Searched for: subject%3A%22PV%255C+Modules%22
(1 - 20 of 23)

Pages

List view
Grid view
document
Pacifico, Antonio (author)
As photovoltaic (PV) technology enters the terawatt era, reliability, sustainability, and circularity in the solar industry can no longer be optional considerations for manufacturing solar modules. Despite two decades of intense solar manufacturing, the PV industry still predominantly operates within a linear economic structure, characterized by...
master thesis 2024
document
Baricchio, M. (author), Korevaar, Marc (author), Babal, Pavel (author), Ziar, H. (author)
East/West (E/W) vertical bifacial photovoltaic (PV) modules can achieve higher profits than the conventional North/South (N/S) tilted configuration depending on the design choices and external conditions. In this study a model based on 2D view factor concept is developed to estimate the power generated by a large-scale bifacial PV farm,...
journal article 2024
document
KODALI, RAHUL (author)
This thesis presents experimental research on a phenomenon that has been widely observed in photovoltaic systems in recent years. Hot-spots, most commonly reported as areas of extreme temperature within PV modules, have been identified as a critical issue in the industry. This is primarily due to the fact that solar cells are subjected to...
master thesis 2023
document
Mahajan, Mihir (author)
The remarkable expansion of the PV industry can be attributed to cost reductions and technological advancements, resulting in solar energy becoming an appealing and sustainable option. However, there is a growing concern regarding the environmental impact of disposing decommissioned solar panels. To address this issue, Biosphere Solar, a startup...
master thesis 2023
document
Vogt, M.R. (author), Pilis, Giorgos (author), Zeman, M. (author), Santbergen, R. (author), Isabella, O. (author)
The photovoltaic (PV) module energy rating standard series IEC 61853 does not cover bifacial PV modules. However, the market share of bifacial PV modules has dramatically increased in recent years and is projected to grow. This work demonstrates how Parts 3 and 4 of the IEC 61853 standard could be extended to bifacial modules. First, we...
journal article 2023
document
Ossaili, Mahgdi (author)
Lightweight PV modules offer a solution to the constructional weight limitations of rooftops. PV modules made by Solarge are considered as one the lightweight PV module solutions. The aim of this thesis project is to analyse and compare the thermal- and electrical behaviour of the polymer modules with glass modules. Also, the thermal- and...
master thesis 2022
document
Aghaei, Mohammadreza (author), Korevaar, Marc (author), Babal, Pavel (author), Ziar, H. (author)
In this chapter, we introduce the physic principle and applications of bifacial PV technology. We present different bifacial PV cell and module technologies as well as investigate the advantages of using bifacial PV technology in the field. We describe the measurement and modeling of Albedo, which is one of the important factors for the energy...
book chapter 2022
document
Vogt, M.R. (author), Riechelmann, Stefan (author), Gracia-Amillo, Ana Maria (author), Driesse, Anton (author), Kokka, Alexander (author), Maham, Kinza (author), Karha, Petri (author), Kenny, Robert (author), Schinke, Carsten (author)
The IEC 61853 standard series aims to provide a standardized measure for photovoltaic (PV) module energy rating, namely the Climate Specific Energy Rating(CSER). For this purpose, it defines procedures for the experimental determination of input data and algorithms for calculating the CSER. However, some steps leave room for interpretation...
journal article 2022
document
Velpuru, Abhishek (author)
The global share of photovoltaic electricity has been expanding at a breakneck pace with CAGR of 27% over the last decade. This resulted in remarkable advancements in photovoltaic technology and design. The performance of the majority of PV modules is determined in laboratories under controlled conditions. Perhaps the climatic conditions on-site...
master thesis 2021
document
Calcabrini, A. (author), Muttillo, M. (author), Weegink, Raoul (author), Manganiello, P. (author), Zeman, M. (author), Isabella, O. (author)
Photovoltaic modules in the urban environment are very often exposed to uneven illumination conditions. The electrical interconnection between solar cells in a photovoltaic module limits the power that a solar module can generate under partial shading conditions. In this article, we introduce a PV module that is able to dynamically reconfigure...
journal article 2021
document
Calcabrini, A. (author), Weegink, Raoul (author), Manganiello, P. (author), Zeman, M. (author), Isabella, O. (author)
Urban environments present a great potential to generate electricity with photovoltaic technology. However, this electricity cannot be fully harvested using conventional solar modules that have been designed for open landscapes. In urban environments, photovoltaic modules can often be subject to partial shading caused by trees and building...
journal article 2021
document
Viswanathan, Sharabheshwaran (author)
This thesis deals with the Life Cycle Assessment (LCA) of the manufacture of an EXASUN X-Glass photovoltaic (PV) module to understand its true environmental impact. The methodology and general guidelines for conducting an LCA on a Photovoltaic (PV) system are developed, within the scope of this thesis. The LCA follows a standard framework,...
master thesis 2020
document
Calcabrini, A. (author), Weegink, Raoul (author), Zeman, M. (author), Isabella, O. (author)
Photovoltaic systems in urban environments are usually partially shaded, thus the need for shade tolerant solar panels in the urban environment. We present the design of a series-parallel reconfigurable photovoltaic module. Given a specific irradiance distribution on its surface, it can change the interconnections between its solar cells to...
conference paper 2020
document
Ziar, H. (author), Prudon, Bjorn (author), Lin, Fen Yu (author), Stark, Tim (author), Teurlincx, Sven (author), Goma, Elias Garcia (author), Alavez, Ignacio Narvaez (author), Santbergen, R. (author), Isabella, O. (author)
Photovoltaic (PV) technology has the potential to be integrated on many surfaces in various environments, even on water. Modeling, design, and realization of a floating PV system have more challenges than conventional rooftop or freestanding PV system. In this work, we introduce two innovative concepts for floating bifacial PV systems,...
journal article 2020
document
Manrique Ambriz, Emilio (author)
Thin film amorphous silicon based PV systems are a rather new and promising photovoltaic technology with plenty field for technological development and potential for unique applications such as integration within the built environment. Nevertheless, in order for the technology to be established, further technical development is required and...
master thesis 2019
document
Verkou, Maarten (author)
Solar photovoltaic cells are destined to become an important contributor in the renewable energy sector, also for small electrical systems inside buildings. They can be used to mobilise the electrical infrastructure, by providing an independent energy source for medium-consumption products, like decorative lighting. This thesis shows all aspects...
master thesis 2019
document
Weegink, Raoul (author)
In urban environments, more and more building added and building integrated photovoltaic (PV) systems are found. These systems use conventional PV modules which have a poor performance under non-uniform illumination conditions. When the module is partially shaded, either at least one subgroup is bypassed or the module current is limited by the...
master thesis 2019
document
Wapperom, Sander (author)
There is a 95% certainty that human activity is the dominant cause of observed warming since the mid-20thcentury [1]. Burning fossil fuels for energy is the dominant cause of greenhouse gas emissions. 32% of the Dutch energy supply is consumed by the built environment. The façade is the largest area of the building envelope. Consequently, the...
master thesis 2019
document
Nepal, Pramod (author), Korevaar, Marc (author), Ziar, H. (author), Isabella, O. (author), Zeman, M. (author)
The deposition of dust, soil, and microfibers resulting from the surroundings, as well as the growth of minute pollens like moss and fungi, contributes toward photovoltaic (PV) module soiling. Soiling is a widely recognized factor that significantly reduces the power production by acting as a barrier for effective light absorption by the...
journal article 2019
document
Villa, Simona (author)
Building Integrated Photovoltaics (BIPV) has the potential to play a major role in the ongoing transition towards nearly zero energy buildings. However, the BIPV market is still a niche market, representing only 1% of the global PV share. One of the main barriers that hinder the deployment of BIPV is the lack of aesthetic flexibility. Architects...
master thesis 2018
Searched for: subject%3A%22PV%255C+Modules%22
(1 - 20 of 23)

Pages

List view
Grid view