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The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
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Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Showing 11 to 13 of 13 (0.032 seconds)Spelling suggestions: "subject:"solpaneler""
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Energiförsörjning med solenergi genom användning av solcellspaneler : Ett implementeringsförslag för Rosendals Trädgård / The Energy Consumption of Solar Energy utilizing Solar Cells : An implementation suggestion for Rosendals TrädgårdArgården Björn, My, Boija, Olivia, Ekvall, Joakim January 2019 (has links)
Denna rapport redogör för ett projekt inom området industriell teknik och hållbarhet. Studien utreder möjligheten att tillämpa en förnyelsebar energikälla där solenergi skall utvinnas genom solceller. Energin som utvinns skall till en viss grad leda till energiförsörjning hos Rosendals Trädgård. Verksamhet har valts som ett hypotetiskt förslag på hur man kan anpassa, beräkna och implementera solceller. För att uppnå ett realistiskt förslag har företaget HP Solartech används som ett “verktyg” och teoretiskt stöd kring solcellstekniker och beräkningsmodeller. Syftet med detta projekt var att ta fram beslutsunderlag för Rosendal, med hjälp av att använda HP Solartechs simuleringsprogram för solcellsanläggningar. Resultatet visade att en solcellsanläggning på Rosendal skulle täcka 24% av den årliga energiförbrukningen och ge en kostnadsbesparing på SEK 160 900. / This report describes a project concerning the area within industrial technology and sustainability. The research investigates the possibility to apply a renewable energy source utilizing solar energy through solar cells. The energy that extracts shall, to a certain extent, be applied as an energy source to the establishment Rosendals Trädgård. Rosendals Trädgård was chosen as a hypothetical example of how an implementation of an organization can be successful. The company HP solartech was a leading hand during the study since they attain professional knowledge within this subject. In order to make the study accurate, HP solartech supported the data by sharing the ground theories about solar energy, the difficult calculations and the implementation of solar cells. With their guiding and support, valuable facts and results was attained. The aim to this project is to present a proposition to Rosendals Trädgråd with support from HP solartech. The result for Rosendal turned out to a production of solar energy that covers 24% of their current energy consumption and an economical saving of SEK 160 900 annually.
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Solcellspaneler på kulturhistoriska tak – En skänk från ovan? : En komparativ fallstudie om Fläckebo kyrka och Stuguns nya kyrka / Solar panels on historical roofs - A gift from above? : A comparative case study about the Fläckebo church and Stugun's new churchDahl, Humla January 2019 (has links)
Följande undersökning är en komparativ fallstudie av två tillståndsansökningar, genomförda i enlighet med Kulturmiljölag 1988:950, gällande solcellspaneler på kyrkligt kulturminne. Undersökningar belyser Fläckebo kyrka i Västmanlands län och Stuguns nya kyrka i Jämtlands län och studerar hur dessa fått avslag, respektive bifall till montering av solcellspaneler på kyrkobyggnadernas tak. Syftet med undersökningen är att studera om KML-relaterade ärenden bedöms olika i tid och rum.För att förklara skillnaderna mellan fallen används analysmetoden ”Most Similar Systems Design”. Undersökningen visar att rättspraxis är oförändrat men att praxis vid handläggning av dessa ärenden skiljer sig åt.
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Future Sustainable Energy Solutions for Sulaymaniyah : Minor Field Study / Framtide hållbara energilösningar för Sulaymaniyah : Mindre fältstudieBaban, Darin, Askari, Pavell January 2019 (has links)
The study aims to identify the reasons behind power shortages in the city Sulaymaniyah, located in northern Iraq or Iraqi Kurdistan, and to clarify how large the difference between power demand and supply is. Also, several interviews have been performed to give further insight to the issues and possibilities the region is facing. Nevertheless, a portion of the energy demand is met by local diesel generators supplying power in city districts. With the use of the software program ArcGIS, a mapping of all the diesel generators in the city districts is done in order to visualize the unsustainable conditions of the city. In addition, the energy output of the diesel generators is quantified, and the energy supplied to a household is estimated on an average. Later, calculations are performed to estimate the diesel generators price for electricity, their amount of annual CO 2 emissions and social costs. In order to bring light to renewable energy solutions, a solar PV configuration was chosen based on regulations and infrastructure issues in the region, suitable for households. Furthermore, with the use of intra-hour solar irradiance data from Meteonorm and the software Matlab, an optimal solar PV angle was calculated for Sulaymaniyah. Thereafter, the goal was to substitute diesel generated energy with solar PV energy and thus a solar PV system was estimated for a typical household based on; the average energy received from diesel generators, the solar PV system’s efficiency and the total solar irradiance striking the tilted panels. Furthermore, a Net Present Value was calculated to evaluate the economic profitability of the solar PV investment. Lastly, a sensitivity analysis was done with different scenarios to predict different outcomes of the NPV model. The study found that the energy system in Iraqi Kurdistan is unreliable and unsustainable, mostly due to infrastructure issues and political uncertainties. Due to these issues, power shortages occur on a daily basis and the difference between power supply and demand reached an average of 350 MW throughout 2018, and the largest difference reached 1304 MW. The number of diesel generators in the city was 525 and had a combined installed capacity of 176.6 MW, however they are usually working at 85 % operational efficiency resulting in a power supply of 150.1 MW. Additionally, it was estimated that a household receives an average of 920.07 W from the diesel generators. Furthermore, the calculated price for electricity was 207 IQD/kWh and all the generators combined pollutes approximately 319000 tons of CO 2 per year. The optimal angle for a solar panel in Sulaymaniyah was calculated to 21° and the recommended configuration for a solar PV system for households was a stand-alone battery storage system. In order for households to replace the diesel generators they need a capacity of 1.62 kW and a dimensioning of 9.66 m 2 . Finally, based on the NPV model it was found that it is economically profitable to invest in a solar PV system with today’s conditions. However, the investment is profitable with a relatively small margin and based on a scenario analysis, it showed that the investment might easily become unprofitable with the change of the discount rate. Lastly, it can be discussed that the actual demand in Sulaymaniyah is lower than the one presented, since it is artificial and very dependent on peoples consuming behaviors which might be different if they were to have access to electricity all the time. Also, one of the biggest obstacles that might hinder solar PVs to be integrated to the energy system is the net-metering, regulations and tariff issues. The KRG clearly does not give incentives to its people to invest in renewable energy, which also might be the reason why there is a very small market in Sulaymaniyah.
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