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91	Investigation de nouvelles technologies de générateurs pour les éoliennes offshore / Investigation of new generator technologies for offshore wind turbines Benhamida, Mohammed Ali 30 May 2018 (has links) Ce mémoire de thèse constitue une contribution à l'investigation des génératrices destinées à une application éolienne en mer. Le but est de rechercher les solutions optimales dans un domaine de recherche vaste contenant entre huit et onze variables d'optimisation, tout en respectant un cahier de charge bien précis. Afin d'y parvenir, un modèle multi-physique a été développé permettant la détermination des distributions du champ électromagnétique et de température dans les topologies de génératrices choisies avec prise en considération des non-linéarités des matériaux. La méthode des constantes localisées couplée aux fonctions d'interpolations a été choisie comme solution offrant un bon rapport temps de calculs/précision, prenant ainsi en considération les caractéristiques des matériaux (thermiques et magnétiques). Le modèle développé a été couplé à un algorithme d'optimisation génétique, NSGAII, permettant dans un premier temps ; d'investiguer le poids nécessaire des aimants permanents et des parties actives de deux topologies de génératrices synchrones à aimant permanent où dans la première les aimants sont montés en surfaces et dans la seconde insérés en concentration de flux, trois puissances différentes ont été investiguées 5, 8 et 15 [MW]. Dans un second temps, l'intégration d'un multiplicateur de vitesse magnétique dans la chaîne de conversion éolienne a été étudiée à travers la même approche optimale utilisée précédemment tout en comparant le poids nécessaires des aimants permanents pour ce type d'entrainement avec celle des topologies à attaque directe (sans multiplicateur de vitesse). / The aim of this PhD report is the investigation of electrical generators dedicated to an offshore wind turbine application. The main goal is to find optimal solutions in a vast research domain containing between eight and eleven optimization variables, while respecting a the imposed constraints. In order to achieve this goal, a multi-physics model was developed allowing the determination of the electromagnetic and temperature fields distributions in the selected topologies. Lumped models coupled to the interpolation functions were chosen as a solution offering a good computation time / precision ratio, thus taking into consideration the characteristics of the materials (thermal and magnetic). The developed model was coupled to a genetic optimization algorithm, NSGAII, allowing at first; the investigation of the necessary permanent magnets weight and the active parts one of two permanent magnet synchronous generator topologies where in the first the magnets are mounted in surfaces and in the second inserted in order to have flux concentration, three different powers have been investigated 5, 8 and 15 [MW]. Second, the integration of a magnetic gear in the wind energy conversion chain was studied using the same optimal approach previously used, while comparing the weight required of permanent magnets for this type of training with that of direct drive topologies (without gearbox). Réseaux de réluctances Réseaux de conductances thermiques Optimisation Génératrice éolienne Multiplicateur de vitesse magnétique Dimensionnement Constantes localisées Reluctance network Lumped thermal model Optimization Electrical machines Magnetic gearbox Offshore wind turbine
92	Teoria de carteiras e a aloca??o de parques e?licos offshore Silva, Lana Viviane Linhares da Costa 27 June 2014 (has links) Made available in DSpace on 2014-12-17T13:53:39Z (GMT). No. of bitstreams: 1 LanaVLCS_DISSERT.pdf: 716391 bytes, checksum: b33e1111ab67ab2b0d5834afe0fe5855 (MD5) Previous issue date: 2014-06-27 / Universidade Federal do Rio Grande do Norte / The consumption of energy on the planet is currently based on fossil fuels. They are responsible for adverse effects on the environment. Renewables propose solutions for this scenario, but must face issues related to the capacity of the power supply. Wind energy offshore emerging as a promising alternative. The speed and stability are greater winds over oceans, but the variability of these may cause inconvenience to the generation of electric power fluctuations. To reduce this, a combination of wind farms geographically distributed was proposed. The greater the distance between them, the lower the correlation between the wind velocity, increasing the likelihood that together achieve more stable power system with less fluctuations in power generation. The efficient use of production capacity of the wind park however, depends on their distribution in marine environments. The objective of this research was to analyze the optimal allocation of wind farms offshore on the east coast of the U.S. by Modern Portfolio Theory. The Modern Portfolio Theory was used so that the process of building portfolios of wind energy offshore contemplate the particularity of intermittency of wind, through calculations of return and risk of the production of wind farms. The research was conducted with 25.934 observations of energy produced by wind farms 11 hypothetical offshore, from the installation of 01 simulated ocean turbine with a capacity of 5 MW. The data show hourly time resolution and covers the period between January 1, 1998 until December 31, 2002. Through the Matlab R software, six were calculated minimum variance portfolios, each for a period of time distinct. Given the inequality of the variability of wind over time, set up four strategies rebalancing to evaluate the performance of the related portfolios, which enabled us to identify the most beneficial to the stability of the wind energy production offshore. The results showed that the production of wind energy for 1998, 1999, 2000 and 2001 should be considered by the portfolio weights calculated for the same periods, respectively. Energy data for 2002 should use the weights derived from the portfolio calculated in the previous time period. Finally, the production of wind energy in the period 1998-2002 should also be weighted by 1/11. It follows therefore that the portfolios found failed to show reduced levels of variability when compared to the individual production of wind farms hypothetical offshore / O consumo de energia no planeta ? atualmente baseado no uso de combust?veis f?sseis. Eles s?o respons?veis por efeitos negativos sobre o meio-ambiente. As energias renov?veis prop?em solu??es para esse cen?rio, mas devem encarar quest?es relacionadas ? capacidade de fornecimento de energia. A energia e?lica offshore desponta como uma alternativa promissora. A velocidade e estabilidade dos ventos s?o maiores sobre oceanos, mas a variabilidade dos mesmos pode provocar flutua??es inconvenientes ? gera??o de energia el?trica. Para diminuir isso, uma combina??o de parques e?licos distribu?dos geograficamente foi proposta. Quanto maior a dist?ncia entre eles, menor a correla??o entre a velocidade dos ventos, aumentando a probabilidade de que produzam conjuntamente um sistema de energia mais est?vel, com menos flutua??es da produ??o de energia. O uso eficiente da capacidade de produ??o dos parques e?licos, entretanto, depende da distribui??o deles em ambientes mar?timos. O objetivo desta pesquisa foi analisar a aloca??o ?tima de parques e?licos offshore na costa leste dos EUA, atrav?s da Moderna Teoria de Carteiras. A Moderna Teoria de Carteiras foi empregada de modo que o processo de constru??o das carteiras de energia e?lica offshore contemplasse a particularidade da intermit?ncia dos ventos, atrav?s dos c?lculos de retorno e risco da produ??o dos parques e?licos. A pesquisa foi desenvolvida com 25.934 observa??es de energia, produzidas por 11 parques e?licos offshore hipot?ticos, a partir da instala??o simulada de 01 turbina oce?nica com capacidade m?xima de 5 MW. Os dados apresentam resolu??o de tempo hor?ria e cobrem o per?odo entre 01 de janeiro de 1998 at? 31 de dezembro de 2002. Por meio do software Matlab R , foram calculadas seis carteiras de m?nima vari?ncia, cada qual para um per?odo de tempo distinto. Diante da desigualdade da variabilidade dos ventos no tempo, estabeleceu-se quatro estrat?gias de rebalanceamento para avaliar o desempenho das carteiras calculadas, o que possibilitou identificar a mais ben?fica ? estabilidade da produ??o de energia e?lica offshore. Os resultados apontaram que a produ??o de energia e?lica dos anos de 1998, 1999, 2000 e 2001 deve ser ponderada pelos pesos das carteiras calculadas nos mesmos per?odos, respectivamente. Os dados de energia de 2002 devem utilizar os pesos oriundos da carteira calculada no per?odo de tempo anterior. Por fim, a produ??o de energia e?lica do per?odo entre 1998-2002 deve ser igualmente ponderada por 1/11. Conclui-se assim que as carteiras encontradas conseguiram demonstrar n?veis de variabilidade reduzidos quando comparados aos da produ??o individual dos parques e?licos offshore hipot?ticos
93	Fatigue and fracture mechanics of offshore wind turbine support structures Lozano Minguez, Estivaliz January 2015 (has links) Wind power, especially offshore, is considered to be one of the most promising sources of ‘clean’ energy towards meeting the EU targets for 2020 and 2050. However, its popularity has always fluctuated with the price of fossil fuels since nowadays wind electricity production cannot compete with nuclear or coal electricity production. Support structures are thought to be one of the main drivers for reducing costs in order to make the wind industry more economically efficient. Foundations and towers should be fit for purpose, extending their effective service life but avoiding costs of oversizing. An exhaustive review of the background and state of the art of the Fatigue-Life assessment approaches has been carried out, combining analysis of the gathered experimental data and the development of Finite Element models based on contemporary 3D solid models with diverse Regression Analyses, in order to identify their weakness and evaluate their accuracy. This research shows that the guides and practices currently employed in the design and during the operation of the offshore wind turbine support structures are obsolete and not useful for optimisation, which generally leads to conservationism and an unnecessary increase in costs. The basis for a comprehensive update of the Girth Weld and Tubular Joint S-N curves and the Stress Concentration Factors of Tubular Joints has been set out. Furthermore, a reliable methodology for deriving the Stress Intensity Factor at the deepest point of a semi-elliptical surface saddle crack in a tubular welded T-joint has been proposed. 621.406
94	Static and seismic responses of pile-supported marine structures under scoured conditions Jiang, Wenyu 30 November 2021 (has links) Scour is a process of removing soils around foundations by currents and waves. For the pile-supported marine structures such as the monopile-supported offshore wind turbines (OWTs) and the pile-supported bridges, scour can decrease the pile capacities and alter the dynamic responses of the structures. At present, there is not a widely accepted method to estimate pile axial or lateral capacity under scoured conditions. For example, different recommendations are used among the existing design standards for estimation of the vertical effective stress and the resulting capacities for single piles under different scour conditions. None of the existing standards or design practice has even considered the scour effects on the behavior of pile groups. Furthermore, the investigation into the responses of piles under multiple hazards of scour and earthquakes is rarely reported. To address the foregoing limitations, this study first introduces an analytical solution to determining the vertical effective stress of soils around single isolated piles under scoured conditions and uses it to examine the limitations of the existing standards in estimation of pile tensile capacity (Chapter 1). The effect of soil-pile interface friction is highlighted. Next, the study proposes new approaches to investigating the combined effects of scour and earthquakes on the lateral responses of the monopile-supported OWTs in sand (Chapter 2) and soft clay (Chapter 3). Lastly, simple and practical methods are developed based on the p-y curve framework for analyzing the lateral responses of pile groups in sand (Chapter 4) and soft clay (Chapter 5) subjected to static lateral loading. The proposed methods in this study were encoded into a series of open-source computer scripts for engineering practice. They were verified with the 3D continuum finite element (FE) analyses. Using the proposed methods, standard methods, and 3D FE method, parametric analyses were conducted to investigate the scour effects on the lateral behavior of the monopile-supported OWTs under crustal earthquakes and that of the pile groups under static loading. The factors considered in the parametric study included effects of scour-hole dimensions, soil stress history, soil density, soil-pile interface behavior, soil liquefaction potential, pile group configurations, etc. Through the parametric analyses, the standard methods were critically assessed by comparing the results to those calculated by the proposed methods and 3D FE methods, and some design-related issues were also discussed. / Graduate Local scour Pile tension capacity Vertical effective stress Scour-hole dimensions Sand Offshore wind turbine monopile Earthquake Liquefaction Soft clay Soil stress history Pile group Lateral capacity
95	CENTRIFUGE MODELLING AND NUMERICAL SIMULATION OF NOVEL HYBRID FOUNDATIONS FOR OFFSHORE WIND TURBINES Li, Xinyao 07 September 2020 (has links) No description available. Civil Engineering Geotechnology Ocean Engineering cyclic load finite element analysis geotechnical centrifuge test hybrid foundation monotonic load offshore wind turbine seismic load soil pressure
96	CABLES DECOMMISSIONING IN OFFSHORE WIND FARMS: ENVIRONMENTAL AND ECONOMICAL PERSPECTIVE Al-Sallami, Omer January 2021 (has links) Addressing the decommissioning issues is vital to ensure a sustainable and effective process of such an essential part of the project life cycle. While there is a set of good practices and regulations that govern most of the decommissioning activities, the cable decommissioning issue is still in a big debate and often left abandoned at the seabed due to environmental concerns, as justified by most developers. This paper is aiming to understand the environmental and economic consequences of cable decommissioning. The available research papers and reports that are dealing with cable decommissioning issues have been reviewed. The cables are often decommissioned using similar methods to installation. However, there are no regulatory obligations to removing the cables in most countries. Cable installation will be associated with environmental impacts, but they are considered to be negligible. Additionally, Recycling cables’ copper is beneficial in both aspects environmentally and economically as copper prices are on the rise. A comparison between the ESs and decommissioning programs in a number of OWFSs have been conducted to understand the justification used for abandoning the cables. Most of the decommissioning reports have considered cable decommissioning to cause “considerable damage to seabed ecology”. However, that contradicts what was found in the ESs, where the impact level was considered negligible and anticipated to be similar to installation. It was unclear whether the abandonment of cables was driven by environmental considerations or not. A case study has been selected to compare cable and monopile decommissioning costs and the contribution of each component to the total decommissioning cost, including possible revenue generated from recycling. It was found that the cost-benefit of cable decommissioning is incomparable to monopile decommissioning as the latter is very costly, and the possible residual value is insignificant when compared to cables. Moreover, it is possible that the total cable decommissioning cost to be largely offset by the revenue generated from copper resell. Additionally, the cable decommissioning total cost can be almost paid by recycling cables if copper prices increase in the near future. Offshore wind energy subsea cables decommissioning Annan elektroteknik och elektronik Energy Systems Energisystem Environmental Management Miljöledning
97	Reactive power compensation of the electricity grid with large-scale offshore wind farms in Sweden : Technical capabilities, grid codes and economic incentives Bråve, Agnes, Särnblad, Sara January 2022 (has links) Year 2040 the goal is to have a 100 % renewable Swedish energy system. Svenska kraftnät (Svk) predicts fully decommissioned nuclear power plants and an increased amount of connected wind power plants, especially offshore, year 2045. These kind of renewable power plants are non-synchronous and do not provide the grid with the same system stability services naturally as synchronous generators, such as nuclear power plants. With the increased number of renewables connected, one future challenge is to maintain the stability of the power grid. Grid stability can be divided into voltage-, frequency- and rotor angle stability.This thesis has investigated how large-scale offshore wind power plants (OWPPs) can contribute with reactive power compensation and in turn voltage stability to a nearby onshore power grid in Sweden. The evaluation has been done from the perspective of the TSO and the OWPP owner interests, with a focus on grid codes, economic incentives and technical capabilities.This project has been made in three parts. First, a comparison of voltage stability control requirements in different European grid codes was made. Secondly, static power flow simulations of a case study of a 1000 MW OWPP have been performed in PowerWorld Simulator, testing the OWPP’s reactive power outputs under different circumstances. Thirdly, a market opportunity analysis has been completed, analyzing reactive power market opportunities for OWPPs as well as for TSOs.The study shows that the reactive power capabilities of the simulated OWPP is considerable higher than the Swedish grid codes requires. Thus, an opportunity is to make the grid codes stricter, in combination with economic incentives. The case study showed that the distance offshore has an impact of the reactive power reaching the grid onshore. Though, the OWPP’s contribution to local voltage stability onshore is considered as good. Finally, with short- and long-term contracts, a reactive power market can be favorable for both the OWPP owner and the TSO. Wind power offshore wind farm reactive power reactive power market grid code RfG voltage stability Vindkraftspark havsbaserad vindkraft reaktiv effekt reaktiv effektmarknad nätkod spänningsstabilitet Engineering and Technology Teknik och teknologier
98	Havsbaserad vindkraft i svensk media : En kvalitativ studie om konflikter och argument (för och emot) gällande havsbaserad vindkraft i Sverige Bäcklund, William January 2023 (has links) The aim with this study is to analyze and try to understand the arguments and conflicts associated with the planning and development of offshore wind power in Sweden, and to study various media articles and their significance for offshore wind power in Sweden. A qualitative method has been applied in the form of a media analysis. The material for the study is based on diverse types of articles from the media in the form of news articles, commentaries, and debate articles. The articles I have chosen to analyze come mostly from the most popular news editors in Sweden; "Aftonbladet", "Dagens Nyheter" and "Svenska Dagbladet". There are also news articles from local newspapers so that even smaller local events can be captured and studied. Further in this study, media such as Swedish Radio and SVT Nyheter have been applied where shorter news items can be examined. This result shows how the opposition and arguments for and against offshore wind power are played out in the media and that the media can function as an information provider for offshore wind power linked to the planning and expansion of offshore wind power in Sweden. Many opinions want to highlight the negative consequences of offshore wind power, mainly from a local point of view. In some cases, opposition is also about preserving nature's values and not making interventions in nature that affect biodiversity, but this is something that "NIMBY" may have led to. That media coverage of the topic is largely based on informing people about ongoing projects and preparing press releases with important information about the projects, as well as acting as an information channel. Offshore wind power local resistance arguments for and againts news media Havsbaserad vindkraft lokalt motstånd argument för och emot nyhetsmedia Human Geography Kulturgeografi
99	Dynamics of a CRAFT : A simulation study on a Counter Rotating vertical Axis Floating Tilting wind turbine Hedlund Peters, Benjamin, Goude, Linda January 2023 (has links) In this thesis the Counter Rotating vertical Axis Floating Tilting wind turbine (CRAFT) has been explored by creating a simulation model in the program Simulink. The CRAFT prototype is a new type of wind turbine under development by World Wide Wind and Uppsala University with the aim to produce a large scale floating vertical axis wind turbine (VAWT) with two cone shaped counter rotating turbines. The objective of this thesis is to study the required size of the secondary generator in the CRAFT. The generator is required in order to keep both of the turbines rotating with the same but opposite rotational speed, even when the turbines are experiencing different wind loads. Further areas that are investigated are if certain parameters have a specifically high impact on the need for the secondary generator. The objective was reached by creating a model of the prototype and implementing control algorithms for both the secondary and main generator in order to control the rotational speed of the turbines. The behaviour of the CRAFT was then simulated with different wind loads and varying parameters such as the size of the main load, the size of the power output to the secondary generator and the wing length of the lower turbine. The simulations showed that it is possible to keep the rotational speed of the two turbines equal and opposite even during turbulent wind loads with the chosen control algorithm. The simulation also showed that if a small deviation in the turbine's rotational speed is allowed, a secondary generator of only 1 kW is needed instead of the currently used 5 kW generator. It was also shown that the elongating of the lower turbine wings had a small and positive effect on the energy output of the CRAFT. wind power counter rotating contra rotating offshore wind floating wind power vertical axis wind turbine VAWT renewable energy Energy Systems Energisystem
100	Climate Impact of Wind Turbine Production : Emissions from Material and Energy Usage for Onshore and Offshore Wind Turbines Arnelo, Joel, Kolte, Maria January 2023 (has links) Wind power is a renewable energy source that is making great strides in the global energy sector. While wind power is a renewable energy source, it is not entirely free from carbon emissions. This is because the production of wind turbines is dependent on the use of energy, and as a result can emit large amounts of carbon dioxide. This is because the production of wind turbines is dependent on the use of energy and as a result can emit large amounts of carbon dioxide. The emissions come from two sources, the materials used in the wind turbine and the energy used in the manufacturing process. Because wind turbine production is global, the geographical location also affects the climate impact. The purpose of this study is therefore to evaluate the climate impact from material and energy use for the different turbine components. Furthermore, it aims to evaluate the total climate impact between on-and offshore wind power as well as evaluate the climate impact between production in Sweden, Germany and China. The climate impact is based on 13 Vestas LCA reports, together with a model developed in excel. The results show that the location of production plays a significant role in the total emissions, due to the large variation in the electricity mix between different countries. Generally, the steel components are the largest contributors to the total CO2 emissions. Consequently, offshore wind has a higher climate impact than its onshore counterpart because the offshore foundation is made of steel. The result is, however, limited due to the lack of standardisation and since specific information regarding wind power is hard to acquire. / Vindkraft är en förnyelsebar energikälla, som gör stora framsteg inom den globala energisektorn. Samtidigt som vindkraften är förnyelsebar, är den inte helt fri från koldioxidutsläpp. Detta beror på att produktionen av vindkraftverk kräver energi och kan därför släppa ut stora mängder koldioxid. Utsläppen kommer från två källor, de material som används i vindkraftverket och energin som behövs vid tillverkningen. Eftersom produktion av vindkraftverk sker på ett globalt plan, har även den geografiska platsen där tillverkningen sker en påverkan på klimatpåverkan. Syftet med denna studie är att undersöka klimatpåverkan från material och energianvändningen fördelat över vindkraftverks huvudkomponenter. Utöver detta, syftar den även till att undersöka den totala klimatpåverkan mellan land- och havsbaserad vindkraft samt hur klimatpåverkan skiljer sig åt mellan produktion i Sverige, Tyskland och Kina. Studien utgår från 13 Vestas LCA rapporter och använde en excelmodell för att utvärdera utsläppen av koldioxid. Resultatet visar att den geografiska platsen där produktionen sker har stor betydelse för de totala utsläppen, eftersom det är stor variation i energimix mellan olika länder. Överlag är det de stora stålkomponenterna som har störst bidrag till klimatpåverkan. Till följd av detta har havsbaserad vindkraft större klimatpåverkan än landbaserad, eftersom fundamentet primärt består av stål. Resultatet är dock begränsat, på grund av bristen av standardisering i rapportering och eftersom det är svårt att tillhandahålla specifika data gällande vindkraft. Wind turbine production Wind turbine components Onshore and Offshore wind power Wind power climate impact Produktion av vindkraftverk Vindkraftverk komponenter Landbaserad och havsbaserad vindkraft Klimatpåverkan vindkraft Engineering and Technology Teknik och teknologier

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