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Solceller på Uppsalahems fastigheter : Ekonomisk potential fram till 2030 / PV systems on the apartment buildings of Uppsalahem : Economic potential until 2030Rydell, Andreas January 2015 (has links)
Uppsalahem is the leading housing corporation in Uppsala with its over 160 real estate properties. Uppsalahem is owned by the municipality of Uppsala, which has a climate and energy goal that aims for 100 MW of solar energy to be installed in Uppsala by 2030. The 100 MW goal, combined with Uppsalahem’s environmental policy, is a strong incentive to investigate the possibility of installing PV modules on the many available roof areas that Uppsalahem possesses. The objective of this thesis is to create a foundation for future decisions regarding PV systems for Uppsalahem. The economic potential for PV systems on apartment buildings until 2030 was therefore calculated. The calculations were made in a computer model created in Matlab that can be used by Uppsalahem for future decision-making. Uppsalahem owns a 2,0 MWp wind power plant that is expected to supply 35 % of the total electricity use of the corporation. The electricity produced in the plant is tax exempt, under the condition that no electricity, including PV produced electricity, is sold by Uppsalahem. As any surplus electricity cannot be sold, the profitability of all PV installations is determined largely by the electricity use of each building. The economic PV potential was calculated for 11 scenarios starting from a base scenario that was based on the parameters deemed most likely to be true. In the base scenario, where no electricity certificates or investment support were used, the potential was 0,30 MWp 2015 and 1,59 MWp 2030. If electricity certificates or investment support is used, the potential in 2015 is 1,13 and 1,64 MWp, respectively. For 2030 the potential increases to 1,90 and 2,10 MWp. In the base scenario, PV installations can supply 1,4 % of Uppsalahem’s annual electricity use in 2015 and in 2030 1,6 % of the 100 MW goal can be met by Uppsalahem.
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PÅVERKAN AV SNÖ OCH IS PÅ PV-SYSTEM : Bifaciala solcellsmoduler och påverkan av snö och is på dessa modulerQasmi, Daod January 2023 (has links)
No description available.
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Förnybar Energi : Solcellsanläggning på industribyggnad / Renewable Energy : Solar plant on industrial buildingVestlund, Tim, Andersson, Martin January 2013 (has links)
Examensarbetet har som mål att ta fram idéer om hur en solcellsanläggning kan se ut för takytorna på Holtab AB. Utvecklingen för att värna om miljön går hastigt framåt och både privatpersoner och företag har börjat att arbete med att göra sin insats för miljön. Holtab är intresserade utav att göra en insats och därför är de intresserade utav solcellstekniken och vill därför ha en undersökning om hur det skulle kunna se ut och fungera. Examensarbetet innehåller undersökningar, analyser, jämförelser och beräkningar och presenterar en idé om hur en solcellsanläggning skulle kunna tillämpas för ett optimalt effektuttag till minimal kostnad.
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Analys av verkningsgrad hos vattenplacerade solcellsmoduler : En jämförelse med landplacerade solcellsmoduler och mot en teoretisk modellQvist, Emil, Englund-Karlsson, Simon January 2018 (has links)
No description available.
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Tape solution in photovoltaic mini modules : A study into how the optical and electrical properties are affected by a novel method of assembling photovoltaic modules / Tejp lösning i fotovoltaiska minimoduler : En studie i hur de optiska och elektriska egenskaperna påverkas av en ny produktionsmetod i framställandet av fotovoltaiska modulerPotter, Alexander January 2020 (has links)
The goal of this thesis is to, on behalf of JB Eco Tech, investigate a novel method of interconnecting photovoltaic (PV) modules. The principle is to stick the interconnecting strings on the cells with a transparent tape instead of soldering. As a part of the assembly process, the module is laminated under heat which makes the strings stick to the PV cell. The method is going to reduce one step in the production process, replacing the soldering procedure with the lamination of the strings onto the cells. Also, the replacement of lead and silver will spare costs and the environment. To analyse the effects of the novel method on the performance of the cell, the optical properties of the module were investigated by mathematical models and Light Beam Induced Current (LBIC). Also, the electrical properties were compared to the conventional method of soldering by analysing the I-V characteristics. The experiments were done on mini modules. Although the mini module displayed a reflectance of about 5.7 – 6.0% the contribution of the tape only accounted for a maximum of 0.5%. Since the tape only covers a fraction of the cell, this reflectance is negligible. Only 3 modules were successfully analysed, and the electrical properties of the novel method did not differ from the conventional method. To solidify the later a claim a more extensive rapport has to be made. The thesis opens up a new research area where improvements to the novel method can be done. / Det här examensarbetet är gjort på uppdrag av JB Eco Tech. De har utvecklat en ny metod i produktionen av solcells moduler. Syftet med studien är att undersöka metoden som baseras på att fästa transparant tejp med en belagd koppartråd på solcellerna istället för den konventionella metoden som använder sig av lödning. Metoden kommer att reducera ett steg i produktionskedjan genom att utesluta lödningsprocessen. Processen kommer också bidra till en minskning i användandet av silver och bly vilket bidrar till en reducerad kostnad och en minskad miljöpåverkan. För att analysera effekterna av prestandan till följd av den nya metoden så analyserades de optiska egenskaperna med hjälp av matematiska modeller och Light Beam Induced Current (LBIC). De elektriska egenskaperna hos solcells modulerna jämfördes med den konventionella metoden som involverar lödning genom att analysera I-V karakteristiken för de båda metoderna. De ovannämnda experimenten utfördes på miniatyr moduler. Resultaten som erhållits visade på att modulerna hade en reflektans av 5.7 – 6.0% och att tejpen endast stod för max 0.5%. Tejpen täcker endast en bråkdel av cellen därför går det att konstatera att reflektansen som härstammar från tejpen är försumbar. Det innebar att de optiska egenskaperna inte bidrog till en signifikant påverkan på prestandan av modulerna. De elektriska egenskaperna av modulerna påvisade ingen signifikant skillnad mellan de två olika metoderna. För att säkerställa det senare antagandet krävs en utökad studie inom området. Studien har öppnat upp för nya rön som grundas på den nya metoden där det finns utrymme för förbättringar av tejpen.
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Optical active thin films on cover glass increasing the efficiency of photovoltaic modules.Johansson, Wilhelm January 2018 (has links)
Thin film coatings of ZnO, TiO2, CeOX and BiOX have been deposited on soda lime silica glass through spray pyrolysis. The effects on the optical properties of the coated glass, as well as the possible impacts on the life expectancy and energy efficiency of PV-modules have been studied. ZnO and TiO2 coatings both reduced the transmission of UV radiation of wavelengths destructive to PV-modules. Therefore, both have the potential to increase the life expectancy of PV-modules if used on cover glass. The ZnO thin film also showed an increase in photoluminescence at 377 nm when radiated with UV radiation of 325 nm while TiO2 reduced the photoluminescence. ZnO coatings on the cover glass have the potential to increase the efficiency of PV-modules in addition to UV protection. No CeOX or BiOX films were found to be deposited with the method used. The ZnO and TiO2 coated samples showed a decrease in transmission of light, due to increased reflection and possibly scattering. This needs to be addressed if these kinds of coatings are going to be beneficial for Si PV-modules.
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Återvinning av solcellsmoduler i Sverige : En undersökning av de energitekniska, ekonomiska och politiska förutsättningarnaAndersson, Stephanie January 2021 (has links)
The solar industry is one of the fastest-growing energy industries in the global market. The reason is a combination of the falling prices of modules and inverters and increased conversion to fossil-free energy production. When a photovoltaic module reaches the end of its life it needs to be replaced and discarded, which can create a sustainability problem depending on how this is managed. Today, less than 10% of the global photovoltaic waste is recycled. Only the European Union has implemented photovoltaic waste regulations in the form of the WEEE Directive, which requires that 85% of the waste is collected and at least 80% of waste collected must be prepared for reuse or recycling. This master thesis examines the energy technical, economic, and political conditions for a Swedish photovoltaic recycling plant. This is done through a literary study that is enhanced with calculations of future potential waste volumes and their economic value. As an alternative to a Swedish plant, the energy consumption for transporting waste to existing recycling plants in Europe is evaluated. The photovoltaic technologies included in this work are silicon-based mono-and polycrystalline modules, cadmium tellurium (CdTe) and copper indium gallium selenide (CIGS). Based on the calculations and the literature study, the energy technical conditions are good and not a barrier for a potential facility, the political conditions are deficient, and regulations need further development. The economic conditions constitute the largest barrier as waste volumes are not large enough for a Swedish facility to be economically profitable until 2042. The energy consumption for transport to existing recycling plants in Europe was 22 MJ/module for silicon-based mono-and polycrystalline modules and 10 MJ/module for CdTe modules. Which is a good alternative to a Swedish plant as collection processes and recycling processes are already in place.
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