930 resultados para Energy Harvesting, Convertitori di potenza, Maximum Power Point Tracking, Applicazioni low power
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At the 2008 Summer Olympics in Beijing, Usain Bolt broke the world record for the 100 m sprint. Just one year later, at the 2009 World Championships in Athletics in Berlin he broke it again. A few months after Beijing, Eriksen [Am. J. Phys. 77, 224-228 (2009)] studied Bolt's performance and predicted that Bolt could have run about one-tenth of a second faster, which was confirmed in Berlin. In this paper we extend the analysis of Eriksen to model Bolt's velocity time dependence for the Beijing 2008 and Berlin 2009 records. We deduce the maximum force, the maximum power, and the total mechanical energy produced by Bolt in both races. Surprisingly, we conclude that all of these values were smaller in 2009 than in 2008.
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Vibration-based energy harvesting has been investigated by several researchers over the last decade. The goal in this research field is to power small electronic components by converting the waste vibration energy available in their environment into electrical energy. Recent literature shows that piezoelectric transduction has received the most attention for vibration-to-electricity conversion. In practice, cantilevered beams and plates with piezoceramic layers are employed as piezoelectric energy harvesters. The existing piezoelectric energy harvester models are beam-type lumped parameter, approximate distributed parameter and analytical distributed parameter solutions. However, aspect ratios of piezoelectric energy harvesters in several cases are plate-like and predicting the power output to general (symmetric and asymmetric) excitations requires a plate-type formulation which has not been covered in the energy harvesting literature. In this paper. an electromechanically coupled finite element (FE) plate model is presented for predicting the electrical power output of piezoelectric energy harvester plates. Generalized Hamilton`s principle for electroelastic bodies is reviewed and the FE model is derived based on the Kirchhoff plate assumptions as typical piezoelectric energy harvesters are thin structures. Presence of conductive electrodes is taken into account in the FE model. The predictions of the FE model are verified against the analytical solution for a unimorph cantilever and then against the experimental and analytical results of a bimorph cantilever with a tip mass reported in the literature. Finally, an optimization problem is solved where the aluminum wing spar of an unmanned air vehicle (UAV) is modified to obtain a generator spar by embedding piezoceramics for the maximum electrical power without exceeding a prescribed mass addition limit. (C) 2009 Elsevier Ltd. All rights reserved.
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In this thesis a piezoelectric energy harvesting system, responsible for regulating the power output of a piezoelectric transducer subjected to ambient vibration, is designed to power an RF receiver with a 6 mW power consump-tion. The electrical characterisation of the chosen piezoelectric transducer is the starting point of the design, which subsequently presents a full-bridge cross-coupled rectifier that rectifies the AC output of the transducer and a low-dropout regulator responsible for delivering a constant voltage system output of 0.6 V, with low voltage ripple, which represents the receivers required sup-ply voltage. The circuit is designed using CMOS 130 nm UMC technology, and the system presents an inductorless architecture, with reduced area and cost. The electrical simulations run for the complete circuit lead to the conclusion that the proposed piezoelectric energy harvesting system is a plausible solution to power the RF receiver, provided that the chosen transducer is subjected to moderate levels of vibration.
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An energy harvesting system requires an energy storing device to store the energy retrieved from the surrounding environment. This can either be a rechargeable battery or a supercapcitor. Due to the limited lifetime of rechargeable batteries, they need to be periodically replaced. Therefore, a supercapacitor, which has ideally a limitless number of charge/discharge cycles can be used to store the energy; however, a voltage regulator is required to obtain a constant output voltage as the supercapacitor discharges. This can be implemented by a Switched-Capacitor DC-DC converter which allows a complete integration in CMOS technology, although it requires several topologies in order to obtain a high efficiency. This thesis presents the complete analysis of four different topologies in order to determine expressions that allow to design and determine the optimum input voltage ranges for each topology. To better understand the parasitic effects, the implementation of the capacitors and the non-ideal effect of the switches, in 130 nm technology, were carefully studied. With these two analysis a multi-ratio SC DC-DC converter was designed with an output power of 2 mW, maximum efficiency of 77%, and a maximum output ripple, in the steady state, of 23 mV; for an input voltage swing of 2.3 V to 0.85 V. This proposed converter has four operation states that perform the conversion ratios of 1/2, 2/3, 1/1 and 3/2 and its clock frequency is automatically adjusted to produce a stable output voltage of 1 V. These features are implemented through two distinct controller circuits that use asynchronous time machines (ASM) to dynamically adjust the clock frequency and to select the active state of the converter. All the theoretical expressions as well as the behaviour of the whole system was verified using electrical simulations.
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Companies and researchers involved in developing miniaturized electronic devices face the basic problem of the needed batteries size, finite life of time and environmental pollution caused by their final deposition. The current trends to overcome this situation point towards Energy Harvesting technology. These harvesters (or scavengers) store the energy from sources present in the ambient (as wind, solar, electromagnetic, etc) and are costless for us. Piezoelectric devices are the ones that show a higher power density, and materials as ceramic PZT or polymeric PVDF have already demonstrated their ability to act as such energy harvester elements. Combinations between piezoelectric and electromagnetic mechanism have been also extensively investigated. Nevertheless, the power generated by these combinations is limited under the application of small magnetic fields, reducing the performance of the energy harvester [1]. In the last years the appearance of magnetoelectric (ME) devices, in which the piezoelectric deformation is driven by the magnetostrictive element, enables to extract the energy of very small electromagnetic signals through the generated magnetoelectric voltage at the piezoelectric element. However, very little work has been done testing PVDF polymer as piezoelectric constituent of the ME energy harvester device, and only to be proposed as a possibility of application [2]. Among the advantages of using piezopolymers for vibrational energy harvesting we can remember that they are ductile, resilient to shock, deformable and lightweight. In this work we demonstrate the feasibility of using magnetostrictive Fe-rich magnetic amorphous alloys/piezoelectric PVDF sandwich-type laminated ME devices as energy harvesters. A very simple experimental set-up will show how these laminates can extract energy, in amounts of W, from an external AC field.
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Dissertao de mestrado integrado em Engenharia Eletrnica Industrial e Computadores
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Ao longo dos ltimos anos a indstria microelectrnica tem evoludo no sentido de reduzir o consumo energtico dos seus dispositivos no sentido de estes serem alimentados por fontes energticas diversas, nomeadamente fontes renovveis. A crescente demanda por componentes energeticamente eficientes e pela miniaturizao dos componentes eletrnicos exigem a conceo de fontes de alimentao com potncia reduzida na ordem das dezenas de W s centenas de mW. Atualmente, com os crescentes avanos tecnolgicos possvel obter componentes energticamente eficientes e com tamanhos reduzidos capazes de colmatar as restries energticas das mais variadas aplicaes. A utilizao de fontes energia eltrica que tiro proveito da energia existente no meio onde se inserem os diversos dispositivos eletrnicos ou simplesmente para recarregar as baterias, apresenta-se como um dos principais objetivos a alcanar. Entre todas as energias renovveis, a energia fotovoltaica surge como umas das que proporciona um maior potencial. A sua disponibilidade global e os constantes desenvolvimentos tecnolgicos no mbito do fotovoltaico permitem o desenvolvimento de sistemas de alimentao com rendimento energtico cada vez mais elevado. A presente dissertao tem como objetivo o estudo, a simulao e implementao de um conversor CC-CC, step-up, com algoritmo de controlo MPPT integrado designado por mtodo de correlao de ripple (Ripple Correlation Control RCC), para aplicaes de baixa potncia na ordem das dezenas de W s centenas de mW. Desenvolveu-se um conversor CC-CC, autnomo, para carregamento de baterias com recurso a painis fotovoltaicos, como fonte de energia, de forma contnua mesmo em situaes de baixa luminosidade. Um circuito de gesto de energia devidamente dimensionado foi implementado com recurso a um algoritmo de procura do ponto de mxima potncia (Maximum Power Point Tracking MPPT). O objetivo desta implementao extrair a mxima potncia disponvel da fonte de energia eltrica, neste caso o painel fotovoltaico, independentemente das condies meteorolgicas e da potncia requerida pela carga, sendo o excesso de energia redirecionado para a bateria. Nesta dissertao apresentam-se os resultados das simulaes, assim como os resultados experimentais de todos os circuitos desenvolvidos de forma a validar todo o sistema implementado.
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This paper investigates the feasibility of using an energy harvesting device tuned such that its natural frequency coincides with higher harmonics of the input to capture energy from walking or running human motion more efficiently. The paper starts by reviewing the concept of a linear resonant generator for a tonal frequency input and then derives an expression for the power harvested for an input with several harmonics. The amount of power harvested is estimated numerically using measured data from human subjects. Assuming that the input is periodic, the signal is reconstructed using a Fourier series before being used in the simulation. It is found that although the power output depends on the input frequency, the choice of tuning the natural frequency of the device to coincide with a particular higher harmonic is restricted by the amount of damping that is needed to maximize the amount of power harvested, as well as to comply with the size limit of the device. It is also found that it is not feasible to tune the device to match the first few harmonics when the size of the device is small, because a large amount of damping is required to limit the motion of the mass.
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Fundao de Amparo Pesquisa do Estado de So Paulo (FAPESP)
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This paper presents the analysis of some usual MPPT (Maximum Power Point Tracking) strategies intended for small wind energy conversion (up to 1kW) based on permanent magnet synchronous generators (PMSG), considering the stand-alone application for a novel buck-boost integrated inverter. Each MPPT method is analytically introduced and then it is simulated using MatLab/Simulink considering standard conditions of wind and also commercially available turbines and generators. The extracted power in each case is compared with the maximum available power, so the tracking factor is calculated for each method. Thus, the focus is on the application to improve the efficiency of stand-alone wind energy conversion systems (WECS) with battery chargers and AC load supplied by inverter. Therefore, for this purpose a novel single phase buck-boost integrated inverter is introduced. Finally, the main experimental results for the introduced inverter are presented. 2011 IEEE.
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Fundao de Amparo Pesquisa do Estado de So Paulo (FAPESP)
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In questa tesi vengono analizzati alcuni schemi circuitali di convertitori di micro potenze da generatori termoelettrici sottoposti a gradienti di temperatura limitati. I circuiti, basati su oscillatori step-up in grado di innescarsi con tensioni di alimentazione estremamente basse, sono stati analizzati dal punto di vista teorico e mediante successive simulazioni circuitali. Le potenze ottenibili con gradienti di temperatura inferiori a 10K risultano tipicamente comprese tra qualche uW e qualche decina di uW, con efficienze fino a circa il 40%.
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The increase in environmental and healthy concerns, combined with the possibility to exploit waste as a valuable energy resource, has led to explore alternative methods for waste final disposal. In this context, the energy conversion of Municipal Solid Waste (MSW) in Waste-To-Energy (WTE) power plant is increasing throughout Europe, both in terms of plants number and capacity, furthered by legislative directives. Due to the heterogeneous nature of waste, some differences with respect to a conventional fossil fuel power plant have to be considered in the energy conversion process. In fact, as a consequence of the well-known corrosion problems, the thermodynamic efficiency of WTE power plants typically ranging in the interval 25% 30%. The new Waste Framework Directive 2008/98/EC promotes production of energy from waste introducing an energy efficiency criteria (the so-called R1 formula) to evaluate plant recovery status. The aim of the Directive is to drive WTE facilities to maximize energy recovery and utilization of waste heat, in order to substitute energy produced with conventional fossil fuels fired power plants. This calls for novel approaches and possibilities to maximize the conversion of MSW into energy. In particular, the idea of an integrated configuration made up of a WTE and a Gas Turbine (GT) originates, driven by the desire to eliminate or, at least, mitigate limitations affecting the WTE conversion process bounding the thermodynamic efficiency of the cycle. The aim of this Ph.D thesis is to investigate, from a thermodynamic point of view, the integrated WTE-GT system sharing the steam cycle, sharing the flue gas paths or combining both ways. The carried out analysis investigates and defines the logic governing plants match in terms of steam production and steam turbine power output as function of the thermal powers introduced.
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Questo lavoro si occupato della ricerca e progettazione di un'antenna UWB per la realizzazione di un tag RFID e si colloca all'interno del progetto GRETA (GREen TAgs), finanziato dal MIUR. Le principali caratteristiche richieste al green tag sono: dimensioni complessive di massimo 4-5 cm, assenza di batterie e compatibilit con l'ambiente. L'eco-compatibilit viene garantita tramite la realizzazione dell'antenna al di sopra di un substrato di carta; i limiti derivanti dall'assenza di batterie vengono invece sopperiti tramite realizzazione di energy harvesting, al fine di raggiungere una completa autonomia energetica. Viene sfruttata la tecnica UWB per la comunicazione nella banda (3.1-4.8 GHz); l'energy harvesting si effettua invece a 868 MHz. Sono infine stati ricavati alcuni primi risultati relativi alla potenza rettificabile con la soluzione proposta, tramite realizzazione di un opportuno circuito rettificatore.
