Análise de desempenho de diferentes tecnologias de módulos fotovoltaicos em função da inclinação para a cidade de Porto Alegre-RS

Pires, Gleiton Ariel Guedes

25 October 2016

Submitted by Silvana Teresinha Dornelles Studzinski (sstudzinski) on 2017-03-16T13:43:10Z No. of bitstreams: 1 Gleiton Ariel Guedes Pires_.pdf: 999723 bytes, checksum: c4e2ac031c9624b170d72249a1b0512d (MD5) / Made available in DSpace on 2017-03-16T13:43:10Z (GMT). No. of bitstreams: 1 Gleiton Ariel Guedes Pires_.pdf: 999723 bytes, checksum: c4e2ac031c9624b170d72249a1b0512d (MD5) Previous issue date: 2016-10-25 / FINEP - Financiadora de Estudos e Projetos / itt Chip - Instituto Tecnológico de Semicondutores da Unisinos / O Brasil apresenta grande potencial de geração de energia solar fotovoltaica, em um contexto de crescente demanda de energia. Em vista disso, torna-se necessária a correta e eficaz caracterização elétrica dos módulos fotovoltaicos. Esta caracterização é importante tanto na determinação da curva I-V (corrente – tensão), quanto em outros parâmetros (produtividade fotovoltaica 𝑌�������𝑓�������, perdas de captura Lc e desempenho global PR) de estimativa de produtividade energética. Este trabalho descreve a metodologia utilizada para a caracterização de quatro tecnologias de módulos fotovoltaicos (monocristalino, policristalino, CIGS e silício amorfo) e uma análise de produtividade energética para a cidade Porto Alegre – RS. Para tanto, foi estipulado um gerador fotovoltaico de 1kW pico, considerando um sistema conectado à rede com Fator de Dimensionamento (FDI) igual a 1,0. Utilizando-se o software PVsyst, foram quantificadas as produtividades energéticas devido à inclinação de instalação e à variação azimutal. A análise dos resultados levou em conta três parâmetros: a produtividade dos módulos, as perdas de captura e o desempenho global do sistema PR. Foram analisadas diversas configurações de posicionamento e de inclinação de instalação dos módulos e, posteriormente, foi realizado um comparativo entre os resultados obtidos em relação à produtividade energética na posição de referência, que consiste em instalar os módulos para o norte geográfico com inclinação próxima à latitude do local. A pesquisa indica que os módulos monocristalino e policristalino apresentam bons desempenhos orientados entre leste e oeste com ângulos de inclinação de até 40°. Os módulos CIGS e a-Si apresentam bons índices desempenho orientados a norte e oeste com ângulos de inclinação de até 30°. / The fat the Brazil presents a major photovoltaic solar energy generation, allied to the increasing energy demand, it makes necessary the correct and efficient photovoltaic modules electric characterization. This characterization is important to the determination of the I-V curve (current-tension), as well as in other parameters (Yield Factor Yf, capture losses Lc and performance ratio PR) for the estimate energy productivity. This study describes the methodology utilized for the characterization of four photovoltaic modules technologies (monocrystalline, polycrystalline, CIGS and amorphous silicon) and an energy productivity analysis for the city of Porto Alegre – RS. For that, was stipulated a 1kW peak photovoltaic generator, considering a grid-connected system with a Sizing Factor (FDI) equal to 1,0. Using the PVsyst software, Power productivity was quantified due to the installation inclination and the azimuthal variation. The results analysis took in account three parameters: module productivity, capture losses, performance ratio of the system. Several positioning configurations and modules installation inclination were analyzed. Posteriorly, a comparison was made between the results gathered according to the power productivity in the reference position, which consists in installing the modules to the geographic north with inclination close to the local latitude. The research indicates that the monocrystalline e polycrystalline modules present good performance when oriented between east and west with inclination angles up to 40º. The CIGS and a-Si modules present good ratio when oriented north and west with inclination angles up to 30º

Produtividade de energética

Aplicações de instalação

Electrical characterization

Photovoltaic module

Energy production

Installer application

Modelling and Degradation Characteristics of Thin-film CIGS Solar Cells

Malm, Ulf

January 2008

Thin-film solar cells based around the absorber material CuIn1-xGaxSe2 (CIGS) are studied with respect to their stability characteristics, and different ways of modelling device operation are investigated. Two ways of modelling spatial inhomogeneities are detailed, one fully numerical and one hybrid model. In the numerical model, thin-film solar cells with randomized parameter variations are simulated showing how the voltage decreases with increasing material inhomogeneities. With the hybrid model, an analytical model for the p-n junction action is used as a boundary condition to a numerical model of the steady state electrical conduction in the front contact layers. This also allows for input of inhomogeneous material parameters, but on a macroscopic scale. The simpler approach, compared to the numerical model, enables simulations of complete cells. Effects of material inhomogeneities, shunt defects and grid geometry are simulated. The stability of CIGS solar cells with varying absorber thickness, varying buffer layer material and CIGS from two different deposition systems are subjected to damp heat treatment. During this accelerated ageing test the cells are monitored using characterization methods including J-V, QE, C-V and J(V)T. The degradation studies show that the typical VOC decrease experienced by CIGS cells subjected to damp heat is most likely an effect in the bulk of the absorber material. When cells encapsulated with EVA are subjected to the same damp heat treatment, the effect on the voltage is considerably reduced. In this situation the EVA is saturated with moisture, representing a worst case scenario for a module in operation. Consequently, real-life modules will not suffer extensively from the VOC degradation effect, common in unprotected CIGS devices.

solar cells

thin-film

chalcogenide

stability

characterization

modelling

simulations

finite element method

CIGS

photovoltaic module

Electronics

Elektronik

Metodologia computacional para análise óptica de células fotovoltaicas encapsuladas

Defferrari, Carolina Schumacher

January 2017

As ferramentas computacionais utilizadas em diferentes áreas de pesquisa têm como vantagem sobre análises e ensaios reais a possibilidade de analisar sistemas em diferentes condições de forma mais ágil e com menor consumo de tempo e recursos. A modelagem óptica de dispositivos fotovoltaicos é bastante difundida. Existem diferentes trabalhos na área, com diferentes escopos e graus de detalhamento, que permitem a análise e melhor compreensão das diferentes etapas da conversão da radiação em energia elétrica, expandindo as possibilidades de otimização. No presente trabalho foi desenvolvida, em uma etapa inicial, uma metodologia computacional para análise óptica de módulos fotovoltaicos, para então, em uma segunda etapa, serem realizados estudos do desempenho de diferentes materiais inseridos no conjunto de camadas que compõe os módulos, através da metodologia. O modelo óptico que embasa o método tem como foco os módulos de silício monocristalino. Esses módulos agregam de três a quatro camadas transparentes sobre as células fotovoltaicas. Ao incidir nesse conjunto de camadas radiação é submetida a diferentes eventos de extinção, como função do comprimento de onda da radiação e ângulo de incidência, que devem ser previstos em um modelo de forma a obter-se resultados válidos de transmissividade. A metodologia propõe a realização de uma análise aprofundada dos fenômenos ópticos que ocorrem mediante a incidência de radiação em um módulo fotovoltaico de modo a auxiliar na análise da adequação e desempenho de diferentes materiais ao sistema óptico formado. A otimização da transmissão de radiação em um módulo fotovoltaico tem uma influência direta e significativa sobre a eficiência de tais dispositivos, justificando sua importância. A validação do modelo foi realizada através da literatura, em partes, e apresentou coerência com os resultados de referência. Foram produzidos na segunda etapa estudos de desempenho de materiais ou propriedades isoladamente. No primeiro estudo foram analisados três materiais para aplicação como filme de passivação sobre a célula, sendo eles Si3N4, SiO2, e TiO2; o filme de Si3N4 apresentou o melhor desempenho. O segundo estudo, de avaliação da influência do índice de refração do encapsulante na transmissividade do sistema, demonstrou que a variação desse parâmetro tem muito pouca influência. No terceiro estudo foi analisado o potencial dos materiais PDMS e TiO2 como filmes anti-reflexo sobre vidro. O PDMS gerou melhores resultados de transmissividade. Por fim um estudo de desempenho de um conjunto de materiais frente à mudança do espectro incidente foi realizado. Foi utilizado até então o espectro de referência, que foi então comparado a um espectro médio de um dia de equinócio da cidade de Porto Alegre. O desempenho do sistema foi em torno de 3% inferior em incidência normal. / Computational tools raise the possibility of studying and understanding systems under different conditions in a faster and less resource and time consuming way. The optical modeling of photovoltaic devices is a very developed issue, and paperworks and projects in different scopes e levels of detail were produced, providing a better understanding of the different steps of converting light into electricity, expanding optimization possibilities. For this project a computational methodology was developed, as an initial step, for the optical assessment of the transmission of radiation in photovoltaic modules. In a second step, studies were performed using the method as a tool for analyzing the system formed by the layers covering the cells embedded in modules. The optical model describes monocristalline silicon modules, which are constituted by three to four layers covering the cell. Once it penetrates the set of layers, incident light suffers different extinction phenomena, which are predicted in this model in order to generate valid results. It’s a function of wavelength and incidence angle of the incoming radiation. The model presented aims to deeply analyse and understand the optical phenomena light undergoes through its way from the external environment to the interior of the cell, supporting the process of observing the performance and adequacy of different materials as the referred layers. Optimizing transmission of radiation in a photovoltaic device plays a main role in increasing the efficiency of the energy conversion process, which is why it’s so important. The model was validated by literature in parts, and showed coherence within reference results. Studies were produced in a second step of this work, using the method, concerning optical issues, for the thin film on top of the cell, the refractive index of the encapsulating material, and the optical effect of coating the outer glass surface. In the first study Si3N4, SiO2 and TiO2 were analyzed; the Si3N4 film produced the best results. The second study, concerning encapsulant’s refractive index, demonstrates this parameter has a very weak influence in the system’s transmission. The third one observed the performance of two materials, PDMS and TiO2, as AR coating,. The PDMS film produced a better effect. At last, the best performance set of layers was analyzed under a representative spectral distribution of an equinox day of the city of Porto Alegre, considering so far it was used the standard. The transmission suffered a slight decrease, around 3%.

Módulo fotovoltaico

Radiação solar

Seleção de materiais

Propriedades óticas

Modelos matemáticos

Solar Energy

Optical Model

Optical Properties

Materials Selection

Photovoltaic Module

Metodologia computacional para análise óptica de células fotovoltaicas encapsuladas

Defferrari, Carolina Schumacher

January 2017

As ferramentas computacionais utilizadas em diferentes áreas de pesquisa têm como vantagem sobre análises e ensaios reais a possibilidade de analisar sistemas em diferentes condições de forma mais ágil e com menor consumo de tempo e recursos. A modelagem óptica de dispositivos fotovoltaicos é bastante difundida. Existem diferentes trabalhos na área, com diferentes escopos e graus de detalhamento, que permitem a análise e melhor compreensão das diferentes etapas da conversão da radiação em energia elétrica, expandindo as possibilidades de otimização. No presente trabalho foi desenvolvida, em uma etapa inicial, uma metodologia computacional para análise óptica de módulos fotovoltaicos, para então, em uma segunda etapa, serem realizados estudos do desempenho de diferentes materiais inseridos no conjunto de camadas que compõe os módulos, através da metodologia. O modelo óptico que embasa o método tem como foco os módulos de silício monocristalino. Esses módulos agregam de três a quatro camadas transparentes sobre as células fotovoltaicas. Ao incidir nesse conjunto de camadas radiação é submetida a diferentes eventos de extinção, como função do comprimento de onda da radiação e ângulo de incidência, que devem ser previstos em um modelo de forma a obter-se resultados válidos de transmissividade. A metodologia propõe a realização de uma análise aprofundada dos fenômenos ópticos que ocorrem mediante a incidência de radiação em um módulo fotovoltaico de modo a auxiliar na análise da adequação e desempenho de diferentes materiais ao sistema óptico formado. A otimização da transmissão de radiação em um módulo fotovoltaico tem uma influência direta e significativa sobre a eficiência de tais dispositivos, justificando sua importância. A validação do modelo foi realizada através da literatura, em partes, e apresentou coerência com os resultados de referência. Foram produzidos na segunda etapa estudos de desempenho de materiais ou propriedades isoladamente. No primeiro estudo foram analisados três materiais para aplicação como filme de passivação sobre a célula, sendo eles Si3N4, SiO2, e TiO2; o filme de Si3N4 apresentou o melhor desempenho. O segundo estudo, de avaliação da influência do índice de refração do encapsulante na transmissividade do sistema, demonstrou que a variação desse parâmetro tem muito pouca influência. No terceiro estudo foi analisado o potencial dos materiais PDMS e TiO2 como filmes anti-reflexo sobre vidro. O PDMS gerou melhores resultados de transmissividade. Por fim um estudo de desempenho de um conjunto de materiais frente à mudança do espectro incidente foi realizado. Foi utilizado até então o espectro de referência, que foi então comparado a um espectro médio de um dia de equinócio da cidade de Porto Alegre. O desempenho do sistema foi em torno de 3% inferior em incidência normal. / Computational tools raise the possibility of studying and understanding systems under different conditions in a faster and less resource and time consuming way. The optical modeling of photovoltaic devices is a very developed issue, and paperworks and projects in different scopes e levels of detail were produced, providing a better understanding of the different steps of converting light into electricity, expanding optimization possibilities. For this project a computational methodology was developed, as an initial step, for the optical assessment of the transmission of radiation in photovoltaic modules. In a second step, studies were performed using the method as a tool for analyzing the system formed by the layers covering the cells embedded in modules. The optical model describes monocristalline silicon modules, which are constituted by three to four layers covering the cell. Once it penetrates the set of layers, incident light suffers different extinction phenomena, which are predicted in this model in order to generate valid results. It’s a function of wavelength and incidence angle of the incoming radiation. The model presented aims to deeply analyse and understand the optical phenomena light undergoes through its way from the external environment to the interior of the cell, supporting the process of observing the performance and adequacy of different materials as the referred layers. Optimizing transmission of radiation in a photovoltaic device plays a main role in increasing the efficiency of the energy conversion process, which is why it’s so important. The model was validated by literature in parts, and showed coherence within reference results. Studies were produced in a second step of this work, using the method, concerning optical issues, for the thin film on top of the cell, the refractive index of the encapsulating material, and the optical effect of coating the outer glass surface. In the first study Si3N4, SiO2 and TiO2 were analyzed; the Si3N4 film produced the best results. The second study, concerning encapsulant’s refractive index, demonstrates this parameter has a very weak influence in the system’s transmission. The third one observed the performance of two materials, PDMS and TiO2, as AR coating,. The PDMS film produced a better effect. At last, the best performance set of layers was analyzed under a representative spectral distribution of an equinox day of the city of Porto Alegre, considering so far it was used the standard. The transmission suffered a slight decrease, around 3%.

Módulo fotovoltaico

Radiação solar

Seleção de materiais

Propriedades óticas

Modelos matemáticos

Solar Energy

Optical Model

Optical Properties

Materials Selection

Photovoltaic Module

Analytické metody solárních panelů a systémů / Analytic method of solar panel and systems

Kopunec, Vít

January 2011

The aim of the diploma work is to introduce analytical methods concerning solar panels and systems. Firstly, the attention is drawn to a principle of photovoltaic conversion including an explanation of photoelectric phenomenon as well as the issue of P-N junction considered to be the fundamental building block of a solar cell. With respect to the fact that the diploma work is to be focused on testing of solar panels and the identification of defects in solar cells, the work describes individual solar cells, solar panels as well as individual methods of defect identification. Secondly, the work includes sections dealing with the assessment of the measurement performed by using electroluminescence method as well as the measurement method of volt-ampere parameters. The last section of the work includes the assessment of solar panel aging after one-year performance using the electroluminescence measurement method.

FAULT DETECTION FOR SMALL-SCALE PHOTOVOLTAIC POWER INSTALLATIONS : A Case Study of a Residential Solar Power System

Brüls, Maxim

January 2020

Fault detection for residential photovoltaic power systems is an often-ignored problem. This thesis introduces a novel method for detecting power losses due to faults in solar panel performance. Five years of data from a residential system in Dalarna, Sweden, was applied on a random forest regression to estimate power production. Estimated power was compared to true power to assess the performance of the power generating systems. By identifying trends in the difference and estimated power production, faults can be identified. The model is sufficiently competent to identify consistent energy losses of 10% or greater of the expected power output, while requiring only minimal modifications to existing power generating systems.

Random Forest

Regression

Solar Power

Photovoltaic Module

Fault Detection

Renewable Energy

Econometrics

Supervised Learning

Computer and Information Sciences

Data- och informationsvetenskap

Tracking maximum power point of photovoltaic modules under non-uniform solar irradiance / Fotovoltinio modulio didžiausios galios taško nustatymas veikiant netiesinei saulės apšvietai

Rimkus, Lukas

16 June 2014

This master work was focused on modelling and investigation of a photovoltaic module which operates in non-uniform solar irradiance and temperature changes which is typical to Lithuanian climate. 60 polycrystalline silicon cells were used to model photovoltaic module. Matlab®/Simulink® was used for modelling and calculating the whole system. To generate solar insolation curve, the latitude, longitude of the geographic place and a number of days in a year have to be selected. Buck-boost DC-DC converter and hill-climbing maximum power point tracking algorithm was used to produce maximum power point of the photovoltaic module. Modeled system has reached 93.95 % of maximum power from the photovoltaic module. Structure: introduction, review of maximum power point algorithms, system modelling, research results, conclusions, references. The thesis consists of: 60 pages, 41 figures, 16 tables, 37 references. Appendixes included. / Šiame magistro darbe buvo sumodeliuotas ir ištirtas fotovoltinio modulio veikimas, veikiant Lietuvoje būdingiems saulės apšvietos ir temperatūros pokyčiams. Fotovoltinį modulį sudaro 60 polikristalinių silicio celių sujungtų nuosekliai sistema. Modeliavimui ir skaičiavimas atlikti buvo naudojamas Matlab®/Simulink® programinės įrangos paketas. Įvedus vietos ilgumą, platumą ir pasirinkus metų dieną sugeneruojama saulės apšvietos kreivė paros bėgyje. Išgauti maksimalią galią iš fotovoltinio elemento buvo pasirinkta „buck-boost“ tipo įtampos keitiklis ir „Kalno-kilimo“ didžiausios galios taško algoritmas. Naudojant pasirinkto tipo įtampos keitiklį ir algoritmą galima pasiekti iki 93,95 % maksimalios galios. Darbą sudaro 7 dalys: įvadas, maksimalios galios algoritmų literatūros apžvalga, sistemos modeliavimas, maksimalios galios algoritmo sudarymas, rezultatai, išvados, literatūros sąrašas. Darbo apimtis 60 puslapiai, 2 priedai, 41 iliustracijų 16 lentelių, 37 bibliografiniai šaltiniai.

Electronics and Electrical Engineering

Photovoltaic module

Maximum power point tracking

DC-DC converter

Matlab®/Simulink®

Fotovoltinis elementas

Didžiausias galios taškas

Įtampos keitiklis

Matlab®/Simulink®

Inversor integrado Cuk para aproveitamento da energia fotovoltaica em conexão com a rede em corrente alternada /

Benites Quispe, Jhon Brajhan

January 2019

Orientador: Carlos Alberto Canesin / Resumo: Considerando o atual crescimento dos sistemas baseados em fontes de energia renováveis para a Geração Distribuída (GD), novas estruturas de potência estão sendo desenvolvidas para os sistemas de conversão. O presente estudo propõe a utilização do Inversor Integrado Cuk para o processamento da energia solar fotovoltaica proveniente de um conjunto de módulos fotovoltaicos. Este inversor é o resultado da integração de um conversor Cuk e um inversor de ponte completa, sendo capaz de realizar as funções de elevação e redução de tensão, e a função de converter a corrente continua em alternada, possuindo um grande potencial para a obtenção de uma estrutura de potência de reduzido volume e alto rendimento, garantindo uma baixa distorção harmônica da corrente injetada à rede. Neste trabalho de dissertação são apresentadas as análises quantitativa e qualitativa do inversor com o objetivo de mostrar em detalhes o seu funcionamento e apresentar as principais equações elétricas dos componentes reativos e semicondutores. Além disso, para a obtenção do modelo dinâmico em pequeno sinal do inversor, o método de média do circuito e modelagem média de interruptores é utilizado a fim de projetar os controladores do modo de controle adotado, o qual consiste em dois laços de corrente retroalimentados. Por outro lado, uma comparação das diferentes configurações de módulos fotovoltaicos conectados ao inversor é realizada através dos dados de simulação, a fim de obter a configuração com as melhores c... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Considering the current growth of the renewable energy sources-based systems for Distributed Generation (DG), new power structures are being developed for the conversion systems. The present study proposes the use of the Cuk Integrated Inverter for the processing of photovoltaic solar energy from a set of photovoltaic modules. This inverter is the result of the integration of a Cuk converter and a Full Bridge inverter, being able to perform the functions of raise and reduce voltage, and the function of converting the direct current (DC) to alternating current (AC), possessing a great potential for obtaining a power structure of reduced volume and high performance, guaranteeing a low harmonic distortion of the current injected into the electric grid. In this research work, the quantitative and qualitative analysis of the inverter are presented in order to show in detail its operation and present the main electrical equations of the reactive and semiconductor components. In addition, to obtain the dynamic model in small signal of the inverter, the method of Circuit Averaging and Averaged Switch Modeling is used in order to design the controllers of the adopted control mode, which consists of two feedback loops of current. On the other hand, a comparison of the different configurations of photovoltaic modules connected to the inverter is performed by simulation data, in order to obtain the configuration with the best performance characteristics of the system. The maximum power p... (Complete abstract click electronic access below) / Mestre

Inversor integrado Cuk

Energia solar.

Módulo fotovoltaico

Algoritmo MPPT

Sincronização.

Anti-ilhamento

Controle.

Cuk integrated inverter

Solar energy

Photovoltaic module

Synchronism

Anti-islanding

MPPT algorithm

Control

Βέλτιστες ηλεκτρικές παράμετροι φωτοβολταϊκών πλαισίων για γήινες και διαστημικές εφαρμογές

Γεωργίτσας, Βασίλειος

04 October 2011

Σκοπός αυτής της διπλωματικής εργασίας είναι η θεωρητική μελέτη φωτοβολταϊκών πλαισίων χρησιμοποιούμενων σε διαστημικές εφαρμογές, περιγράφοντας την τεχνολογία και τη λειτουργία τους, καθώς και την ιστορική εξέλιξη τους τις τελευταίες δεκαετίες από το 1950 έως σήμερα. Στα πλαίσια αυτά περιγράφονται οι ηλιακές συστοιχίες για διαστημικές εφαρμογές, οι συνηθισμένοι τύποι ημιαγωγικών υλικών για τα πλαίσια, όπως το πυρίτιο Si και το αρσενιούχο γάλλιο GaAs και οι απαιτήσεις των. Αρχικά, μελετάται ποιες παράμετροι επηρεάζουν την απόδοση των φωτοβολταϊκών κυττάρων στο διάστημα και επιπλέον οι επιπτώσεις της διαστημικής ακτινοβολίας και θερμοκρασίας στην λειτουργία των πλαισίων. Στη συνέχεια παρουσιάζονται τα προηγμένα ηλιακά κύτταρα πυριτίου Si και τα υψηλής απόδοσης άμορφου πυριτίου που παρουσιάζουν βελτιωμένη ενεργειακή απόδοση του πλαισίου. Οι βέλτιστες παράμετροι των δομών για τις διαστημικές εφαρμογές, φαίνεται πλέον να επιτυγχάνονται με τα ευρέως χρησιμοποιούμενα ηλιακά κύτταρα πολυεπαφών multijunction MJ, που είναι κύτταρα ιδιαιτέρου τρόπου σχεδιασμού. Οι παράμετροι επηρεασμού της απόδοσης τους αναλύονται καθώς και οι επιπτώσεις των εξωτερικών συνθηκών. Μεγάλης σημασίας θεωρείται ο σχεδιασμός της ηλιακής συστοιχίας στο διάστημα και οι απαιτήσεις σχεδίασης για αξιόπιστη απόδοση και μεγάλη διάρκεια ζωής. Στη μελέτη αυτή αναλύουμε και τις δομές εκείνες που μπορούν να βελτιώσουν την απόδοση των διαστημικών ηλιακών κυττάρων. Οι πιο ελπιδοφόρες και πιο πολλά υποσχόμενες δομές είναι αυτές των μεταμορφικών «metamorphic» και ανεστραμμένων μεταμορφικών «inverted-metamorphic» ηλιακών κυττάρων σε σχέση με τα κλασικά "latticed matched" ηλιακά κύτταρα και αυτες οι δομές θα συνεχίσουν να βρίσκονται στο επίκεντρο για τις επόμενες δεκαετίες. Επιπλέον προϊόν της παρούσας διπλωματικής εργασίας, είναι η πειραματική μελέτη της συμπεριφοράς ενός φωτοβολταϊκού πλαισίου μονοκρυσταλλικού πυριτίου m-Si ισχύος αιχμής 80 W σε πραγματικές συνθήκες λειτουργίας στη γη, υπό την επίδραση διαφόρων εξωτερικών παραγόντων, όπως προσπίπτουσα ακτινοβολία, θερμοκρασία και γωνία κλίσης. Με στόχο την εκτίμηση της ενεργειακής απόδοσης και της ανίχνευσης της βέλτιστης τιμής αυτής πραγματοποιήθηκαν μετρήσεις με την βοήθεια του PVPM στη διάρκεια του έτους 2009 – 2010. Συγκεκριμένα περιλαμβάνονται δυο περίοδοι μετρήσεων: α) Απρίλιος 2009 έως Ιούλιος 2009, όπου πραγματοποιήθηκαν μετρήσεις ανά μια ώρα για όλες τις γωνίες κλίσης 0, 10, 20, 30, 40, 50, 60, 70, 80ο (μια ημέρα κάθε εβδομάδα) με την βοήθεια της ρυμθιζόνεμης βάσης και β) Αύγουστος 2009 έως Μάρτιος 2010, όπου πραγματοποιήθηκαν ολοήμερες μετρήσεις ανά 5 λεπτά, κάθε εβδομάδα με την βοήθεια φορητού υπολογιστή σε συγκεκριμένη κλίση 38ο, που αντιστοιχεί στο γεωγραφικό πλάτος της περιοχής της Πάτρας. Όλα αυτά οδηγούν σε μια ολοκληρωμένη εικόνα της ενεργειακής συμπεριφοράς και απόδοσης του φωτοβολταϊκού πλαισίου μας καθώς και των συνθηκών που οδηγούν σε βέλτιστες φωτοβολταϊκές ιδιότητες Η ετήσια αποδιδόμενη ενέργεια υπολογίστηκε ελαφρώς υψηλότερη από μετρήσεις γενικά αναφερόμενες από το ΚΑΠΕ. Αυτό θεωρούμε ότι οφείλεται στο γεγονός ότι η διάταξη μας δεν κατέγραφε μετρήσεις καθ όλη τη διάρκεια του έτους με αποτέλεσμα να μην είναι ακριβής η διάρκεια της ημέρας και η τιμή της προσπίπτουσας ηλιακής ακτινοβολίας. Μέσω του PVsyst προγράμματος προσπαθήσαμε να προσομοιώσουμε την ενεργειακή απόδοση του πλαισίου μονοκρυσταλλικού πυριτίου υπολογιστικά τόσο με τα πειραματικά μετεωρολογικά δεδομένα όσο και με τα μετεωρολογικά δεδομένα μέσω του προγράμματος Meteonorm και να την συγκρίνουμε με την πειραματική και επιπλέον να βρούμε την βέλτιστη απόδοση του ανάλογα με την κλίση και τον προσανατολισμό του. Η εξομοίωση με δεδομένα του προγράμματος Meteonorm 6.1 έδωσε τη διαφορά της αποδιδόμενης ενέργειας κάθε περίπτωσης, μεταξύ αυτής και της προηγούμενης μεθόδου. / The purpose of this thesis, is the theoretical study of solar modules used in space applications, together with the description of their technology and operation, and the historical development in recent decades from 1950 to today. In this context we analyzed the solar arrays for space applications, the requirements of materials for solar cells and the common types of semiconductor materials for modules, such as silicon Si and gallium arsenide GaAs. Initially, we studied what external factors affect the performance of solar cells in space and also the effects of space radiation and temperature. Further, we described the advanced silicon solar cells and the high-efficiency amorphous silicon solar cells, that improve the energy efficiency significant. For the optimal solution for space applications, we then analyzed thoroughly the most widely used in space multijunction MJ solar cells and their design, the performance parameters and the effects of external factors. To summarize the theoretical study, we studied the design of the solar array in space and the design requirements for reliable performance and longevity. Finally, there are many ways we can improve the performance of space solar cells. The most promising methods are those of metamorphic «metamorphic» and reverse metamorphic «inverted-metamorphic» solar cells compared to the classic "latticed matched" solar cells and will continue to be in the forefront for decades to come. Additional to the subject of this thesis, is the experimental study of the behavior of a photovoltaic monocrystalline silicon module m-Si 80 W peak power at real operation conditions under the influence of various external factors such as incident radiation, temperature and tilt. In order to estimate the energy efficiency we took measurements with the help of PVPM in the year 2009 - 2010. Specifically, it consists of two measurement periods: a) April 2009 to July 2009, when measurements were taken every hour for all angles 0, 10, 20, 30, 40, 50, 60, 70, 80 every week with the help of special structure and b) August 2009 to March 2010, when measurements were made all day, every five minutes, each week with a notebook in a particular inclination 38ο, corresponding to the latitude of the region of Patras. All these help us to gain a comprehensive idea of their behavior and performance of our photovoltaic modules. We also observed variation in the results in comparison with CRES databases due to the fact that we could not continuously conduct every day of the year. Using PVsyst we tried to verify our experimental results and find the best solutions for the tilt and orientation of the PV modules. With the program PVsyst we tried to simulate the performance of monocrystalline silicon solar cell using computational frameworks and to compare them with the experimental results. Finally it was also simulated with the data given from the database of the program Meteronorm 6.1 so as to compare both methods.

Δορυφόροι

621.381 542

Satellites

Space solar cells

Monocrystalline silicon

Multijunction solar cells

Electrical parameters

Photovoltaic module

Approche multi-physique du vieillissement des matériaux pour application photovoltaïque / Multi-physical approach of materials aging for photovoltaic application

Guiheneuf, Vincent

26 October 2017

Cette thèse explore le vieillissement des modules photovoltaïques (PV) à base de silicium cristallin via une approche multi-matériaux. L’objectif premier est de déterminer les mécanismes de dégradation mis en jeu durant l’exploitation des modules PV et ainsi d’être à même de proposer des solutions technologiques améliorant leur durabilité. Pour cela, des tests de vieillissement accéléré ont été réalisés sur le verre, la cellule PV au silicium cristallin et le mini-module PV composé du verre, d’un polymère encapsulant et de la cellule silicium.Leurs propriétés fonctionnelles sont systématiquement évaluées et le suivi dans le temps de ces indicateurs permet de définir des lois de vieillissement. En parallèle, des caractérisations physico-chimiques sont réalisées pour définir les mécanismes de dégradations des différents constituants du module. L‘étude de la chaleur humide sur le verre a permis de mettre en évidence une dégradation de surface via un processus d’hydratation du réseau vitreux et un phénomène de lixiviation du sodium qui engendre une augmentation de la transmittance du verre. La cellule PV présente des performances électriques et une réflectance dégradées suite à l’exposition aux radiations UV dues à un processus de photo-oxydation de la couche antireflet SiNx. Il a également été établit qu’une puissance UV élevée peut aussi favoriser un phénomène de régénération des performances électriques. Le vieillissement du mini-module sous UV a montré du phénomène de dégradation photo-induite (LID) engendrant une légère diminution des performances électriques dès la première exposition alors que l’impact de la chaleur humide sur les performances électriques est nul après 2000 heures d’exposition / This thesis investigates the aging of photovoltaic (PV) modules based on crystalline silicon technology via a multi-material approach. The first objective is to determine the degradation mechanisms involved during the operation of the PV modules and thus to be able to propose technological solutions improving their durability. For this purpose, accelerated aging tests were carried out on the glass, the crystalline silicon PV cell and the PV mini-module composed of glass, a polymeric encapsulant and the silicon cell.Their functional properties are systematically evaluated and the follow-up of these indicators allows to define aging laws. In parallel, physicochemical characterizations are carried out to determine the degradation mechanisms of the different components of the module. The study of damp heat on glass throws into evidence a surface degradation with a hydration process of the silica network and a leaching phenomenon of the sodium which involves an increase of the glass transmittance. The PV cell exhibits a deterioration of the electrical performance and reflectance after UV radiation exposure due to a photo-oxidation process of the SiNx antireflection layer. It has also been established that high UV power can also promote a regeneration phenomenon of electrical performances. The aging of the mini-module under UV shows the phenomenon of photo-induced degradation (LID) generating a slight decrease in the electrical performance from the first exposure whereas the impact of damp heat on the electrical performance is null after 2000 hours

Module photovoltaïque

Verre

Semi-Conducteur

Vieillissement accéléré

Caractérisation multi-Physique

Mécanisme de dégradation

Photovoltaic module

Glass

Semiconductor

Accelerated aging

Multiphysics characterization

Degradation mechanism