Bibliografías temáticas / Photovoltaic modelling

Literatura académica sobre el tema "Photovoltaic modelling"

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Publicado: 4 de mayo de 2024

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Artículos de revistas sobre el tema "Photovoltaic modelling"

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Ramos Hernanz, J. A., J. J. Campayo Martín, I. Zamora Belver, J. Larrañaga Lesaka, E. Zulueta Guerrero y E. Puelles Pérez. "Modelling of Photovoltaic Module". Renewable Energy and Power Quality Journal 1, n.º 08 (abril de 2010): 1186–90. http://dx.doi.org/10.24084/repqj08.619.

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Nakada, Takeshi, Cao Dong-Hui, Makoto Kimura y Hsien Chi-Yu. "Study on Optical Servo System (Modelling for Photovoltaic Effect in PLZT Element)". Journal of Robotics and Mechatronics 5, n.º 4 (20 de agosto de 1993): 338–43. http://dx.doi.org/10.20965/jrm.1993.p0338.

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This paper deals with the design of an electrical model for the photovoltaic effect in a PLZT element to estimate, in advance, the performance of an optical actuator consisting of PLZT elements. The results of the basic experiment on the photovoltaic effect are shown, and they indicate that a parallel circuit including a current source, a resistance and a capacitance may be applicable to an electrical model for the photovoltaic effect, under the consideration of the lumped system. Then, the step response of the photovoltage is obtained theoretically according to the electrical model proposed. Since the theoretical results agree well with the results of the basic experiment, the electrical model proposed can be considered to be valid for practical use. Important aspects of the design of an exact model are also pointed out.
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3

Katan, Ramzye, Vassilios G. Agelidis y Chem V. Nayar. "Pspice Modelling of Photovoltaic Arrays". International Journal of Electrical Engineering & Education 32, n.º 4 (octubre de 1995): 319–32. http://dx.doi.org/10.1177/002072099503200407.

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PSPICE modelling of photovoltaic arrays A detailed model of a photovoltaic array written in PSPICE is presented in this paper. The powerful graphics post-processor that accompanies the software program is used to display array characteristics as a function of certain parameters such as insulation and temperature. Advantages include model capability to incorporate data taken from any commercially available solar panel. This is demonstrated in detail through a simple example.
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Abu Hamed, Tareq, Nadja Adamovic, Urs Aeberhard, Diego Alonso-Alvarez, Zoe Amin-Akhlaghi, Matthias Auf der Maur, Neil Beattie et al. "Multiscale in modelling and validation for solar photovoltaics". EPJ Photovoltaics 9 (2018): 10. http://dx.doi.org/10.1051/epjpv/2018008.

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Photovoltaics is amongst the most important technologies for renewable energy sources, and plays a key role in the development of a society with a smaller environmental footprint. Key parameters for solar cells are their energy conversion efficiency, their operating lifetime, and the cost of the energy obtained from a photovoltaic system compared to other sources. The optimization of these aspects involves the exploitation of new materials and development of novel solar cell concepts and designs. Both theoretical modeling and characterization of such devices require a comprehensive view including all scales from the atomic to the macroscopic and industrial scale. The different length scales of the electronic and optical degrees of freedoms specifically lead to an intrinsic need for multiscale simulation, which is accentuated in many advanced photovoltaics concepts including nanostructured regions. Therefore, multiscale modeling has found particular interest in the photovoltaics community, as a tool to advance the field beyond its current limits. In this article, we review the field of multiscale techniques applied to photovoltaics, and we discuss opportunities and remaining challenges.
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Zhen, Yan, Wu Zuyu, Zhu Ninghui, Yuan Ligen y Chen jing Yu. "MATLAB modelling of double sided photovoltaic cell module". Power Electronics and Drives 6, n.º 1 (1 de enero de 2021): 12–25. http://dx.doi.org/10.2478/pead-2021-0002.

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Abstract In this paper, the equatorial coordinate system is taken as the celestial coordinates, the double-sided photovoltaic module irradiance model is established by using the MATLAB simulation software, and the double-sided photovoltaic module irradiance model is combined with the photovoltaic module model (Jianhui (2001)) to form the mathematical model of the real-time generation system of double-sided photovoltaic modules. The effectiveness of the simulation model was verified by building an experimental platform, and the output characteristics of the optimal line spacing between the double-sided p-v module and the single-sided p-v module were further tested and compared.
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Alghanem, Hussah y Alastair Buckley. "Global Benchmarking and Modelling of Installed Solar Photovoltaic Capacity by Country". Energies 17, n.º 8 (10 de abril de 2024): 1812. http://dx.doi.org/10.3390/en17081812.

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Setting solar photovoltaic capacity targets and implementing supportive policies is a widespread strategy among nations aiming to achieve decarbonisation goals. However, policy implementation without a thorough understanding of the intricate relationship between social, economic, and land-use factors and solar photovoltaic deployment can lead to unintended consequences, including over- or underdeployment and failure to reach targets. To address this challenge, an investigation was conducted into the relationship between 36 factors and solar photovoltaic deployment across 143 countries from 2001 to 2020 using correlation analysis and principal component analysis. From these factors, five key variables were identified that collectively explain 79% of the year-to-year variation in photovoltaic capacity. Using these variables, a neural network model was constructed, enabling the estimation of capacity additions by country with an error of less than 10%. Additionally, a solar photovoltaic deployment index was developed, serving as a benchmark for comparing a country’s actual historical photovoltaic deployment to similar nations. Furthermore, the model’s utility in evaluating the impact of solar photovoltaic policies was explored. Through three distinct use cases—forecasting solar photovoltaic capacity additions, developing a solar photovoltaic deployment index, and assessing the impact of solar photovoltaic policies—the model emerges as a potentially powerful tool for governments and policy makers to assess solar photovoltaic deployment effectively and formulate strategies to promote sustainable solar energy growth.
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Muhammad-Sukki, Firdaus, Haroon Farooq, Siti Hawa Abu-Bakar, Jorge Alfredo Ardila-Rey, Nazmi Sellami, Ciaran Kilpatrick, Mohd Nabil Muhtazaruddin, Nurul Aini Bani y Muhammad Zulkipli. "Static concentrating photovoltaic modelling using MATLAB". Journal of Physics: Conference Series 2053, n.º 1 (1 de octubre de 2021): 012003. http://dx.doi.org/10.1088/1742-6596/2053/1/012003.

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Abstract The world has recorded an increasing interest and staggering investment in renewable technology in the last two decades, specifically in solar photovoltaic (PV). Concentrating PV (CPV) is one of PV’s technology advancements and is gaining popularity for integration in a building. Various CPV designs are currently being investigated by researchers. The aim of this paper is to design and develop a MATLAB programme that can predict the electrical properties of a static concentrator that is designed with a ±40° acceptance angle. The programme was utlizied to determine the angular characteristics of the static concentrator between acceptance angle of -50° and 50°. It is proposed that the optoelectronic gain, Copto-e values be incorporated into the model to simulate a CPV design. The incident angle values (within ±50°) were chosen to demonstrate that the static concentrator could collect solar energy within its designed acceptance angle of ±40°. The current-voltage and power-voltage characteristics are generated for each simulation, and critical parameters such as the maximum power, open-circuit voltage, short-circuit current, and optoelectronic gain were identified and measured. The programme was found to be able to determine the electrical properties for the static concentrator.
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8

Ibrahim, Noor ‘Adilah. "MODELLING OF INTRADAY PHOTOVOLTAIC POWER PRODUCTION". Malaysian Journal of Science 40, n.º 2 (30 de junio de 2021): 105–24. http://dx.doi.org/10.22452/mjs.vol40no2.8.

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Photovoltaic (PV) productions should occur within a time interval of sunlight. Time mismatches are detected between sunrise and first production hour as well as sunset and last production hour in a transmission system operator, Amprion, Germany. Hence, in this paper, we investigate this effect using an additive function of two seasonalities and a stochastic process. Both seasonalities are based on the mimicked locations, corrected by a weighing scale, depending on the first and last production hours' coordinates. The result shows that the proposed deterministic model could capture the effect of sunrise and sunset. Also, the dynamics of random components are sufficiently explained by an autoregressive process of order two. Finally, the Normal Inverse Gaussian distribution is shown as the best distribution in explaining noise behaviour, particularly heavy tails in the production's residuals, compared to the Gaussian distribution.
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9

Agarwal, Varuni y Dr Gagan Singh. "Modelling of Photovoltaic using MATLAB/SIMULINK". International Journal of Engineering Trends and Technology 23, n.º 9 (25 de mayo de 2015): 465–69. http://dx.doi.org/10.14445/22315381/ijett-v23p288.

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Wang, Stanley, Oscar Wilkie, Jenny Lam, Rob Steeman, Wilson Zhang, Kah Sing Khoo, Sim Chun Siong y Hannes Rostan. "Bifacial Photovoltaic Systems Energy Yield Modelling". Energy Procedia 77 (agosto de 2015): 428–33. http://dx.doi.org/10.1016/j.egypro.2015.07.060.

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Tesis sobre el tema "Photovoltaic modelling"

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Manshaei, Leila. "Modelling of Photovoltaic power plantsin SIMPOW". Thesis, KTH, Elektriska energisystem, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-121150.

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This master thesis project represents an improved model of a grid connected three phase, singlestage PV system implemented in SIMPOW program. The proposal model consists of a PVgenerator employing a PWM converter in order to interface the AC network. The main objectiveof the project is to introduce the main components of the represented model as well as therequired controller schemes. In order to achieve the accurate performance of the PV system withrespect to the integration grid, both AC and DC side network are equipped with controllerfacilities, optimizing the system operation. The control facilities, implemented on the DC side,are mainly focusing on regulation of the output DC voltage of the generator depending on therequirements of the system. The newly proposal MPPT model represents an improvedoptimization strategy for the DC voltage extraction corresponding to various environmentalconditions. The AC side controllers are designed considering the PV system dynamiccontribution on the grid as well as its participation in reactive power provision to the network. Tostudy the accuracy of the dynamic operation of the system, several case studies have beenperformed on AC and DC side. The results of those studies have been discussed considering theirsimulation diagrams.
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Schweizer, Christian. "Modelling photovoltaic systems in urban environments". Thesis, De Montfort University, 2000. http://hdl.handle.net/2086/4822.

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Gow, John A. "Modelling, simulation and control of photovoltaic converter systems". Thesis, Loughborough University, 1998. https://dspace.lboro.ac.uk/2134/6871.

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The thesis follows the development of an advanced solar photovoltaic power conversion system from first principles. It is divided into five parts. The first section shows the development of a circuit-based simulation model of a photovoltaic (PV) cell within the 'SABER' simulator environment. Although simulation models for photovoltaic cells are available these are usually application specific, mathematically intensive and not suited to the development of power electronics. The model derived within the thesis is a circuit-based model that makes use of a series of current/voltage data sets taken from an actual cell in order to define the relationships between the cell double-exponential model parameters and the environmental parameters of temperature and irradiance. Resulting expressions define a 'black box' model, and the power electronics designer may simply specify values of temperature and irradiance to the model, and the simulated electrical connections to the cell provide the appropriate I/V characteristic. The second section deals with the development of a simulation model of an advanced PVaware DC-DC converter system. This differs from the conventional in that by using an embedded maximum power tracking system within a conventional linear feedback control arrangement it addresses the problem of loads which may not require the level of power available at the maximum power point, but is also able to drive loads which consistently require a maximum power feed such as a grid-coupled inverter. The third section details a low-power implementation of the above system in hardware. This shows the viability of the new, fast embedded maximum power tracking system and also the advantages of the system in terms of speed and response time over conventional systems. The fourth section builds upon the simulation model developed in the second section by adding an inverter allowing AC loads (including a utility) to be driven. The complete system is simulated and a set of results obtained showing that the system is a usable one. The final section describes the construction and analysis of a complete system in hardware (c. 500W) and identifies the suitability of the system to appropriate applications.
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Wang, Yimin. "Modelling physical location based factors of photovoltaic viability". Thesis, University of Sheffield, 2014. http://etheses.whiterose.ac.uk/6367/.

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The aim of this thesis is to model physical location based factors of photovoltaic (PV) viability, including geographical location, dominated climate factors, urban terrain shading and PV panel technologies. We analyze ground measurements from thirteen UK Met Office British weather stations, and ten further weather stations in the US operated by National Solar Radiation Data Base for evidence of climatic effects on annual and seasonal solar radiation over the last 40 years. The impact of the North Atlantic Oscillation on winter solar radiation in the British Isles is explored. We evaluate the accuracies of four solar radiation models - the PVGIS model, UKCP09 model, Liu and Jordan model and Page model - against ground measurements from these thirteen UK Met Office British weather stations. A three-dimensional (3D) SOlar RAdiation Model (SORAM) is presented for evaluating the potential direct and diffuse solar radiation aggregated at a point location in an urban area. By using ray-tracing algorithm, SORAM is capable of taking into account terrain shading. We also present a mobile application that has the same aim as SORAM. However, instead of using a 3D city map, the embedded shading detection algorithm is based on image processing. An analytical model of externally-coated, rectangular and cylindrical luminescent solar concentrators (LSCs) have been developed. These LSCs are able to estimate the residual intensity as a function of wavelength, concentration of luminescent dye and device dimension.
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5

Adkins, Deborah Anne. "Experimental and numerical modelling of mid-concentration photovoltaic concentrator systems". Thesis, University of Nottingham, 2012. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.594866.

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For photovoltaics to achieve wide-scale implementation it is essential that their cost is reduced while maintaining or exceeding the present level of solar to electrical conversion performance. Concentrating solar energy onto a photovoltaic cell allows a reduction in the output electricity cost, if the cost of the concentrator is less than that of the displaced photovoltaic materials. Photovoltaic cell efficiency is shown to decrease with increasing temperature, causing the photovoltaic cells to exhibit both short-term (efficiency loss) and long term (irreversible damage) degradation due to excessive temperatures. Hence the analysis of thermal management is an important issue in photovoltaic power generating systems for both one-sun (lx) and concentrated applications. This thesis presents an experimental and numerical study of solar cell temperature in a midconcentration silicon photovoltaic concentrator (CPV), with a geometric concentration ratio of 42X. Experimental and computational fluid dynamic (CFO) modelling of heat transfer in six designs of CPV device is carried out. A detailed experimental study was designed and carried out in order to investigate the temperature and initial boundary conditions of the two initial CPV prototypes, with a without passive cooling arrangements, operating under standard test conditions (STC) in conjunction with the effect of environmental variables, namely the irradiance incident on the plane-of-array of the CPV module, the local wind speed and the ambient temperature on the operating temperatures of the CPV prototypes. The operating temperature is shown to depend strongly on the irradiance, less so on the wind speed and is found to be insensitive to short term fluctuations in ambient temperature. Temperature profiles of the CPV prototypes were measured experimentally with thermocouples placed both internally and externally along the enclosure and walls aJong the length of each CPV module. To investigate the performance of the CPV devices under a fixed set of repeatable environmental conditions, a solar simulator was designed and built to facilitate indoor testing at a range of illumination levels (0 to 1000W 1m2) and environmental conditions. Reviewing the results it was found that the spectrum and uniformity of irradiance source incident the plane of a single module (1 x 0.lm) is of great importance. The solar simulator was also found to artificially increase the module operating temperature, with greater temperatures recorded during indoor testing. Wind speed and direction measurements were taken in order to establish the module convective heat transfer coefficient (CHTC) which was determined to relatively insensitive to wind direction and to be a power law function of the mean wind speed. In the second phase of the work, three dimensional numerical studies of the photovoltaic concentrator prototypes were developed using ANSYS Fluent Computational Fluid Dynamic (CFD) software to solve the mass, momentum and energy transfer governing equations. The simulations provided thermal and dynamic maps of the fluid flow and the heat transfer between the cell and the passive cooling systems. The results show that a maximum of seven radial fins (CPV design 3) of 27mm height, 3.3mm thickness with a 4 degree taper can be effectively used to reduce the solar cell temperature, from 97.8"C with no cooling fins to 67.7"C with seven fins, measured at nominal operating cell temperature (NOCT) conditions. In addition. to validate the model. experimental measurements of temperature and flow characteristics are compared with experimental data. Numerical results of the CPV operating temperature are shown to have a strong correlation with experimental data with a maximum 0.3% deviation from experimental data for prototype one and a maximum 1.5% deviation from experimental data for prototype two. Simulation models are shown to be important design tools for predicting a photovoltaic concentrator's experimental and real world performance. Informed design decision making and optimisation is a significant goal of this work.
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Czekala, Piotr. "Modelling of molecules on surfaces and thin-film photovoltaic absorbers". Thesis, University of Liverpool, 2013. http://livrepository.liverpool.ac.uk/16755/.

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In this thesis a range of phenomena related to molecular adsorption on silicon surfaces is investigated. The majority of the studies are performed in response to experimental results, where, using newly developed methods within the framework of density functional theory, we aim to elucidate some of the underlying physics as well as test the performance of the chosen methodology. The studies cover a range of subjects such as molecularly mediated pinning of surface geometry, single molecular adsorptions, molecule migration via exited states and finally an analysis of coverage dependent adsorption phenomena, where interactions between molecules are mediated by the surface or enacted via dipole interactions. The main molecules of our simulations were water, ethylene, acetylene, and benzene, as well as halogenated hydrocarbons. We studied processes at two different surfaces, the Si(111)-7 x 7 surface, and the Si(100)-c(4 x 2) surface. Finally we simulated and characterized one type of grain boundary observed experimentally for a set of photovoltaic absorbers (CuInSe_{2}) and kesterite and stannite(Cu_{2}ZnSnSe_{4} or Cu_{2}ZnSnS_{4}) in order to resolve the open question of how these grain boundaries influence efficiencies of the photovoltaic device.
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Aseeri, Ahmed. "Modelling and simulation of fuel cell/photovoltaic hybrid power system". Thesis, Cranfield University, 2012. http://dspace.lib.cranfield.ac.uk/handle/1826/8280.

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Due to an ever increasing demand for power consumption and a rising public awareness of the impact on the environment, renewable energy based on Hybrid Power Systems (HPS) (e.g. fuel cell, wind or solar) to supply electricity has attracted a growing research interest. Photovoltaic (PV) power generation systems are among the most promising renewable energy technology solutions. Fuel Cell (FC), on the other hand, is emission-free and quieter than hydrocarbon fuel-powered engines. It saves fuel and is cleaner for the environment. Such systems can generate electricity from clean sources to power loads located in inaccessible or remote areas. The aim of this thesis is to investigate the potential for utilising an FC/PV hybrid power system to provide power for a water pump, which supply an elevated water tank (6,500 litres/day consumption) to a small community located in a remote area. The HPS consists of a photovoltaic solar panel, a 1.2 KW Nexa Proton Exchange Membrane Fuel Cell (PEMFC), a Lead acid battery bank, a bidirectional DC/DC converter, one directional DC/DC converter and a water pump. The thesis will commence with a literature review, giving an overview of energy demand and future trend, describing the different HPS configurations and giving some examples of similar projects carried out by other researchers and organisations. A system component description is also covered. The thesis will then move on to describing the HPS simulation model development using Matlab/Simulink simulation environment, concluding with the test cases used to validate the model based on the 1.2 KW Nexa PEMFC and PV panels. In the case study, the system utilizes photovoltaic (PV) as the primary power generator, PEMFC as the secondary back-up power generator and a battery bank (to store any excess power) as power storage device. The advantage of the proposed system is that, in addition to being environmentally friendly, it also has lower maintenance costs, noise and carbon footprint. Two main scenarios were explored to validate the hybrid system performance, at two different geographical and environmental conditions. The first case is based in Saudi Arabia, where it is hot and sunny for most of the year. This scenario permits higher utilization of the power generated from the PV cells and reduces the dependence on power produced by the fuel cell. The second case scenario is based in the UK, where it is cold and cloudy for most of the year. The Sunlight here is at minimum, leading to higher dependence on the fuel cells for the system operation.
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8

Black, Jonathan Paul. "Mathematical modelling of electronic contact mechanisms in silicon photovoltaic cells". Thesis, University of Oxford, 2015. https://ora.ox.ac.uk/objects/uuid:ff671215-5f05-4ef0-a876-3f474a8450c9.

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In screen-printed silicon-crystalline solar cells, the contact resistance of a thin interfacial glass layer between the silicon and the silver electrode plays a limiting role for electron transport. The motivation of this project is to gain increased understanding of the transport mechanisms of the electrons across this layer, which can be exploited to provide higher performance crystalline silicon solar cells. Our methodology throughout is to formulate and analyse mathematical models for the electron transport, based on the drift diffusion equations. In the first chapter we outline the problem and provide a summary of relevant theory. In Chapter 2 we formulate a one-dimensional model for electron transport across the glass layer, that we solve both numerically and by employing asymptotic techniques. Chapter 3 extends the model presented in Chapter 2 to two dimensions. To solve the two-dimensional model numerically we devise and validate a new spectral method. The short circuiting of current through thinner regions of the glass layer enables us to find limiting asymptotic expressions for the average current density for two different canonical glass layer profiles. In Chapter 4 we include quantum mechanical effects into the one-dimensional model outlined in Chapter 2 and find that they have a negligible effect on the contact resistance of the glass layer. We model the boundary effects present at the silicon emitter-glass interface in Chapter 5. Finally, in Chapter 6 we summarise our key results, suggest possible future work, and outline the implications of our work to crystalline silicon solar cell manufacturers.
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Bisconti, Raffaella. "Optical modelling and optimisation of Spheral Solar'T'M Cells". Thesis, Northumbria University, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.245206.

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Wu, Xiaofeng. "Fast spatially-resolved electrical modelling and quantitative characterisation of photovoltaic devices". Thesis, Loughborough University, 2015. https://dspace.lboro.ac.uk/2134/18018.

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An efficient and flexible modelling and simulation toolset for solving spatially-resolved models of photovoltaic (PV) devices is developed, and its application towards a quantitative description of localised electrical behaviour is given. A method for the extraction of local electrical device parameters is developed as a complementary approach to the conventional characterisation techniques based on lumped models to meet the emerging demands of quantitative spatially-resolved characterisation in the PV community. It allows better understanding of the effects of inhomogeneities on performance of PV devices. The simulation tool is named PV-Oriented Nodal Analysis (PVONA). This is achieved by integrating a specifically designed sparse data structure and a graphics processing unit (GPU)-based parallel conjugate gradient algorithm into a PV-oriented numerical solver. It allows more efficient high-resolution spatially-resolved modelling and simulations of PV devices than conventional approaches based on SPICE (Simulation Program with Integrated Circuit Emphasis) tools in terms of computation time and memory usage. In tests, mega-sub-cell level test cases failed in the latest LTSpice version (v4.22) and a PSpice version (v16.6) on desktop PCs with mainstream hardware due to a memory shortage. PVONA efficiently managed to solve the models. Moreover, it required up to only 5% of the time comparing the two SPICE counterparts. This allows the investigation of inhomogeneities and fault mechanisms in PV devices with high resolution on common computing platforms. The PVONA-based spatially-resolved modelling and simulation is used in various purposes. As an example, it is utilised to evaluate the impacts of nonuniform illumination profiles in a concentrator PV unit. A joint optical and electrical modelling framework is presented. Simulation results suggest that uncertainties introduced during the manufacturing and assembly of the optical components can significantly affect the performance of the system in terms of local voltage and current distribution and global current-voltage characteristics. Significant series resistance and shunt resistance effects are found to be caused by non-uniformity irradiance profiles and design parameters of PV cells. The potential of utilising PVONA as a quality assessment tool for system design is discussed. To achieve quantitative characterisation, the PVONA toolset is then used for developing a 2-D iterative method for the extraction of local electrical parameters of spatially-resolved models of thin-film devices. The method employs PVONA to implement 2-D fitting to reproduce the lateral variations in electroluminescence (EL) images, and to match the dark current-voltage characteristic simultaneously to compensate the calibration factor in EL characterisations. It managed to separate the lateral resistance from the overall series resistance effects. The method is verified by simulations. Experimental results show that pixellation of EL images can be achieved. Effects of local shunts are accurately reproduced by a fitting algorithm. The outcomes of this thesis provide valuable tools that can be used as a complementary means of performance evaluation of PV devices. After proper optimisation, these tools can be used to assist various analysis tasks during the whole lifecycle of PV products.
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Libros sobre el tema "Photovoltaic modelling"

1

Castañer, Luis. Modelling photovoltaic systems using PSpice. Chichester: John Wiley, 2002.

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Schweizer, Christian. Modelling photovoltaic systems in urban environments. Leicester: De Montfort University, 2000.

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3

Rodríguez Gallegos, Carlos David. Modelling and Optimization of Photovoltaic Cells, Modules, and Systems. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-1111-7.

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Center, Lewis Research, ed. Modelling of multijunction cascade photovoltaics for space applications. [Cleveland, Ohio?: NASA Lewis Research Center, 1987.

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5

Zacharopoulos, Aggelos. Optical design modelling and experimental characterisation of line-axis concentrators for solar photovoltaic and thermal applications. [s.l: The Author], 2001.

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Beljonne, David y Jerome Cornil, eds. Multiscale Modelling of Organic and Hybrid Photovoltaics. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-662-43874-9.

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United States. National Aeronautics and Space Administration, ed. Computer modelling of aluminum-gallium arsenide/gallium arsenide multilayer photovoltaics. [Washington, D.C.?: National Aeronautics and Space Administration, 1987.

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Silvestre, Santiago y Luis Castañer. Modelling Photovoltaic Systems Using PSpice. Wiley & Sons, Incorporated, John, 2003.

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Silvestre, Santiago y Luis Castañer. Modelling Photovoltaic Systems Using PSpice. Wiley & Sons, Incorporated, John, 2007.

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Silvestre, Santiago y Luis Castañer. Modelling Photovoltaic Systems Using PSpice. Wiley & Sons, Incorporated, John, 2006.

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Capítulos de libros sobre el tema "Photovoltaic modelling"

1

Thompson, Ian R. "Modelling of Organic Photovoltaics". En Photovoltaic Modeling Handbook, 141–75. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2018. http://dx.doi.org/10.1002/9781119364214.ch5.

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Mariprasath, T., P. Kishore y K. Kalyankumar. "Photovoltaic Systems". En Solar Photovoltaic System Modelling and Analysis, 11–21. New York: River Publishers, 2024. http://dx.doi.org/10.1201/9781003475897-2.

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3

Cave, James M. y Alison B. Walker. "Modelling Hysteresis in Perovskite Solar Cells". En Photovoltaic Modeling Handbook, 267–78. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2018. http://dx.doi.org/10.1002/9781119364214.ch10.

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Barla, Eva, Dzitac Simona y Carja Vasile. "Modelling a Photovoltaic Power Station". En Soft Computing Applications, 41–47. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-51992-6_4.

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Krc, Janez, Martin Sever, Benjamin Lipovsek, Andrej Campa y Marko Topic. "Optical Modelling and Simulations of Thin-Film Silicon Solar Cells". En Photovoltaic Modeling Handbook, 93–140. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2018. http://dx.doi.org/10.1002/9781119364214.ch4.

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Mariprasath, T., P. Kishore y K. Kalyankumar. "Types of Solar Photovoltaic Systems". En Solar Photovoltaic System Modelling and Analysis, 23–27. New York: River Publishers, 2024. http://dx.doi.org/10.1201/9781003475897-3.

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Pagani, Vitor H., Nelson A. Los, Wellington Maidana, Paulo Leitão, Marcio M. Casaro y Claudinor B. Nascimento. "Soiling Monitoring Modelling for Photovoltaic System". En Lecture Notes in Electrical Engineering, 592–601. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-58653-9_57.

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Luque, Antonio. "Back Point Contact Cells Modelling". En Seventh E.C. Photovoltaic Solar Energy Conference, 900–904. Dordrecht: Springer Netherlands, 1987. http://dx.doi.org/10.1007/978-94-009-3817-5_160.

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Mariprasath, T., P. Kishore y K. Kalyankumar. "Necessity of Boost converters". En Solar Photovoltaic System Modelling and Analysis, 57–69. New York: River Publishers, 2024. http://dx.doi.org/10.1201/9781003475897-5.

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Mariprasath, T., P. Kishore y K. Kalyankumar. "Renewable Energy". En Solar Photovoltaic System Modelling and Analysis, 1–10. New York: River Publishers, 2024. http://dx.doi.org/10.1201/9781003475897-1.

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Actas de conferencias sobre el tema "Photovoltaic modelling"

1

Katsanevakis, Markos. "Modelling the photovoltaic module". En 2011 IEEE 20th International Symposium on Industrial Electronics (ISIE). IEEE, 2011. http://dx.doi.org/10.1109/isie.2011.5984367.

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Hellman, Hannu-Pekka, Matti Koivisto y Matti Lehtonen. "Photovoltaic power generation hourly modelling". En 2014 15th International Scientific Conference on Electric Power Engineering (EPE). IEEE, 2014. http://dx.doi.org/10.1109/epe.2014.6839426.

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Adnaan, Syed Mohd y Mukul Chankaya. "Modelling of hybrid photovoltaic system". En 2017 Recent Developments in Control, Automation & Power Engineering (RDCAPE). IEEE, 2017. http://dx.doi.org/10.1109/rdcape.2017.8358290.

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Ruuska, Pekka, Antti Aikala y Robert Weiss. "Modelling Of Photovoltaic Energy Generation Systems". En 28th Conference on Modelling and Simulation. ECMS, 2014. http://dx.doi.org/10.7148/2014-0651.

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Alaoui, Mustapha El, Fouad Farah, Mounir Ouremchi, Karim El Khadiri, Hassan Qjidaa, Ahmed Lakhssassi y Ahmed Tahiri. "Modelling of Photovoltaic Module with POWERSIM". En 2018 6th International Renewable and Sustainable Energy Conference (IRSEC). IEEE, 2018. http://dx.doi.org/10.1109/irsec.2018.8702998.

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Parretta, Antonio, Giuliano Martinelli, Marco Stefancich, Donato Vincenzi y Ronald Winston. "Modelling of CPC-based photovoltaic concentrator". En 19th Congress of the International Commission for Optics: Optics for the Quality of Life, editado por Giancarlo C. Righini y Anna Consortini. SPIE, 2003. http://dx.doi.org/10.1117/12.530974.

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Galiano, Vicente, Jose M. Blanes, F. Javier Toledo, M. Victoria Herranz y A. Laudani. "PVMODEL: An Online Photovoltaic Modelling Tool". En 2022 IEEE 21st Mediterranean Electrotechnical Conference (MELECON). IEEE, 2022. http://dx.doi.org/10.1109/melecon53508.2022.9843086.

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Salman, Abdulsalam Ali, Chin Fhong Soon, Ali Ahmed Salem y Abdo Ali Al-Sharai. "Modelling Of Grid Connected Photovoltaic System". En 2021 IEEE 19th Student Conference on Research and Development (SCOReD). IEEE, 2021. http://dx.doi.org/10.1109/scored53546.2021.9652704.

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Bojic, M., A. Patou-Parvedy y D. Nikolic. "On Photovoltaic Electricity Production by a Residential House in Reunion Island". En Modelling and Simulation. Calgary,AB,Canada: ACTAPRESS, 2010. http://dx.doi.org/10.2316/p.2010.685-059.

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Peshin, Shwetang, Andreas Spanias, Jongmin Lee, David Ramirez, Henry C. Braun, Cihan Tepedelenlioglu, Mahesh Banavar y Devarajan Srinivansan. "A Photovoltaic (PV) Array Monitoring Simulator". En Modelling, Identification and Control / 827: Computational Intelligence. Calgary,AB,Canada: ACTAPRESS, 2015. http://dx.doi.org/10.2316/p.2015.826-029.

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