Searched for: subject:"bifacial"
(1 - 9 of 9)
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Prabhudesai, Sukanya (author)
Global energy demand is on the rise. According to the International Energy Agency (IEA), in 2018, the building sector alone constituted 28 % of all energy-related CO2 emissions. In an effort to reduce the carbon footprint of the building sector, the European Union has decreed that every new building from 2021 must be a nearly zero energy...
master thesis 2019
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Ramesh, Santhosh (author)
The Levelized Cost of Electricity (LCoE) produced by PV systems is determined by yield (kWh) and cost of the system. Reducing the LCoE of the solar power can be achieved either by increasing the yield or by reducing the cost. The yield of bi-facial PV systems is promoted by high efficiency and a high bi-faciality factor.<br/><br/>Yield due to...
master thesis 2019
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Narvaez Alavez, Ignacio (author)
The development of solar photovoltaic systems has seen a rapid increase in the recent years propelled by mass manufacturing and constantly declining costs of PV modules. In some regions, however, the levelized cost of energy is still rather high, posing some challenges for this technology to take a leading roll in the energy mix. In order to...
master thesis 2019
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Garro Etxebarria, Julen (author)
Bifacial PV modules and floating PV systems are two fast-growing technologies in the photovoltaic sector. Bifacial PV modules make use of the irradiance that is incident on both faces of the module, leading to higher energy yields. Several techniques are used in order to enhance this bifaciality effect, one of them being the use of reflectors....
master thesis 2018
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Zhao, Yiran (author)
As a new face of PV industry, bifacial technology offers the utmost utilization of reflected light while efforts are still required to further improve its cell efficiency. The objective of this thesis project is to fabricate bifacial solar cell with poly-Si passivating contacts only underneath metal grids. An advanced bifacial architecture is...
master thesis 2018
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Garcia Goma, Elias (author)
Accurate Annual Energy Yield (AEY) predictions can mean important savings due to optimization of energy generation for both particular and utility scale PV systems. <br/>However, currently available commercial models fall short to faithfully reproduce complex designs, specially involving bifacial modules, where albedo gains are relevant. <br/...
master thesis 2018
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Sönmez, Furkan (author)
Despite the fact that the price per watt-peak for photovoltaic modules are decreasing rapidly, there is a large population of people which have still not implemented photovoltaic technology in their everyday lives. An important reason why PV is still not the main source of electrical energy for these people is the uncertainty that comes with...
master thesis 2017
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Gali, Sundeep (author)
In order to make the bifacial yield prediction models commercially available, a lot of work their development, improvement and validation is being done by many research institutes. At Energy research center of the Netherlands (ECN), one such model is under development. In this project, couple of aspects were investigated to give better insight...
master thesis 2017
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Faturrochman, Gerry Julian (author)
Integration of bifacial photovoltaic module with a noise barrier (PVNB) has emerged as one of the promising innovation in the building integrated PV (BIPV) system application. By having the advantage to absorb both the light incident from the front and the rear side of the cell, bifacial PV module is suitable for a vertical installation...
master thesis 2017
Searched for: subject:"bifacial"
(1 - 9 of 9)