Global ETD Search

851	Småskaliga vindkraftverk på byggnader i urban miljö : Möjligheter och hinder för ökad implementering / Small-scale wind turbines mounted on buildings in the urban environment : Possibilities and barriers for increased use Halvarsson, Patrik, Larsson, Emma January 2013 (has links) Intresset för småskaliga vindkraftverk på byggnader har ökat under de senaste åren. Allt fler människor blir mer energi- och miljömedvetna samt ser fördelarna med att elektriciteten produceras där den konsumeras; i den bebyggda miljön. Det är dock en större utmaning att installera ett vindkraftverk i urban miljö, jämfört med i öppet landskap, då det finns många faktorer som skall beaktas. Stadens komplexa uppbyggnad gör att vindens hastighet och riktning varierar och ger upphov till turbulenta strukturer i den omgivande luften. Många av dagens vindkraftverk kan ej operera effektivt vid turbulens, därför måste dessa vindkraftverken placeras på höga höjder för att nå den laminärt strömmande vinden över staden, vilket ger orealistiska längder på de master som krävs, även om vindkraftverket monteras på en byggnad. För att kunna utnyttja de vindar som uppkommer i urbana miljöer bör vertikalaxlade vindkraftverk med en helixformad geometri på rotorn användas. Dessa har visat sig vara både de effektivaste och de vindkraftverk som utsätter omgivningen för lägst nivå av störningar. Att placera ett vindkraftverk på en byggnad i urban miljö, där många människor vistas, kräver god kunskap om säkert montage samt vilka störningar som vindkraftverket kan generera. Ett vindkraftverk som monteras felaktigt kan bidra till hälso- och säkerhetsrisker, och om dessa risker blir för stora kan vindkraftverket tvingas att tas ur drift. För att vara säker på att vindkraftsanläggningen är tillförlitligt bör vindkraftverket och montaget vara stadardiserat och certifierat, något som i dagsläget saknas i Sverige. I dag finns inga direkta stöd för småskaliga vindkraftverk i Sverige, vilket är en bidragande faktor till att ekonomin kring dessa vindkraftverk är bristfällig. Elcertifikatsystemet som skall ge stöd åt förnyelsebar energi är inte utformat för småskalig elproduktion. Men i takt med att detta användningsområde för vindkraft utvecklas samt att priset för energi förväntas stiga kommer troligtvis byggnadsmonterade vindkraftverk bli en lönsam investering i framtiden. / The interest for small-scale wind turbines mounted on buildings has increased during the last couple of years. More and more people are giving more consideration to energy and environmental questions and are appreciative of the benefits of producing electricity where it is consumed; in the urban environment. However it is a greater challenge to install a wind turbine in the urban environment, compared to an open landscape, because of the many factors that needs to be taken in consideration. The complex structure of the city has an effect on the speed and direction of the wind and causes turbulent structures in the surrounding air. Many of today’s wind turbines cannot operate effectively in turbulence, this is why these turbines need to be placed on high heights to reach the laminar wind flow over the city, which gives unrealistic lengths of the towers that are required, even if the turbine is mounted on a building. To be able to utilize the existing wind in urban environments a vertical axis wind turbine with a helix shaped rotor should be used. These turbines have shown themselves to not only be the most effective but also the turbines that expose the surroundings to the lowest level of disturbances. To place a wind turbine on a building in an urban environment, where a lot of people reside, requires a good knowledge of how to securely mount the turbine but also what kind of disturbances that a turbine can emit. A turbine that is mounted incorrectly can contribute to health and safety hazards, and if these risks become to great the turbine may be forced to be taken out of operation. To be certain that the wind turbine and its components are trustworthy the turbine and mounting should be standardized and certified, a feature that don’t exist today in Sweden. Currently there is no direct support scheme for small-scale wind turbines in Sweden, which is a contributing factor to the inadequate economics surrounding these wind turbines. The Swedish system with certificates is meant to give support renewable energy but the system is not suited for small-scale production of electricity. But the more this field of application for wind turbines develops, together with the assumption of rising cost of energy will most likely make building mounted wind turbines a profitable investment in the future. wind power wind turbines small-scale HAWT VAWT certificates net-metering feed in tariffs attachment mounting building mounted vindkraft vindkraftverk småskaligt HAWT VAWT elcertifikat nettodebitering inmatningstariffer infästning montage byggnadsmonterad Civil Engineering Samhällsbyggnadsteknik
852	Dynamic line rating implementation as an approach to handle wind power integration : A feasibility analysis in a sub-transmission system owned by Fortum Distribution AB Talpur, Saifal January 2013 (has links) Based on conventional static line rating method, the actual current carrying capability of overheadconductors cannot be judged. Due to continuous increment in electricity demand and the difficultiesassociated with new line constructions, the overhead lines are therefore required to be rated based on amethod that should establish their real-time capability in terms of electricity transmission. The methodused to determine the real-time ampacity of overhead conductors not only can enhance their transmissioncapacity but can also help in allowing excessive renewable generation in the electricity network. In thisdiploma work, the issues related to analyzing an impact of wind power on periodical loading of overheadline as well as finding its static and dynamic ampacities with line current are investigated in detail.Initially, in this project, the investigation related to finding a suitable location for the construction of a 60MW wind farm is taken on board. Thereafter, the wind park is integrated with a regional grid, owned byFortum Distribution AB. In addition to that, the electricity generated from the wind park is also calculatedin this project. Later on, the work is devoted to finding the static and dynamic line ratings for‘VL3’overhead conductor by using IEEE-738-2006 standard.Furthermore, the project also deals with finding the line current and making its comparison withmaximum capacity of overhead conductor (VL3) for loading it in such a way that no any violation of safeground clearance requirements is observed at all. Besides, the line current, knowing the conductortemperature when it transmits the required electricity in the presence of wind power generation is also animportant factor to be taken into consideration. Therefore, based on real-time ambient conditions withactual line loading and with the help of IEEE-738-2006 standard, the conductor temperature is alsocalculated in this project.At the end, an economic analysis is performed to evaluate the financial advantages related to applying thedynamic line ratings approach in place of traditional static line ratings technique across an overheadconductor (VL3) and to know how much beneficial it is to temporarily postpone the rebuilding and/orconstruction of a new transmission line. Furthermore, an economic analysis related to wind power systemis taken into consideration as well to get familiar with the costs related to building and connecting a 60MW wind farm with the regional grid. Regional grid overhead conductor wind power real-time weather dynamic line rating static line rating line current conductor temperature ampacity upgrading economics Elektroteknik och elektronik
853	Lillgrund Wind Farm Modelling and Reactive Power Control Boulanger, Isabelle January 2009 (has links) The installation of wind power plant has significantly increased since several years due to the recent necessity of creating renewable and clean energy sources. Before the accomplishment of a wind power project many pre-studies are required in order to verify the possibility of integrating a wind power plant in the electrical network. The creation of models in different software and their simulation can bring the insurance of a secure operation that meets the numerous requirements imposed by the electrical system. Hence, this Master thesis work consists in the creation of a wind turbine model. This model represents the turbines installed at Lillgrund wind farm, the biggest wind power plant in Sweden. The objectives of this project are to first develop an accurate model of the wind turbines installed at Lillgrund wind farm and further to use it in different kinds of simulations. Those simulations test the wind turbine operating according to different control modes. Also, a power quality analysis is carried out studying in particular two power quality phenomena, namely, the response to voltage sags and the harmonic distortion. The model is created in the software PSCAD that enables the dynamic and static simulations of electromagnetic and electromechanical systems. The model of the wind turbine contains the electrical machine, the power electronics (converters), and the controls of the wind turbine. Especially, three different control modes, e.g., voltage control, reactive power control and power factor control, are implemented, tested and compared. The model is tested according to different cases of voltage sag and the study verifies the fault-ride through capability of the turbine. Moreover, a harmonics analysis is done. Eventually the work concludes about two power quality parameters. Wind Power Power Electronics Induction Machine Controls (Voltage Control Active and Reactive Power Control Current Control DC Voltage Control) Voltage Source Converter (VSC) Power Quality Voltage Sags Harmonics and Grid Code. Elektroteknik och elektronik
854	Optimering av algoritmisk elhandelsstrategi genom prediktiv analys : Datavisualisering, regression, maskin- och djupinlärning / Optimization of algorithmic power trading strategy using predictive analysis : Data visualization, regression, machine learning and deep learning Forssell, Jacob, Staffansdotter, Erika January 2022 (has links) The world is right now in a global transition from a fossil fuel dependency towards an electrified society based on green and renewable energy. Investments in power grid capacity are therefore needed to meet the increased future demand which this transition implicates. One part of this is the expansion of intermittent energy sources, such as wind and solar power. Even though these sources have benefits in form of cheap and green energy, they have other characteristics that need to be addressed. Per definition, intermittent power sources cannot produce energy on demand since they are dependent on weather conditions such as wind and sun. This induces a second problem which is that it can be hard to predict the production from intermittent power sources, especially wind, which increases the volatility in the power market. Because of these characteristics, the expansion of wind power has increased the volume traded on the intraday power market. The intermittent energy surge, emphasizes the need of a good trading strategy for balance responsible parties to handle the increased trading volume and volatility. The prupose of this report is to introduce the elements which affect intraday power trading, formulate the fundamentals of a power trading strategy and thereafter explore how predictive models can be used in such a strategy. This includes predicting regulating and intraday market prices using linear regression models, neural networks and LSTM-models. Furthermore, the report highlights underlying properties which affects the predictive power of a prediction model used to forecast wind power production. Regulating prices can be predicted well using both linear regression models and more complex deep learning models based on weather and market data. Both approaches are better than using a simple model based on the latest regulating and market price, since the simple model tends to fall short in a volatile market. Overall, the deep learning models performs the best. The difference in result when predicting the volume weighted average price on the intraday market, using linear regression and machine learning, are not as substantial. In fact, the linear models tends to outperform the machine learning models in some instaces. The conclusion when analyzing how underlying properties affect wind power prediction models is that how far ahead the model predicts is not the key factor affecting predictive power. Instead, the production volume predicted has a larger effect. Power trading power trading strategy algorithmic trading intraday market regression machine learning deep learning wind power forecast regulatory prices VWAP Elhandel elhandelsstrategi algoritmisk handel intradagmarknaden regression maskininlärning djupinlärning vindkraft prognos reglerpriser VWAP Mathematics Matematik
855	Comparative LCA model on renewable power solutions for off-grid radio base stations Bondesson, Anna January 2010 (has links) Globally, there are approximately 900 000 telecommunication radio base station sites (RBS-sites)located in areas without access to the electrical grid. Traditionally, these sites are powered by dieselgenerators, consuming large amounts of fossil diesel fuel. Diesel combustion is connected both toenvironmental impacts and high economical expenses for the mobile operators. As the mobilenetwork expansion is increasingly located in off-grid areas of developing countries, the search forrenewable power alternatives has been intensified. This Master thesis presents results from a life cycle assessment (LCA) of photovoltaic and windturbine hybrid power configurations for off-grid RBS-sites. The LCA covers environmental impactsfrom all life cycle activities of the hybrid system: from raw material extraction, manufacturing, andtransportation, to on-site usage, and disposal. To enable assessment of variable hybrid configurations, four scalable sub-models were constructed:one diesel sub-model including the generator and yearly diesel consumption, one back-up batterysub-model, one PV module sub-model and one wind turbine sub-model. Included in the sub-modelswere required site equipment; e.g. foundations for generators, PV modules and battery banks, powerconverters, fuel tanks and possible housings. The number of generators, liters of fuel consumed peryear, number of battery cells, square meters of PV module and number of wind turbines were set asvariables. Hereby RBS-sites with different capacities and availability of renewable source could bemodeled. A hybrid configuration including 21 square meters photovoltaic modules, one wind turbine, a storageof 36 (12 V) batteries and one generator back-up consuming 1500 liters of diesel fuel per year wasevaluated. The hybrid site represents between 11 and 16 percent of the different environmentalimpact potentials, global warming potential specifically representing 13 percent, caused by acorresponding traditional diesel site consuming 20000 liters of fuel per year. The most importantparameters influencing the environmental performance of the renewable hybrid site following thediesel fuel production and combustion are the production energy mix and energy intensive processesincluding the up-stream silicon and lead processing. The thesis confirmed great environmental benefits of using wind and solar power at RBS-sites. Theadditional gain of applying wind power when feasible to decrease the PV module area or batterycapacity required was also demonstrated. The great importance of manufacturing location andelectricity mix should encourage Ericsson to map supplier manufacturing locations, searchingpossibilities to decrease the environmental impacts from the manufacturing phase of the differentsub-systems. / Idag finns det omkring 5 miljoner radiobasstationer i det i det globala telekomnätet, varav 900000 ärbelägna i områden utan tillgång till elektricitet. Traditionellt drivs dessa stationer av dieselgeneratorersom konsumerar stora mängder diesel. Dieselförbränningen bidrar både till lokala och globalamiljöeffekter samt höga driftkostnader för mobiloperatörerna. Expansionen av mobilnätet sker i alltstörre utsträckning i områden i utvecklingsländer utan elförsörjning, vilket har ökat intresset föralternativa kraftkällor. Inom examensarbetet har ett redskap för jämförande livscykelanalys (LCA) av förnyelsebara krafthybridlösningarför radiobasstationer utvecklats. Hybriderna kombinerar solceller och vindturbinermed dieselförbränning och batterier. Genom att använda LCA inkluderas miljöeffekter från alla steg i hybridsystemets livscykel; frånutvinning av råmaterial och tillverkning av sub-system, transport, användning på RBS-siten till denslutliga avvecklingen. För att kunna utvärdera olika hybridkonfigurationer skapades 4 olika delmodeller: en delmodell fördieselförbränning innefattande generator och dieselkonsumption, en batteri-delmodell, en PVdelmodellsamt en vindturbin-delmodell. Delmodellerna inkluderar även nödvändiga komponentersom betonggrund till generatorer, PV-modulerna och batteribanken. Antal dieselgeneratorer,battericeller, vindturbiner samt PV-moduler och liter dieselkonsumption kan varieras för att simuleraen specifik anläggning. En hybridlösning med 21 m2 solceller, en vindturbin, 36 stycken (12V) battericeller och endieselgenerator som konsumerar 1500 liter diesel per år analyserades. Hybridlösningen ger upphovtill miljöeffekter motsvarande mellan 11 och 16 procent, global uppvärmning motsvarande 13procent, av miljöeffekterna orsakade av en traditionell dieselkonfiguration som konsumerar omkring20000 liter diesel per år. Betydelsefulla parametrar som påverkar miljöeffekterna frånhybridlösningen förutom produktion och förbränning av diesel är vilken elektricitetsmix somanvänds vid tillverkning av de olika komponenterna och energiintensiva processer som kisel- ochblyframställning. Resultaten tydliggör de stora minskningar av miljöeffekterna som en övergång från dieselförbränningtill sol- och vindkraft på RBS-anläggningar kan ge. Den relativa förbättringen av att installeravindturbiner för att minimera mängden sol- och battericeller har även visats. Betydelsen avproduktionsplats och elektricitetsmix för den totala miljöpåverkan bör motivera Ericsson attkartlägga och välja tillverkare som innebär ett litet bidrag till de totala miljöeffekterna. renewable energy radio base station life cycle assessment LCA hybrid power system wind power solar power förnyelsebar energy radiobasstation livscykelanalys LCA hybridsystem för elgenerering vindkraft solenergi Engineering and Technology Teknik och teknologier
856	Multi-level governance and wind power construction in Sweden : A case study of Norrköping and a current wind power construction plan Krajnovic, Tamara January 2021 (has links) This case study focuses on wind power development in Norrköping using a multi-level governance approach. The aim is to examine the wind power decision-making process from the state to Norrköping municipality and to identify other factors that impact wind power development in the area. A textual analysis comparing national political party platforms and local parties' official stances and interviews has been used to achieve this study's goal. The study shows that the decision-making in vertical multi-level governance is both bottom-up and top-down. It also sheds light on a significant role the Swedish Armed Forces play in this process as an external actor. The study concludes that vertical multi-level governance, including municipal veto, although an important factor, needs to be complemented with external factors to see how it affects wind power development in Norrköping. Multi-level governance wind power national party platforms local parties the County Administrative Board municipal veto Swedish national goal 2040.
857	Reindeer Husbandry and Wind Power : Discourses surrounding the construction of IKEA's wind park on Glötesvålen and its local effects on reindeer husbandry Augustsson, Adam January 2021 (has links) The exploitation of land in Northern Sweden has caused a significant depletion of grazing grounds for semi-domesticated reindeer. This is a threat to the indigenous Sami reindeer herders of Sweden, who rely on the grazing ground in order to sustainably feed their herds. In the last decade, a significant amount of grazing land has been lost due to the construction of wind power parks (WPP) in important grazing regions. This thesis examines the discourse surrounding a WPP built in Härjedalen for IKEA. The WPP was built on Glötesvålen, a unique highland used for grazing by Mittådalen, a local herding community. Through a dissection of electronic sources and semi-structured interviews, the author conducts a discourse analysis to identify the most prevalent narratives surrounding the construction of IKEA’s WPP on Glötesvålen. An inductive approach is used to identify underlying ideologies present in the discourse through a relevant theoretical framework. The results show a pervasive enthusiasm for the WPP as a pivot towards renewable energy which mirrors the ideology of ecological modernization. The results also find a critical narrative which lifts the uneven power dynamic experienced by reindeer herders. This narrative is understood through the lens of Spivak’s (2010) “Can the Subaltern Speak?”. An additional discourse found is the symbolic issue between industrial ecological transitioning and the right to reindeer husbandry as a cultural heritage. / Exploateringen av mark i norra Sverige har orsakat en betydande förlust av betesmarker för renskötare. Detta hotar den svensk-samiska rennäringen, som förlitar sig på betesmarken för att hållbart mata sina hjordar. Under det senaste decenniet har en betydande mängd betesmark gått förlorad på grund av den ökande mängden vindkraftsparker (WPP) på, eller intillrenbetesmarker. Denna avhandling undersöker diskursen kring en WPP byggd i Härjedalen för IKEA. WPP byggdes på Glötesvålen, ett låg-fjäll som tidigare haft strategiskt viktiga betesmarker för samebyn Mittådalen. Genom en dissektion av elektroniska källor och halvstrukturerade intervjuer genomför författaren en diskursanalys för att identifiera de vanligaste narrativen om IKEAs vindkraftpark på Glötesvålen. En induktiv metod används för att identifiera underliggande ideologier som finns i diskursen genom ett relevant teoretisk ramverk. Resultaten visar en genomgripande entusiasm för vindkraft som ett steg mot förnybar energi. Detta narrativ speglar ideologin för ekologisk modernisering. Resultaten hittar också ett kritisk narrativ som lyfter den ojämna maktdynamiken som renskötarna upplever. Detta förstås genom Spivaks (2010) "Kan den underordnade tala?". Ytterligare en diskurs som upptäcks är symbolfrågan mellan industriell ekologisk omställning och bevarandet av renskötseln som kulturarv. reindeer husbandry sapmi wind power ecological modernization discourse renewable energy climate change lichen Spivak IKEA OX2 rennäring sapmi vind energi ekologisk modernisering diskurs förnybar energi klimatförändringar lav Spivak IKEA OX2 Environmental Sciences Miljövetenskap
858	Spatial modelling of sustainable wind power development Andersson, Martin January 2021 (has links) Measures to mitigate climate change has never been a more pressing matter thanit is today and the global debate over energy security, environmental decline andlimited resources is heated, which motivates decision makers and leaders to searchfor alternative energy sources, renewable sources. The Swedish government has seta goal to make its entire domestic electricity production 100 % renewable and phaseout energy production based on fossil fuels entirely by year 2040, where wind powerwill contribute largely to that goal. This study aimed to generally analyse where itwas suitable and not suitable to establish wind turbines with respect to ecological,social and economical values to achieve sustainable development.To do this, a multi-criteria analysis was conducted based on the analytical hierarchyprocess method with the extension of combining it with fuzzy triangular numbersand then comparing the two methods. Ecological values were set as protected areasand not suitable for wind turbine placement. Relevance of social and economicalvalues in relation to each other were differentiated by asking five experts in the fieldof wind power as renewable energy to perform a pairwise comparison between eightdifferent factors. This resulted in relative weights illustrating the importance ofeach factor. These weights were then brought into a GIS environment where theywere modelled for suitability along with areas subjected to formal protection andother land use acting as constraints in Ragunda municipality and Västernorrlandcounty. Different scenarios were modelled that did or did not include areas forreindeer husbandry as a constraint. The final suitability maps were then comparedto existing wind turbines as well as areas of national interest for wind power inSweden.Results showed that good wind conditions was the most prominent factor to consider when siting wind turbines. No significant difference was observed when fuzzyanalytical hierarchy process was used instead of the classic analytical hierarchy process when modelling suitable wind turbine placement in a GIS environment. Ananalytical methodology combined with multi-criteria analysis applied in this studyshow that potential suitable areas that has not yet been exploited by wind powerexists both in Ragunda and Västernorrland that takes into account ecological, socialand economic criteria to support sustainable development. / Åtgärder för att förhindra klimatförändring har aldrig varit en mer angelägen frågaän den är idag och den globala debatten om energisäkerhet, miljöförstöring och begränsade resurser har väckt intresset hos många världen runt att påverka beslutsfattareoch ledare att titta på alternativa energikällor, förnybara källor. Svenska regeringenhar som mål att göra hela sin inhemska elproduktion till 100 % återförnybar ochfasa ut energiproduktion baserad på fossila bränslen helt till år 2040, där vindkrafttill stor del kommer att bidra till det målet. Denna studie syftade till att översiktligtanalysera var vindkraft är lämplig och inte lämplig att lokalisera med avseende påekologiska, sociala och ekonomiska värden för hållbar utveckling.För att göra detta genomfördes en multikriterieanalys baserad på metoden ’analytical hierarchy process’ med förlängningen av att kombinera den med ’fuzzy triangularnumbers’. Ekologiska värden sattes som skyddade områden ej lämpliga för etableringav vindkraft. Relevans av ekonomiska och sociala värden i förhållande till varandradifferentierades genom att tillfråga fem sakkuniga yrkesutövare inom vindkraftsområdet att göra en parvis jämförelse mellan åtta olika faktorer. Denna jämförelseresulterade i relativa viktningar som illustrerar vikten av varje faktor. Dessa vikter fördes sedan in i en GIS-miljö där de modellerades för lämplighet tillsammansmed områden som har formellt skydd och annan markanvändning vilket fungeradesom begränsade områden i Ragunda kommun och Västernorrlands län. Olika scenarier modellerades som inkluderade eller inte inkluderade områden för renskötselsom ett begränsningsområde. De slutliga lämplighetskartorna jämfördes sedan medbefintliga vindkraftverk samt områden av riksintresse för vindkraft i Sverige.Resultaten visade att goda vindförhållanden var den mest framträdande faktorn attta hänsyn till vid placering av vindkraftverk. Ingen större skillnad observerades nären ’fuzzy analytical hierarchy process’ användes istället för den klassiska ’analyticalhierarchy process’ när lämplig lokalisering av vindkraftverk modellerades i en GISmiljö. En analytisk metodik med hjälp av multikriterieanalys som applicerades i denhär studien visar på potentiellt lämpliga områden som ännu inte har utnyttjats avvindkraft finns både i Ragunda och Västernorrland som tar hänsyn till ekologiska,sociala och ekonomiska kriterier för att stödja hållbar utveckling. / Vindval wind power wind turbines wind turbine siting spatial modelling sustainable development GIS multi-criteria analysis AHP FAHP vindkraft vindkraftverk vindkraftslokalisering spatiell modellering hållbar utveckling GIS multikriterieanalys AHP FAHP Environmental Sciences Miljövetenskap Environmental Engineering Naturresursteknik
859	PREDICTION OF WIND TURBINE BLADE FATIGUE LOADS USING FEED-FORWARD NEURAL NETWORKS Mohammadi, Mohammad Mehdi January 2021 (has links) In recent years, machine learning applications have gained great attention in the wind power industry. Among these, artificial neural networks have been utilized to predict the fatigue loads of wind turbine components such as rotor blades. However, the limited number of contributions and differences in the used databases give rise to several questions which this study has aimed to answer. Therefore, in this study, 5-min SCADA data from the Lillgrund wind farm has been used to train two feed-forward neural networks to predict the fatigue loads at the blade root in flapwise and edgewise directions in the shape of damage equivalent loads.The contribution of different features to the model’s performance is evaluated. In the absence of met mast measurements, mesoscale NEWA data are utilized to present the free flow condition. Also, the effect of wake condition on the model’s accuracy is examined. Besides, the generalization ability of the model trained on data points from one or multiple turbines on other turbines within the farm is investigated. The results show that the best accuracy was achieved for a model with 34 features, 5 hidden layers with 100 neurons in each hidden layer for the flapwise direction. For the edgewise direction, the best model has 54 features, 6 hidden layers, and 125 neurons in each hidden layer.For a model trained and tested on the same turbine, mean absolute percentage errors (MAPE) of 0.78% and 9.31% are achieved for the flapwise and edgewise directions, respectively. The seen difference is argued to be a result of not having enough data points throughout the range of edgewise moments. The use of NEWA data has been shown to improve the model’s accuracy by 10% for MAPE values, relatively. Training the model under different wake conditions did not improve the model showing that the wake effects are captured through the input features to some extent. Generalization of the model trained on data points from one turbine resulted in poor results in the flapwise direction. It was shown that using data points from multiple turbines can improve the model’s accuracy to predict loading on other turbines. Machine Learning Feed-Forward Artificial Neural Network Wind Power Damage Equivalent Loads Fatigue Wind Turbine Blades NEWA Data SCADA Lillgrund Wind Farm Energy Engineering Energiteknik Applied Mechanics Teknisk mekanik
860	Att lägga guld på taken : Energikrisen som drivkraft för förnybara energikällor: en fallstudie i Trelleborg / Mining gold on roofs : The energy crisis as a driving force for renewable energy: a case study in Trelleborg, Sweden Hansson, Amanda, Säljö, Amanda January 2023 (has links) Energikrisen och klimatförändringarna har gjort införandet av förnybara energikällor avgörande för att minska koldioxidutsläppen. Husägare står för en betydande del av elkonsumtionen och att förstå deras attityder och beteende är av stor vikt för att främja implementeringen av förnybara energikällor. Studiens syfte var att få en förståelse för huruvida energikrisen har påverkat synen på förnybar energi och varför energikrisen i så fall bidragit med att påverka synen, med fokus bland villaägare i Trelleborgs kommun. Studien syftade också på att identifiera åtgärder för att kunna fortsätta främja implementeringen av förnybar energi. Metoden bestod av en fallstudie med utgångspunkt i grundad teori. Empirin samlades in genom intervjuer och sekundär data. Studiens resultat visade på att medan energikrisen lett till en någorlunda ökad positiv bild och ökat intresse i förnybara energikällor, fanns det en ökad medvetenhet gällande energikonsumtion i helhet och att villaägare sökte sätt att minska sin elförbrukning. I synnerhet syntes det att den främsta motivationen till att engagera sig i förnybar energi var av ekonomisk natur på grund av att energikrisen lett till höga elpriser, men att föreskrivna normer och okunskap spelade roll i hur man såg på förnybara energikällor. De slutsatser som drogs var att individer prioriterar ekonomisk vinning över miljön och att de kan styras av påtryckningar från samhället som kan forma okunskap och leda till förhastade beslut i förhållande till förnybar energi. För att främja antagandet av förnybara energikällor och öka positiva attityder behövs insatser som inkluderar ekonomiska incitament, informationskampanjer och utbildning. / The energy crisis and climate change have made the implementation of renewable energy sources crucial to reducing carbon dioxide emissions. Homeowners account for a significant portion of the electricity consumption, and understanding their attitudes and behavior is of great importance to promote the implementation of renewable energy sources. The purpose of the study was to gain an understanding of how the energy crisis has affected the view of renewable energy and why the energy crisis has contributed to affecting the view of renewable energy, with a focus among house owners in Trelleborg municipality. The study also aims to identify measures to further promote the implementation of renewable energy. The method consisted of a case study based on grounded theory. The data was collected through interviews and secondary data. The results of the study showed that while the energy crisis led to a somewhat increased positive image and increased interest in renewable energy sources, there was an increased awareness regarding energy consumption in general and that homeowners were looking for ways to reduce their energy consumption. In particular, it appeared that the main motivation to engage in energy measures was economic in nature due to the energy crisis leading to high electricity prices, but that injunctive norms and lack of knowledge played a role in how renewable energy sources were viewed. The conclusions that were drawn were that individuals prioritize financial gains over the environment and that they can be guided by societal pressures that can shape ignorance and lead to rushed decisions in relation to renewable energy. To promote the adoption of renewable energy sources and increase positive attitudes, efforts are needed that include financial incentives, information campaigns and education. energy crisis renewable energy economics energy efficiency house owners attitudes social norm environment wind power solar PV energikris förnybar energi ekonomi energieffektivisering villaägare attityd sociala normer miljö vindkraft solceller Environmental Sciences Miljövetenskap

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