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Enhancing the Photovoltaic Performance of P3HT/PDIB Silsesquioxane Donor-Acceptor System Using Spray Deposition Fabrication TechniqueManda, Venkata Ramana 01 May 2014 (has links)
In the past few years, the solution-processed organic based solar cells gained more importance by meeting the demands for cost effective photovoltaic devices. To date, the focus of the organic photovoltaic devices has been on the optimization of the processing the materials to improve photo conversion efficiency and also by modifying the active components of the organic materials. Recently, it has been recognized that the deposition techniques also plays a major role in enhancing the power conversion efficiencies. Currently, though the most common deposition technique for organic solar cells is spin coating, which does not allow scaling up of the large device area. As an alternative method, a simple airbrush spray deposition technique has been developed to fabricate the test devices. The film thickness of the layers was characterized under scanning electron microscope. Devices with different thickness (1000 nm, 500 nm, 240 nm) of poly(3,4-ethylenedioxythipohene) polystyrene sulfonate (PEDOT.PSS) and active layers are prepared and their photovoltaic performances have been evaluated and compared by plotting the IV curves with respect to each thickness. Maintaining the distance between the substrate and the airbrush nozzle the thickness of the layers was controlled. From the results, we found that the test devices with 500 nm thickness of PEDOT.PSS and active layers shows the best device performance with highest current density of 3.97 mA/cm2, open circuit voltage of 1.3 V and power conversion efficiency of 2.34%. As a control experiment, devices were also developed using the standard poly(3- hexylthiophene-2,5-diyl):phenyl-C61-butyric acid methyl ester (P3HT:PCBM) system, but the power conversion efficiencies of these devices were not promising with respect to the literature results. Future studies of this project will focus on improving the power conversion efficiency of poly(3-hexylthiophene-2,5-diyl)/perylenediimide bridged system (P3HT/PDIB) by developing a new device architecture called “tandem solar cells” which consists of multiple layers of different donor and acceptor blends with inorganic transition metal oxides such as zinc oxide and molybdenum oxides.
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Development of high efficiency monocrystalline si solar cells through improved optical and electrical confinementMeemongkolkiat, Vichai 07 October 2008 (has links)
The objective of this thesis is to understand and improve optical and electrical confinement to achieve cost-effective high-efficiency thin p-type Si solar cells. Optical confinement is achieved by front surface texturing in conjunction with an internal reflective layer on the back surface. Electrical confinement is obtained through the use of a high-lifetime material coupled with high-quality passivation on both surfaces.
This research is divided into five tasks. In the first task, Ga-doped Cz Si was investigated to achieve a high and stable lifetime. It was found that for 1 ohm-cm nominal-resistivity screen-printed Al-back surface filed (BSF) cells, the Ga-doped ingot gave ~1.5% higher absolute efficiency after light-soaking relative to the B-doped counterpart. The benefit of using Ga is therefore quite explicit. In the second task, the screen-printed Al-BSF was investigated to explore its potential and limitations for achieving high-efficiency cells. It was found that there exists a critical alloying temperature for a given Al-thickness, above which the Al-BSF becomes non-uniform and cell performance starts to degrade. This puts a limit on the quality of the Al-BSF that can be achieved. An alternative way of back passivation involving dielectric/metal layers was therefore explored.
In Task three, two key requirements for achieving high-efficiency dielectric back-passivated cells were established through device modeling. These are (1) a formation of a high-quality BSF underneath the local back contact through vias in the dielectric and (2) a high-quality dielectric passivation with either a moderate positive charge density or a high negative charge density. Task four involved the development of a metallization technique through vias in the dielectric to achieve a high-quality contact and an efficient internal reflector in conjunction with a high-quality local BSF. Further, a novel dielectric system composed of a spin-on SiO<SUB>2</SUB> layer capped with SiN<SUB>x</SUB> was developed that exhibited excellent passivation and a moderate positive charge density. The final task involved fabrication and analysis of dielectric back-passivated cells. The new dielectric and process sequence developed in this thesis resulted in screen-printed solar cells with efficiency as high as 19% with the potential for 20% efficient cells on 100-µm thick Si substrates.
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Investigation of production systems for a building integrated photovoltaic thermal productBura, Sunil Kumar. January 2007 (has links)
Thesis (M.E. Mechanical Engineering)--University of Waikato, 2007. / Title from PDF cover (viewed May 6, 2008) Includes bibliographical references (p. 102-108)
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The optimization of voltage for a grid-tied photovoltaic system to minimize costHall, Kristyn. January 2009 (has links)
Honors Project--Smith College, Northampton, Mass., 2009. / Includes bibliographical references (p. 49-50).
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Dye sensitized n-p heterojunctions of titanium dioxide and copper thiocyanate, a new interface for photoinduced charge separation /O'Regan, Brian C. January 1998 (has links)
Thesis (Ph. D.)--University of Washington, 1998. / Vita. Includes bibliographical references (leaves [108]-114).
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Performance trends and control strategies for the Schatz Solar Hydrogen Project /Johnstone, Peter. Unknown Date (has links)
Thesis (M.S.)--Humboldt State University, 2009. / Includes bibliographical references (leaves 163-167). Also available via Humboldt Digital Scholar.
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Διερεύνηση της ποιότητας ισχύος μονοφασικού φωτοβολταϊκού συστήματος συνδεδεμένου στο δίκτυοΖαφειριάδης, Σπυρίδων 26 April 2012 (has links)
Σκοπός της συγκεκριμένης διπλωματικής εργασίας είναι να εξεταστεί η ποιότητα ισχύος ενός μονοφασικού φωτοβολταϊκού συστήματος συνδεδεμένου στο δίκτυο. Αρχικά αναλύονται οι βασικές μονάδες από τις οποίες αποτελείται το φωτοβολταϊκό σύστημα και στη συνέχεια ακολουθεί ο σχεδιασμός και η εξομοίωσή του χρησιμοποιώντας το λογισμικό MATLAB/Simulink.
Στο πρώτο κεφάλαιο γίνεται μια εισαγωγή σχετικά με τις ανανεώσιμες πηγές ενέργειας, την ανάγκη χρησιμοποίησης τους και τα πλεονεκτήματα που παρουσιάζουν τα φωτοβολταϊκά συστήματα, σε σχέση με τις υπόλοιπες πηγές που υπάρχουν διαθέσιμες σήμερα.
Στο δεύτερο κεφάλαιο παρουσιάζεται η ηλιακή ακτινοβολία. Δίνονται στοιχεία για τον ήλιο και το ηλιακό δυναμικό της χώρας μας, ενώ στη συνέχεια εξηγούνται κάποια χαρακτηριστικά μεγέθη της ηλιακής ακτινοβολίας.
Στο τρίτο κεφάλαιο αναλύεται η φωτοβολταϊκή γεννήτρια. Παρουσιάζεται αρχικά το φωτοβολταϊκό φαινόμενο, ενώ στη συνέχεια γίνεται μια αναλυτική περιγραφή των ηλιακών κυττάρων, καθώς και της ομαδοποίησης αυτών που οδηγεί στη δημιουργία των φωτοβολταϊκών πλαισίων και κατ’ επέκταση της φωτοβολταϊκής συστοιχίας.
Στο τέταρτο κεφάλαιο παρουσιάζονται οι αντιστροφείς, οι οποίοι συνδέουν τη φωτοβολταϊκή γεννήτρια με το δίκτυο. Αναλύεται ο τρόπος λειτουργίας τους και τα λειτουργικά χαρακτηριστικά τους, δίνοντας ιδιαίτερη βαρύτητα στην ημιτονοειδή διαμόρφωση πλάτους παλμών που χρησιμοποιήθηκε στα πλαίσια αυτής της διπλωματικής.
Στο πέμπτο κεφάλαιο γίνεται η μελέτη και ο σχεδιασμός του φωτοβολταϊκού συστήματος. Καθορίζονται τα μεγέθη και τα χαρακτηριστικά των κυριότερων στοιχείων από τα οποία αποτελείται, ενώ γίνεται αναφορά και στις απαιτήσεις, όσον αφορά την ποιότητα ισχύος, για την σύνδεση με το δίκτυο ηλεκτρικής ενέργειας.
Στο έκτο κεφάλαιο παρουσιάζεται όλη η διαδικασία εξομοίωσης του φωτοβολταϊκού συστήματος, χρησιμοποιώντας το λογισμικό MATLAB/Simulink. Αφού γίνει μία εισαγωγή στο λογισμικό, αναλύεται ο τρόπος δημιουργίας κάθε μέρους από το οποίο αποτελείται το φωτοβολταϊκό σύστημα, δημιουργώντας με αυτόν τον τρόπο το τελικό ολοκληρωμένο μοντέλο εξομοίωσης.
Στο έβδομο κεφάλαιο γίνεται η εξομοίωση και παρουσιάζονται τα αποτελέσματά της. Σε κάθε στάδιο της εξομοίωσης γίνεται μεταβολή κάποιων σημαντικών παραμέτρων του συστήματος, όπως η προσπίπτουσα ηλιακή ακτινοβολία, ο DC πυκνωτής, το φίλτρο εξόδου, το φορτίο και το μήκος της γραμμή διανομής, ενώ παρουσιάζονται και τα αποτελέσματα των μεταβολών αυτών, όσον αφορά την ποιότητα ισχύος.
Στο όγδοο κεφάλαιο παρουσιάζονται κάποια συμπεράσματα και παρατηρήσεις, με βάση τα αποτελέσματα της εξομοίωσης. / The purpose of this thesis is to examine the power quality of single-phase grid-connected photovoltaic system. At first, the basic units of which it is consisted are analysed and then, the whole photovoltaic system is designed and simulated using the software MATLAB/Simulink.
The first chapter contains an introduction to renewable energy sources, the reason why they are necessary and the advantages of the photovoltaic systems, in comparison to the other renewable energy sources that are available nowadays.
The second chapter deals with solar energy. It is referred to the sun and the high solar potential of Greece, while some typical parameters of solar radiation are explained.
The third chapter contains an analysis of a photovoltaic generator. The photovoltaic effect is described, while there is also a detailed description of solar cells and how they are grouped in order to form the photovoltaic panel.
The fourth chapter focuses on the inverters, which connect the photovoltaic generator to the grid. It includes an analysis of the way they work and their functional parameters, giving more importance to the sine-wave pulse width modulation (PWM), which was mainly implemented on this thesis.
The fifth chapter constitutes the study and design of the photovoltaic system. The values and the parameters of the main parts of which it consists are determined. In addition, the necessary requirements of power quality that should be met, in order to establish a grid connection, are mentioned.
The sixth chapter describes the simulation procedure of the photovoltaic system, using the software MATLAB/Simulink. It contains an introduction to the software and an analytical description of the way each part of the photovoltaic system was created, in order to form the complete simulation model.
The seventh chapter contains the simulation and its results. The simulation includes various stages, on which critical parameters of the photovoltaic system, such as the solar radiation, the DC capacitor, the output filter, the load and the length of distribution line are changed, in order to see how these changes affect the power quality.
The eighth chapter includes some comments and conclusions, regarding the results of the simulation.
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Methods to extract maximum electrical energy from PV panels on the earth's surfaceBekker, Bernard 12 1900 (has links)
Thesis (MScIng)--University of Stellenbosch, 2004. / ENGLISH ABSTRACT: This thesis investigates methods to extract the maximum amount of electrical energy from a py
panel. The thesis is divided into four parts, focussing on different aspects relating to this topic.
The first part will investigate the role that py energy is likely to play in South Africa's future
energy scenario, by looking at topics like the greenhouse effect and the economics of energy
production.
Secondly the thesis will look at how to position py panels optimally for maximum energy
generation through the year. A software model of a py panel is developed which can calculate
available py energy and energy generation costs for a given location, based on parameters like
the positioning of the py panel and historic weather data.
Thirdly the optimal design of a maximum power point tracker is investigated. The optimal
design, based on a k-sweep voltage ratio maximum power point tracking algorithm, is
implemented using a DSP controlled boost converter circuit.
Finally, the best methods to store energy generated using py panels are explored. Energy storage
technologies are compared for rural, off-grid applications in South Africa, and the design and
implementation of a pulse-charging lead-acid battery charging strategy is explained. / AFRIKAANSE OPSOMMING: Hierdie tesis ondersoek maniere waarop die maksimum hoeveelheid elektriese energie vanuit 'n
py paneelonttrek kan word. Die tesis word in vier dele verdeel, wat elkeen fokus op 'n ander
aspek van die onderwerp.
Die eerste kyk na die rol wat PV energie potensieël kan speel in die toekomstige energie
produksie binne Suid Afrika, deur te kyk na onderwerpe soos die kweekhuis effek, en die
ekonomiese sy van energie produksie.
Tweedens kyk die tesis na metodes om 'n py paneeloptimaal te posisioneer vir maksimum
energie deur die jaar. 'n Sagteware model van 'n PV paneel word ontwikkel wat die hoeveelheid
beskikbare energie, en die kostes daarvan, kan bereken vir 'n spesifieke plek, gebaseer op PV
paneel data en vorige jare se atmosferiese data.
Derdens word agtergrond oor maksimum drywingspunt volgers gegee, en die ontwerp en bou
van 'n k-variërende, spannings verhouding maksimum kragpunt volger verduidelik,
geimplimenteer deur van 'n DSP en 'n opkapper baan gebruik te maak.
Laastens word die beste maniere om PV energie te stoor, vir landelike toepassings weg vanaf die
Eskom netwerk, ondersoek. Alle beskikbare tegnologieë word eers vergelyk met mekaar, waarna
die ontwerp en bou van 'n puls-laai loodsuur batterylaaier verduidelik word.
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Identification and development of novel optics for concentrator photovoltaic applicationsShanks, Katie May Agnes January 2017 (has links)
Concentrating photovoltaic (CPV) systems are a key step in expanding the use of solar energy. Solar cells can operate at increased efficiencies under higher solar concentration and replacing solar cells with optical devices to capture light is an effective method of decreasing the cost of a system without compromising the amount of solar energy absorbed. CPV systems are however still in a stage of development where new designs, methods and materials are still being created in order to reach a low levelled cost of energy comparable to standard silicon based photovoltaic (PV) systems. This work outlines the different types of concentration photovoltaic systems, their various design advantages and limitations, and noticeable trends. Comparisons on materials, optical efficiency and optical tolerance (acceptance angle) are made in the literature review as well as during theoretical and experimental investigations. The subject of surface structure and its implications on concentrator optics has been discussed in detail while highlighting the need for enhanced considerations towards material and hence the surface quality of optics. All of the findings presented contribute to the development of higher performance CPV technologies. Specifically high and ultrahigh concentrator designs and the accompanied need for high accuracy high quality optics has been supported. A simulation method has been presented which gives attention to surface scattering which can decrease the optical efficiency by 10-40% (absolute value) depending on the material and manufacturing method. New plastic optics and support structures have been proposed and experimentally tested including the use of a conjugate refractive-reflective homogeniser (CRRH). The CRRH uses a reflective outer casing to capture any light rays which have failed total internal reflection (TIR) due to non-ideal surface topography. The CRRH was theoretically simulated and found to improve the optical efficiency of a cassegrain concentrator by a maximum of 7.75%. A prototype was built and tested where the power output increase when utilising the CRRH was a promising 4.5%. The 3D printed support structure incorporated for the CRRH however melted under focused light, which reached temperatures of 226.3°C, when tested at the Indian Institute of Technology Madras in Chennai India. The need for further research into prototyping methods and materials for novel optics was also demonstrated as well as the advantages of broadening CPV technology into the fields of biomimicry. The cabbage white butterfly was proven to concentrate light onto its thorax using its highly reflective and lightweight wings in a basking V-shape not unlike V-trough concentrators. These wings were measured to have a unique structure consisting of ellipsoidal pterin beads aligned in ladder like structures on each wing scale which itself is then tiled in a roof like pattern on the wing. Such structures of a reflective material may be the answer to lightweight materials capable of increasing the power to weight ratio of CPV technology greatly. Experimental testing of the large cabbage white wings with a silicon solar cell confirmed a 17x greater power to weight ratio in comparison to the same set up with reflective film instead of the wings. An ultrahigh design was proposed taking into account manufacturing considerations and material options. The geometrical design was of 5800x of which an optical efficiency of either ~75% with state of the art optics should produce and effective concentration of ~4300x. Relatively standard quality optics on the other hand should give an optical efficiency of ~55% and concentration ratio ~3000x. A prototype of the system is hypothesised to fall between these two predictions. Ultrahigh designs can be realised if the design process is as comprehensive as possible, considering materials, surface structure, component combinations, anti-reflective coatings, manufacturing processes and alignment methods. Most of which have been addressed in this work and the accompanied articles. Higher concentration designs have been shown to have greater advantages in terms of the environmental impact, efficiency and cost effectiveness. But these benefits can only be realised if designs take into account the aforementioned factors. Most importantly surface structure plays a big role in the performance of ultrahigh concentrator photovoltaics. One of the breakthroughs for solar concentrator technology was the discovery of PMMA and its application for Fresnel lenses. It is hence not an unusual notion that further breakthroughs in the optics for concentrator photovoltaic applications will be largely due to the development of new materials for its purpose. In order to make the necessary leaps in solar concentrator optics to efficient cost effective PV technologies, future novel designs should consider not only novel geometries but also the effect of different materials and surface structures. There is still a vast potential for what materials and hence surface structures could be utilised for solar concentrator designs especially if inspiration is taken from biological structures already proven to manipulate light.
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Computer aided design of systems for solar powered water pumping by photovoltaicsLujara, Nelson Kakuru 23 August 2012 (has links)
D.Ing. / Low system efficiency is a critical problem in photovoltaic (PV) applications due to low efficiency of solar cells. Despite this shortcoming, stand-alone PV systems, have proven to be economical and reliable choices in some applications such as telecommunications, vaccine refrigeration and water pumping in remote locations. In this study, CAD algorithms for the design of PV water pumping systems have been developed with the objective of maximizing the conversion efficiency from the solar irradiation to the potential energy of water by taking into account the variations in the pumping head. The study starts by developing loss models of various sub-systems in the photovoltaic dc and ac motor drive water pumping systems. Using MathCad, these models are then used in the simulation of the system. The simulation results are verified experimentally using their equivalent circuit configurations. The efficiency of the array, the pump and the motor are found to be the most critical parameters for the performance of the systems. The efficiencies of other components, such as the inverter, have also been shown to have a significant effect. The study has shown that for operation at the maximum power point, the inclusion of a maximum power tracker is necessary in a dc motor drive system but may be eliminated in PWM inverter-fed induction motor drive systems through proper matching of the system components. The study has further shown that matching of the drive system and the load with the insolation is essential, since maximum system efficiency occurs at a specific head, which varies as the insolation changes. Prior investigation of site insolation variations is therefore a critical requirement.
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