles. Wind Generators Voltage Stability Variable Speed Wind Generators Wind Generating Units - Models Wind Generators - Voltage Stability Reactive Power (Electrical Engineering) Wind Power Wind Farms Voltage Stability Enchancement Electrical Engineering
838	Reactive Power Planning And Operation of Power Systems with Wind Farms for Voltage Stability Improvement Moger, Tukaram January 2015 (has links) (PDF) In recent years, the electric power industry around the world is changing continuously due to transformation from regulated market structure to deregulated market structure. The main aim of the transformation of electric supply industry under open access environment is to overcome the some of the limitations faced by the vertically integrated system. It is believed that this transformation will bring in new technologies, integration of other sources of energy such as wind, solar, fuel cells, bio-gas, etc., which are self sustainable and competitive, and better choice for the consumers and so on. As a result, several new issues and challenges have emerged. One of the main issues in power systems is to support reactive power for maintaining the system voltage profile with an acceptable margin of security and reliability required for system operation. In this context, the thesis addresses some of the problems related to planning and operation of reactive power in power systems. Studies are mainly focused on steady state operation of grid systems, grid connected wind farms and distribution systems as well. The reactive power support and loss allocation using Y-bus approach is proposed. It computes the reactive power contribution from various reactive sources to meet the reactive load demand and losses. Further, the allocation of reactive power loss to load or sink buses is also computed. Detailed case studies are carried out on 11-bus equivalent system of Indian southern region power grid under different loading conditions and also tested on 259-bus equivalent system of Indian western region power grid. A comparative analysis is also carried out with the proportional sharing principle and one of the circuit based approach in the literature to highlight the features of the proposed approach. A new reactive power loss index is proposed for identification of weak buses in the system. The new index is computed from the proposed Y-bus approach for the system under intact condition as well as some severe contingencies cases. Fuzzy logic approach is used to select the important and severe line contingencies from the contingency list. The validation of weak load buses identification from the proposed reactive power loss index with that from other well known existing methods in the literature such as Q-V sensitivity based modal analysis and continuation power flow method is carried out to demonstrate the effectiveness of the proposed index. Then, a short-term reactive power procurement/optimal reactive power dispatch analysis is also carried out to determine the optimum size of the reactive compensation devices to be placed at the weak buses for reactive compensation performance analysis in the system. The proposed approach is illustrated on a sample 5-bus system, and tested on sample 10-bus equivalent system and 72-bus equivalent system of Indian southern region power grid. A comprehensive power flow analysis of PQ type models for wind turbine generating units is presented. The diﬀerent PQ type models of fixed/semi-variable speed wind turbine generating units are considered for the studies. In addition, the variable speed wind turbine generating units are considered in fixed power factor mode of operation. Based on these models, a comparative analysis is carried out to assess the impact of wind generation on distribution and transmission systems. 27-bus equivalent distribution test system, 93-bus equivalent test system and SR 297-bus equivalent grid connected wind system are considered for the studies. Lastly, reactive power coordination for voltage stability improvement in grid connected wind farms with different types of wind turbine generating units based on fuzzy logic approach is presented. In the proposed approach, the load bus voltage deviation is minimized by changing the reactive power controllers according to their sensitivity using fuzzy set theory. The fixed/semi-variable speed wind turbine generating units are also considered in the studies because of its impact on overall system voltage performance even though they do not support the system for voltage unlike variable speed wind generators. 297-bus equivalent and 417-bus equivalent grid connected wind systems are considered to present the simulation results. A comparative analysis is also carried out with the conventional linear programming based reactive power optimization technique to highlight the features of the proposed approach. Reactive Power Wind Power Wind Farms Grid Connected Wind Farms Distributed Power Generation Power System Stability Reactive Power Planning Voltage Stability Analysis Reactive Power Support Power Flow Analysis Power Loss Allocation Wind Generator Unit Wind Turbine Generating Unit Electrical Engineering
839	Supportability Engineering in Wind Power Systems - Who Cares? : Considering important stakeholders and their requirements Ciganovic, Renato January 2011 (has links) Wind power is one of the fastest growing energy sources, which have advantages in terms of delivering clean, cheap and fast energy. Many actors and organizations have realized this potential, which has lead to exponential growth of the wind power over recent couple of years. Despite promising future of clean and green energy through wind there are still areas to be improved to tackle main hinders for further development on a larger scale. The larger scale development of wind power has up-to-date been reached in only few countries such asDenmarkandGermany. The most potential can be found through offshore wind turbines due to, among other, lesser height and noise restrictions than inland wind turbines as well as better wind resources. This thesis is mainly characterized by the mixed-method method, which is in its turn characterized by mixing different research methods such as induction, deduction and abduction as they might be suitable to apply during the different stages of the research process. In this thesis the system approach will be considered to model the scope of this study’s context. As this thesis was constructed as a theoretical study the systematic literature review was used as the main source for data collection. The synthesis of the reviewed articles was initially performed in a broad manner to show overall picture of research related to the scope of this thesis. In the following step, the adopted LCM tool was used to extract study specific data from the reviewed and additional articles. This enabled to link some of the current problems, in wind power area, and ‘unfulfilled’ stakeholder requirements. This thesis aim was to identify important stakeholders and to address their respective requirements within the scope of supportability engineering applied in the wind power context, particularly stakeholder requirements that have not been considered by previous research. The purpose of it was to compare different requirements with current issues in the wind power sector. Conducted systematic literature review showed significant and costly (development) issues related to the supportability engineering such as reliability, availability, maintainability, accessibility problems etc. This was fully in line with the stakeholders’ requirements, which in several cases demanded higher dependability i.e. availability performance and its influencing factors. The thesis also included definition of supportability engineering framework, through comparing several widely accepted and standardized theoretical concepts. This comparison enabled definition of more focused approach with requirements on the ‘supported system’ and to lesser extent the ‘support system’. These requirements are usually mixed within the different theoretical concepts. The main findings from this study are that application of supportability engineering framework would lead to earlier identification of important stakeholders and their requirements. Considering these requirements, for instance availability and maintainability of the wind turbines, at earlier stages of the life cycle through better design and improved supportability infrastructure could potentially decrease amount of current problems in the wind energy sector in particular for the offshore part. Another result was that different stakeholders and their requirements were identified. Thesis contribution overall was a new ‘refined approach’ to deal with supportability issues through supportability engineering framework, whose main focus is the ‘supported system’. Supportability Supportability Engineering Stakeholders Requirements Non-functional Requirements Integrated Logistic Support Asset Management Maintenance Support Logistic Support Wind Energy Wind Power Accessibility Maintainability Serviceability Supported System Engineering and Technology Teknik och teknologier
840	Dimensionnement et gestion d’un stockage d’énergie pour l'atténuation des incertitudes de production éolienne / Sizing and control of an energy storage system to mitigate wind power uncertainty Haessig, Pierre 17 July 2014 (has links) Le contexte de nos travaux de thèse est l'intégration de l'énergie éolienne sur les réseaux insulaires. Ces travaux sont soutenus par EDF SEI, l'opérateur électrique des îles françaises. Nous étudions un système éolien-stockage où un système de stockage d'énergie doit aider un producteur éolien à tenir, vis-à-vis du réseau, un engagement de production pris un jour à l'avance. Dans ce contexte, nous proposons une démarche pour l'optimisation du dimensionnement et du contrôle du système de stockage (gestion d'énergie). Comme les erreurs de prévision J+1 de production éolienne sont fortement incertaines, la gestion d'énergie du stockage est un problème d'optimisation stochastique (contrôle optimal stochastique). Pour le résoudre, nous étudions tout d'abord la modélisation des composants du système (modélisation énergétique du stockage par batterie Li-ion ou Sodium-Soufre) ainsi que des entrées (modélisation temporelle stochastique des entrées incertaines). Nous discutons également de la modélisation du vieillissement du stockage, sous une forme adaptée à l'optimisation de la gestion. Ces modèles nous permettent d'optimiser la gestion de l'énergie par la méthode de la programmation dynamique stochastique (SDP). Nous discutons à la fois de l'algorithme et de ses résultats, en particulier de l'effet de la forme des pénalisations sur la loi de gestion. Nous présentons également l'application de la SDP sur des problèmes complémentaires de gestion d'énergie (lissage de la production d'un houlogénérateur, limitation des rampes de production éolienne). Cette étude de l'optimisation de la gestion permet d'aborder l'optimisation du dimensionnement (choix de la capacité énergétique). Des simulations temporelles stochastiques mettent en évidence le fort impact de la structure temporelle (autocorrélation) des erreurs de prévision sur le besoin en capacité de stockage pour atteindre un niveau de performance donné. La prise en compte de paramètres de coût permet ensuite l'optimisation du dimensionnement d'un point de vue économique, en considérant les coûts de l'investissement, des pertes ainsi que du vieillissement. Nous étudions également le dimensionnement du stockage lorsque la pénalisation des écarts à l'engagement comporte un seuil de tolérance. Nous terminons ce manuscrit en abordant la question structurelle de l'interaction entre l'optimisation du dimensionnement et celle du contrôle d'un système de stockage, car ces deux problèmes d'optimisation sont couplés. / The context of this PhD thesis is the integration of wind power into the electricity grid of small islands. This work is supported by EDF SEI, the system operator for French islands. We study a wind-storage system where an energy storage is meant to help a wind farm operator fulfill a day-ahead production commitment to the grid. Within this context, we propose an approach for the optimization of the sizing and the control of the energy storage system (energy management). Because day-ahead wind power forecast errors are a major source of uncertainty, the energy management of the storage is a stochastic optimization problem (stochastic optimal control). To solve this problem, we first study the modeling of the components of the system. This include energy-based models of the storage system, with a focus on Lithium-ion and Sodium-Sulfur battery technologies. We then model the system inputs and in particular the stochastic time series like day-ahead forecast errors. We also discuss the modeling of storage aging, using a formulation which is adapted to the control optimization. Assembling all these models enables us to optimize the energy management of the storage system using the stochastic dynamic programming (SDP) method. We introduce the SDP algorithms and present our optimization results, with a special interest for the effect of the shape of the penalty function on the energy control law. We also present additional energy management applications with SDP (mitigation of wind power ramps and smoothing of ocean wave power). Having optimized the storage energy management, we address the optimization of the storage sizing (choice of the rated energy). Stochastic time series simulations show that the temporal structure (autocorrelation) of wind power forecast errors have a major impact on the need for storage capacity to reach a given performance level. Then we combine simulation results with cost parameters, including investment, losses and aging costs, to build a economic cost function for sizing. We also study storage sizing when the penalization of commitment deviations includes a tolerance threshold. We finish this manuscript with a structural study of the interaction between the optimizations of the sizing and the control of an energy storage system, because these two optimization problems are coupled. Contrôle optimal stochastique Dimensionnement de stockage Énergie éolienne Erreurs de prévision météorologique Garantie de production électrique Gestion d'énergie Programmation dynamique Stockage d'énergie Dynamic programming Energy management Guaranteed electricity production Stochastic optimal control Storage sizing Weather forecast errors Wind power

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