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71	Description et analyse du fonctionnement énergétique des espaces bâtis. Mises en œuvre systémique du bilan carbone associé. Application à l'Éco Ferme de Vincendo et au territoire de Mayotte / Description and analysis of energy functioning of built spaces. Systemic implementation of the associated carbon footprint. Application to the Vincendo Eco Farm and the territory of Mayotte Nidhoimi, El-Assad 19 July 2018 (has links) Dans un contexte où les tensions liées aux ressources énergétiques fossiles sont de plus en plus vives, concevoir une nouvelle manière d'appréhender le contexte énergétique est devenu essentiel. Les moyens de production et de consommation énergétiques habituels ont montré leur limite avec l'apparition de nouveau type de pollution pour différents secteurs. Dans ce rapport de thèse, nous nous sommes essentiellement axés sur le secteur de l'électricité en proposant un outil, d'aide à la décision, pour simuler la consommation électrique ainsi que la production électrique à partir des énergies renouvelables (EnR). La simulation de la consommation électrique permet d'avoir des informations à différents échelles d'observation en s'appuyant sur une démarche systémique et typologique, qui permet de calculer le bilan carbone associé à cette consommation ainsi que son coût annuel. Par la suite, cette consommation a été analysée à l'échelle horaire afin de pouvoir là mettre en relation avec des fichiers de production pour effectuer un pilotage au niveau de la courbe de charge. Ce pilotage a pour but de lisser les pics au niveau de la courbe de charge. Les premiers résultats analytiques obtenus à l'aide des outils développés montrent qu'il est possible de réduire l'appel au réseau électrique normal à un certain niveau en fonction des dimensionnements des systèmes de production EnR et du stockage. Ainsi que de pouvoir limité les coûts d'investissement au juste nécessaire, c'est-à-dire avoir un prix le moins cher possible, grâce à une optimisation du système EnR. / In a context where the tensions linked to fossil energy resources are increasing, design a new way of understanding the energy context has become essential. The usual means of energy production and consumption have shown their limit with the appearance of new types of pollution for different sectors. In this thesis, we mainly focused on the electricity sector by proposing a tool to simulate electricity consumption and electricity production from renewable energies (RES). Simulation of electricity consumption allows having information on different observation scales based on a systemic and typological approach, according to which the associated carbon footprint to this consumption is being calculated as well as its annual cost. Subsequently, this consumption was analyzed at the hourly scale, which is to relate it to the production files in order to control the load curve. This control aims to smooth down the peaks of the load curve. The first analytical results, obtained by using the developed tools, show that it is possible to reduce the use of the normal electrical network to a certain level according to the dimensions of the RES production systems and storage. Consommation électrique Production EnR Approche systémique Approche typologique Analyse du cycle de vie Système d'espace bâti Espace bâti Territoire Bilan carbone Electricity consumption Renewable energy production Systemic approach Typological approach Life Cycle Analysis Built space system Built space Territory Carbon footprint
72	Cost Comparison of Repowering Alternatives for Offshore Wind Farms Bergvall, Daniel January 2019 (has links) The aim of this thesis is to evaluate different repowering alternatives from the viewpoint of increasing power production from existing offshore wind farms (OWF), as some of the first commissioned OWFs are approaching the end of their expected lifetime. The thesis presents a literature review of components and financial aspects that are of importance for repowering of OWFs. In the literature review, risks and uncertainties regarding repowering are also lifted and analysed. The thesis contains a case study on Horns Rev 1 OWF, where three different repowering scenarios are evaluated by technical and financial performance, aiming to compare the cost of repowering alternatives. The design of the case study is based around previous studies of offshore repowering having focused mainly on achieving the lowest possible levelized cost of energy (LCoE) and highest possible capacity factor, often resulting in suggested repowering utilizing smaller wind turbines than the existing ones. In order to evaluate the financial viability of repowering alternatives, the software RETScreen Expert was used to estimate the annual energy production (AEP) after losses and calculate the net present value (NPV) and LCoE for lifetime extension and full repowering utilizing different capacity wind turbines. Input values from the literature as well as real wind resource measurements from the site was utilized to achieve as accurate results as possible. The result of the case study shows that repowering of OWFs have the possibility of providing a very strong business case with all scenarios resulting in a positive NPV as well as lower LCoE than the benchmarked electricity production price. Although the initial investment cost of the different repowering alternatives presented in this thesis still are uncertain to some extent, due to the lack of reliable costs for repowering alternatives, this thesis provides a base for further research regarding the repowering of OWFs. Offshore Wind Power Development Offshore Wind Farm Offshore Repowering Lifetime Extension Decommissioning Levelized Cost of Energy Net Present Value Financial Analysis Feasibility Study End of Life Scenario Annual Energy Production Energy Engineering Energiteknik
73	On sizing and control of a renewables-based hybrid power supply system for stand-alone applications in an island context / Dimensionnement et réglage d’un système d’alimentation hybride à base d’énergies marines appliqué dans un contexte insulaire El Tawil, Tony 11 January 2018 (has links) L’objectif de cette thèse est de dimensionner et régler un système hybride de production d’énergie pour un site isolé de type insulaire, basé sur des énergies renouvelables marines. De manière préliminaire divers systèmes de production d’énergie renouvelable marine ont d’abord été étudiés et comparés de manière qualitative à des systèmes de production d’énergie classiques. Plusieurs types de système de stockage d’énergie ont également été étudiés, comparés et évalués dans le cas du site considéré. Cette analyse préliminaire a été étendue aux différents types de transmissions d’énergie offshore et de méthodes de réglage des convertisseurs associés aux sources renouvelables. A partir de l’étude des caractéristiques du site et de l’analyse statistique des ressources renouvelables (vents, courants marins) une méthode de dimensionnement des éléments du système de production est présentée, dans l’objectif de minimiser les émissions de CO2 et le coût du système sur son cycle de vie. Pour cela, une solution de gestion de la puissance basée sur la logique floue est proposée pour le type de site considéré et comparée à une solution plus classique basée sur des règles logiques. Pour finir, une étude détaillée des différentes méthodes de réglage du système hybride côté réseau est présentée. Trois niveaux de réglage sont considérés : réglage d’une source unique, réglage d’une ferme de plusieurs sources et réglage global du système hybride. Plusieurs modes de réglage sont considérés pour chaque niveau. / This PhD thesis models a renewable-based hybrid power supply system applied in an islanded context and investigates sizing and regulation strategies of such a hybrid system. First, various marine energy production technologies were reviewed and compared to common renewable resources. As well, various energy storage technologies were reviewed, compared, and evaluated to fit the chosen site characteristics. A brief investigation on offshore energy transmission and inverter regulations methods is presented. Then, a study of the site characteristics, and the availability of the different renewable energy resources in the area are presented. This energy study constitutes the basis of the proposed system sizing method, where minimizing the cost and the CO2 emissions are considered as the main objectives. Furthermore, a fuzzy logic power management approach is proposed for the islanded microgrid. Finally, a detailed study of the system components grid-side inverter regulation is presented. Three regulation levels were investigated: the single inverter, the renewable farm, and the hybrid system. In this context, different regulation strategies are considered at each level. Energies renouvelables marines Système d’alimentation hybride Site insulaire Réglage des systèmes hybride Réglage vectoriel Réglage VSG Marine renewable energies Hybrid energy production systems Islanded site Hybrid systems regulation Vector regulation VSG regulation 621.042
74	Optimalizace instalace kogenerační jednotky v rodinném domě / Optimizing installation of cogeneration units in family house Novotný, Jan January 2009 (has links) The work deals with usage of heat energy from cogeneration unit in a family house. It is focused especially on the use for family house's heating and warming of service water. Optimalization is made on existing cogeneration units. In this work we will handle with two types of cogeneration units of different capacities. From the beginning we concern in current situation and the possibilities of regulation. Further we deal with the possible ways of optimalization of winter and summer running and with the costs for these optimalizations.
75	Kogenerační jednotky pro RD – hodnocení a simulace / The Cogeneration Units for Family House - Evaluation and Simulation Martynek, Václav January 2013 (has links) Master’s thesis deals with cogeneration units of low power that are used for heating of buildings and to cover the heat demand of small industrial enterprises. The introductory chapters are focusing on clarifying the principles of combined heat and power (CHP) as well as on the basic advantages and important indicators of CHP. The thesis presents a brief overview of cogeneration devices by type of primary units and also provides an overview of cogeneration units suitable for family houses that are currently available on the market. The text describes how to install and connect the cogeneration unit. The fourth chapter includes description of elemental thermal processes and possibility of heat transfer. The fifth chapter describes the thermal circuit model and calculation efficiency of a cogeneration unit. Thermal circuit consists of a cogeneration unit and a multivalent tank for hot water heating system and potable hot water system. The object of master’s thesis is to create a model of thermal circuit cogeneration units in a simulation program and a graphical user interface, that will allow a simple way to evaluate the operation of the cogeneration unit when changing the input parameters.
76	Projektové řízení výstavby technologického celku / Project construction management technology unit Šaroun, Josef January 2012 (has links) The target of this master thesis is specify the requirements, which come up while summing the investment aim of a new 40MW energetic unit, and show the overall project management. Thesis is divided into two parts. First part deals with project management from the investors point of view. There is also detailed concept study, technological description of piston co-generation units and combined cycle, concept design of calculated variations and their economical analysis. Second part is taken from the point of view of the main supplier. There is defined the range of operations, documents and official permissions needed for successful finish of the civil part of the energetic unit project.
77	WIND POWER PREDICTION MODEL BASED ON PUBLICLY AVAILABLE DATA: SENSITIVITY ANALYSIS ON ROUGHNESS AND PRODUCTION TREND Sakthi, Gireesh January 2019 (has links) The wind power prediction plays a vital role in a wind power project both during the planning and operational phase of a project. A time series based wind power prediction model is introduced and the simulations are run for different case studies. The prediction model works based on the input from 1) nearby representative wind measuring station 2) Global average wind speed value from Meteorological Institute Uppsala University mesoscale model (MIUU) 3) Power curve of the wind turbine. The measured wind data is normalized to minimize the variation in the wind speed and multiplied with the MIUU to get a distributed wind speed. The distributed wind speed is then used to interpolate the wind power with the help of the power curve of the wind turbine. The interpolated wind power is then compared with the Actual Production Data (APD) to validate the prediction model. The simulation results show that the model works fairly predicting the Annual Energy Production (AEP) on monthly averages for all sites but the model could not follow the APD trend on all cases. The sensitivity analysis shows that the variation in production does not depend on ’the variation in roughness class’ nor ’the difference in distance between the measuring station and the wind farm’. The thesis has been concluded from the results that the model works fairly predicting the AEP for all cases within the variation bounds. The accuracy of the model has been validated only for monthly averages since the APD was available only on monthly averages. But the accuracy could be increased based on future work, to assess the Power law exponent (a) parameter for different terrain and validate the model for different time scales provided if the APD is available on different time scales. wind resource assessment wind power prediction model wind power project MIUU wind flow modelling annual energy production production trend wind measurement power curve power law exponent roughness class Elektroteknik och elektronik
78	Praktiska och Ekonomiska förutsättningar för Solarblinds : En preliminär studie av en Solarblinds prototyp baserad på de praktiska och ekonomiska perspektivet. Muhindo, Emmanuel, Rashou, Joumata January 2022 (has links) This study addresses the use of a Solar blind system (SBS) instead of ordinary glass used on windows of buildings. To investigate the effects of using an SBS for electricity energy generation a fictitious wooden house as a prototype, a real building needed to be constructed. The purpose of experimental studies is to measure the effect and asses the performance by examining the optimal angle of inclination and evaluating the profitability of SBS. To calculate the electricity energy generation by it is then expected that general renovations of a building will be used in the system. To perform the different scenario for each inclination angle, the simulation software PVsyst was used where the measurements are validated according to the simulation results to confirm that models are suitable and which inclination angles produced the most electricity. After the validation process, a financial assessment, and an annual electricity production of the system for a fictitious building where SBS is applied were performed. The result for the annual electricity production at different angles of inclination turned out to be 2457 kWh/year at 30, 2235 kWh/year at 60 and 1781 kWh/year at 90 . The optimal angle of inclination was 30 , which also has the highest electricity production compared to the other angles. Electricity production does not differ much with the inclination angle of 60. The simulation for the annual electricity production was examined for ten windows in opposite directions. The investment cost for the use of SBS was extraordinarily high, landing at 28,120 SEK/kW. The reason for this high investment cost is that it includes high material costs and that the area for SBS systems is low, which is 1,696 m². The reason is that the low area in m² leads to a lower electricity generation and the higher the area m² leads to higher electricity generation, which turns into affecting the profitability and electricity production. SBS Electrical energy production LCOE Simulation Pyranometer Sunspace Inclination angle Treehouse and Profitability. SBS Elproduktion LCOE Simulering Solceller Lutningsvinklar Lönsamhet Solutrymme Trähus och Pyranometer. Engineering and Technology Teknik och teknologier Övrig annan teknik
79	Att utforska kärnkraft : Lokala uppfattningar, riskperception och NIMBY-fenomenet / Exploring Nuclear Power : Local Perceptions, Risk Perception, and the NIMBY Phenomenon Dalman, Emma January 2023 (has links) Kärnkraft är ett kontroversiellt ämne, som ofta ger upphov till två läger – de som är positivt inställda och de som är negativt inställda till kärnkraft. NIMBY (Not in My Backyard) är ett fenomen som syftar till de som är positiva till kärnkraft generellt, men som inte vill ha den i sin närhet. Utfasningen av fossila bränslen och den kommande ökningen av energibehovet ställer frågan vilken roll kärnkraften ska spela i framtidens energiproduktion. Den svenska regeringen vill satsa mer på kärnkraft och har pekat ut olika platser som möjliga lokaliseringar för kärnkraft. Säffle är en av dessa platser. Syftet med denna uppsats är att undersöka den lokala uppfattningen i fallet Säffle kring en potentiell kärnkraftsetablering i näromgivningen, samt vilka risker som invånarna ser med kärnkraft, för att se om NIMBY föreligger. Ett vidare syfte är också att undersöka hur invånarna i Säffle anser att energifrågan ska lösas. Metoden som använts är mixed methods där både en kvantitativ enkät och kvalitativa intervjuer genomförts. Data från 59 enkätrespondenter har analyserats med deskriptiv statistik, och sex djupintervjuer har analyserats med kvalitativ innehållsanalys. Resultatet pekar på att det finns olika läger hos respondenterna – de som är för och de som är mot kärnkraft. NIMBY föreligger endast i några få fall bland enkätens respondenter, däremot upptäcktes flera fall av omvänd NIMBY, där positiva yttranden om att förlägga ett kärnkraftverk i Säffle uttalades. Det finns olika faktorer som påverkar människors riskperception – de som är positiva till kärnkraft medger även de att det finns risker, samtidigt som de som är negativa också anser att det råder hög säkerhet vid svenska kärnkraftverk. Säkerhet och Rädsla var två således kategorier som identifierades. Både de som är positiva och de som är negativa till kärnkraft pratar om att ta ett miljöansvar, men ur olika utgångspunkter. Alla vill att Sverige satsar på förnyelsebar energi, och vissa vill addera kärnkraft till den mixen. Ingen vill satsa på kol eller olja. Det konstaterades också en brist på kommunikation från beslutsfattare om varför Säffle är utpekat som möjlig plats för kärnkraft i framtiden. / Nuclear power is a controversial subject that often gives rise to two camps – those who are in favor and those who are opposed to nuclear power. NIMBY (Not in My Backyard) is a phenomenon that refers to those who are generally supportive of nuclear power but do not want it in their vicinity. The phasing out of fossil fuels and the upcoming increase in energy demand raise the question of what role nuclear power should play in future energy production. The Swedish government wants to invest more in nuclear power and has identified various locations as possible sites for nuclear power plants, including Säffle. The purpose of this essay is to examine the local perception in the case of Säffle regarding a potential nuclear power establishment in the vicinity, as well as the risks that residents associate with nuclear power, to determine if NIMBY exists. Another aim is to investigate how the residents of Säffle believe the energy issue should be resolved. The method used is mixed methods, including both a quantitative survey and qualitative interviews. Data from 59 survey respondents have been analyzed using descriptive statistics, and six in-depth interviews have been analyzed using qualitative content analysis. The results indicate that there are different camps among the respondents - those who are in favor and those who are against nuclear power. NIMBY exists only in a few cases among the survey respondents; however, several instances of reverse NIMBY were discovered, where positive statements about locating a nuclear power plant in Säffle were expressed. Various factors influence people's risk perception – those who are in favor of nuclear power also acknowledge the existence of risks, while those who are against it believe that Swedish nuclear power plants are highly secure. Safety and Fear were thus identified as two categories. Both those in favor and those against nuclear power discuss taking environmental responsibility, but from different perspectives. Everyone wants Sweden to invest in renewable energy, and some want to add nuclear power to the mix. No one wants to rely on coal or oil. A lack of communication from decision-makers regarding why Säffle has been identified as a potential site for nuclear power in the future was also noted. Nuclear power nuclear power plant NIMBY reverse NIMBY risk perception risk governance energy production renewable energy climate change Kärnkraft kärnkraftverk NIMBY omvänd NIMBY riskperception risk governance energiproduktion förnyelsebar energi klimatförändringar Social Sciences Samhällsvetenskap Social Sciences Interdisciplinary
80	Solar heating in Colombia Skytt, Johanna, Järkil, Elina January 2012 (has links) This report describes the process of a thesis implemented in Colombia concerning solar energy. The project was to install a self-circulating solar heating system, as well as creating exchange of knowledge regarding renewable energy. One of the two major goals of the project was to achieve a functioning solar heating system in Timbio, a village outside the city of Popayán in south west Colombia. The purpose was to use the free power from the sun and show people how to use it in a way that is not complicated or too expensive. The second major goal was to hold workshops about renewable energy in general, and solar energy in particular. The preparatory work started in October 2010 by concretizing the project, applying for scholarships and establishing necessary contacts; both in Colombia and Sweden. Research and correspondence continued throughout 2011, along with the search for finance from companies and funds to cover the project costs. The implementation took approximately three months and was finished in April 2012. However, the project was limited due to time scale and financial resources. The project was successful; a functioning solar heater and workshops. The aim to arise interest for renewable energy is fulfilled plus the aim to show how to use solar energy in a practical and useful way. / Denna rapport beskriver processen av ett examensarbete som behandlar solenergi, implementerat i Colombia. Projektet innebar en installation av en självcirkulerande solvärmeanläggning, och även kunskapsutbyte om förnybar energi. Ett av de två huvudmålen var att installera en fungerande solvärmeanläggning i byn Timbio utanför staden Popayán i sydvästra Colombia. Syftet var att använda gratis energi från solen och visa människor hur man kan använda energin på ett inte alltför komplicerat eller dyrt sätt. Det andra huvudmålet var att hålla workshops om förnybar energi i allmänhet och solenergi i synnerhet. Förberedelserna började i oktober 2010 genom konkretisering av projektet, stipendieansökningar och skapandet av nödvändiga kontakter; i Colombia och Sverige. Efterforskningar och korrespondens fortsatte under 2011 samtidigt som finansiering till projektet söktes från företag och fonder. Installationen tog ungefär tre månader och färdigställdes i april 2012. Projektet begränsades av tillgänglig tid och ekonomiska resurser. Projektet blev framgångsrikt; en fungerande solvärmeanläggning och lyckade workshops. Målet att väcka intresse för förnybar energi uppfylldes, även målet att visa hur solenergi kan användas på ett praktiskt och användbart sätt. renewable energy solar heating Colombia awake interest inspire school kindergarten Popayán mixing valve knowledge exhange self circulating system hot water workshop sun local energy production förnybar energi solvärme Colombia väcka intresse inspirera skola förskola Popayán blandningsventil kunskapsutbyte självcirkulerande system varmvatten workshop sol lokal energiproduktion

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