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VPLIVI OKOLJA, DEGRADACIJE IN ODPOVEDI NA NEGOTOVOST ENERGETSKE UČINKOVITOSTI FOTONAPETOSTNIH SISTEMOV
ID LINDIG, SASCHA (Author), ID Topič, Marko (Mentor) More about this mentor... This link opens in a new window, ID Moser, David (Comentor)

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Abstract
Doktorska disertacija obravnava delovanje fotonapetostnih (PV) sistemov skozi njihovo življenjsko dobo in raziskuje vplive na negotovost energetske učinkovitosti. Glavni poudarek je na vplivih okolja, degradacije in odpovedi. Za učinkovito delovanje obstoječih PV sistemov in zasnovo novih je pomembno spremljanje in ocenjevanje sprememb zmogljivosti PV sistemov, ki delujejo v realnih pogojih, ter odkrivanje in razumevanje temeljnih vzrokov za spremembe. Ocene degradacije zmogljivosti PV sistemov se običajno zreducirajo na izgube na ravni PV modula, vendar je za oceno razvoja zmogljivosti sistema obravnavati sistem kot celoto. Glavni parameter, ki smo ga preučevali v disertaciji, je stopnja izgube učinkovitosti (PLR), ki združuje izgube na ravni modula in sistema in s tem predstavlja splošno zmanjšanje učinkovitosti PV sistemov. Do danes ni standardizirane oblike ocenjevanja vrednosti PLR. Disertacija predstavlja rezultate kritične primerjave različnih računskih pristopov in predlaga najbolj zanesljivo strategijo izračuna. Osrednji del disertacije je posvečen razvoju nove metode za izračun večstopenjskega poteka izgube učinkovitosti, razdeljene na linearne segmente, ki predstavlja kompromis med podrobnejšim opisom poteka, hkrati pa je še vedno lahko razumljiv in uporaben v primerjavi z linearnim PLR (najsodobnejše stanje). Na koncu metodo vrednotenja in oceno PLR uporabimo za nadgrajeno ekonomsko analizo PV sistemov.

Language:Slovenian
Keywords:PV sistem, PV zmogljivost, degradacijski model, stopnja izgube učinkovitosti, staranje, ekonomska analiza, O&
Work type:Doctoral dissertation
Organization:FE - Faculty of Electrical Engineering
Year:2021
PID:20.500.12556/RUL-125518 This link opens in a new window
Publication date in RUL:22.03.2021
Views:1934
Downloads:123
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Secondary language

Language:English
Title:IMPACT OF OUTDOOR EFFECTS, DEGRADATION AND TECHNICAL FAILURES ON UNCERTAINTY IN ENERGY PERFORMANCE OF PHOTOVOLTAIC SYSTEMS
Abstract:
This doctoral dissertation discusses the performance of photovoltaic (PV) systems throughout their operational lifetime while investigating associated uncertainties. The primary focus is the correlation of climate stressors, system degradation and the appearance of failures. Assessing changes in the performance of PV systems operating under real conditions as well as detecting and understanding the root causes is important for the efficient operation of existing PV power plants and the design of new ones. Often, degradation assessments are reduced to losses on module level, but to understand the performance evolution, the system must be assessed as a whole. The main parameter studied in this thesis is the performance loss rate (PLR), which combines losses, both on module and system level, and thereby represents the overall performance decrease of operating PV systems. Until today, there is no standardized form of assessing PLR values. This work presents a critical comparison of different calculation approaches and suggests the most reliable calculation strategy. The central part of this thesis is the development of a new method for calculating multi-step performance loss rates divided into sublinear segments. This approach presents a compromise between giving a more detailed description of the performance while still being easily understandable and applicable compared to a linearized PLR (state of the art). Finally, the assessment of a systems PLR is used in the economic analysis of PV systems.

Keywords:PV systems, PV performance, Degradation models, Performance loss rate, Photovoltaic ageing, economic analysis, O&M

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