Academic literature on the topic 'Power generation and power capacitors'

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Journal articles on the topic "Power generation and power capacitors"

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Nugraha, Adi, and Felycia Felycia. "Optimizing Energy-Efficient Home Electrical Systems through Capacitor Integration to Improve Future Energy Efficiency." Journal of Mechatronics and Artificial Intelligence 1, no. 2 (2024): 85–96. https://doi.org/10.17509/jmai.v1i2.76571.

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This research discusses the optimization of energy-efficient home electrical systems through the integration of capacitors to improve future energy efficiency. The main objective is to analyze the impact of installing power capacitors in parallel with electrical loads such as fans, refrigerators, and computers to improve power factor and reduce energy consumption. An experimental approach is used, installing capacitors with different values (2μF, 6μF, 8μF) on the test loads and measuring parameters such as voltage, current, power factor, and active power. The results show that the installation of optimal capacitors (e.g., 2μF for fans, 8μF for refrigerators) significantly improves the power factor, from around 0.55-0.61 without capacitors to near unity with capacitors. This power factor improvement reduces the current flowing through the system, leading to lower active power losses and increased energy efficiency. For example, the fan current is reduced from 0.197A to 0.109A with a 2μF capacitor. The active power consumption also decreased for some loads, such as fans experiencing a 4.8% reduction, indicating energy savings. The capacitor integration provides economic benefits through reduced electricity costs and environmental benefits by lowering carbon emissions from reduced electricity generation. The key is to carefully select the right capacitor size to avoid over-compensation, requiring an analysis of the reactive power requirements for each load
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Winters, Jeffrey. "Power Points." Mechanical Engineering 129, no. 08 (2007): 22–24. http://dx.doi.org/10.1115/1.2007-aug-1.

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This article discusses various aspects of nanoscale materials that are seen to revolutionize energy storage. Teams of researchers working around the globe are finding that as the materials in batteries and capacitors become more finely engineered, they increase their energy storage capabilities. Within a decade, nanomaterial-based batteries and capacitors could find themselves not just in power tools and cell phones, but in uninterruptible power supplies, electric vehicles, and even the electric grid, to help handle wind and solar energy. The new lithium-ion battery relies on nanoparticles in its electrolyte to provide greater energy density and longer cycle life than conventional batteries. As batteries are playing such a prominent role, researchers are working hard to improve them, eliminating such headaches as recharge memory and packing more energy into each cubic inch. Studies show that distributed electricity generation from solar panels or combined heat and power systems could be backed up with a refrigerator-size capacitor unit that could store excess energy. The promise of nanotechnology-enhanced energy storage is enough to make anyone see a limitless future. A123’s Fulop cautions that nano-based storage systems ought to be looked at with optimism tempered by caution.
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Liao, Yi-Hung, and Yen-Lun Lin. "An Improved Down-Scale Evaluation System for Capacitors Utilized in High-Power Three-Phase Inverters under Balanced and Unbalanced Load Conditions." Energies 15, no. 19 (2022): 6937. http://dx.doi.org/10.3390/en15196937.

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The DC-link capacitors in an electronic power system are the main constraint of the power density and lifespan of the power converters. Evaluating the load life of capacitors working in severely adverse circumstances plays an important role in the design stages of the next-generation power converters. In this article, an improved evaluation system for the capacitors utilized in high-power three-phase voltage source inverters is proposed. The purpose of this article is to reproduce the same encountered stresses when a DC-link capacitor is used in a high-power inverter with pulse-width modulation. Hence, an improved down-scale evaluation system for the DC-link capacitors used in high-power three-phase inverter systems under balanced and unbalanced load conditions is proposed. Moreover, AC and DC analyses in the proposed evaluation system are conducted. The equivalent circuit and transfer functions are derived to verify the proposed evaluation system. Finally, a prototype system is constructed to facilitate the theoretical results as the verification.
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., Yusmartato, Zulfadli Pelawi, Ramayulis ., et al. "Analysis of Stability Improvements by Using Capacitors." International Journal of Engineering & Technology 7, no. 2.13 (2018): 357. http://dx.doi.org/10.14419/ijet.v7i2.13.16920.

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The demand for electricity has increased substantially while the expansion of electricity generation, power transmission is very limited, due to environmental restrictions, consequently some transmission lines, limiting power factor. Power flow in the generation system, covering the area of North Sumatra and Aceh which is managed by PT. PLN (Persero), ETAP 4.0 (Electrical Transient Analizer Program) is a program that can display GUI (Graphical User Interface) with unlimited bus number, ETAP 4.0 is useful for Power flow study. The data required by ETAP 4.0 on a generation system is a one-line diagram, nominal kV, and generator, bus, transformer, transmission, and safety rating. The power flow approach method used is the Newton-Raphson method with maximum iteration of 99 and the accuracy of 0.000001. The problem of power flows under consideration is the normal state system, one transmission is disconnected, one of the plants is not operating. The results of the power flow study for each problem obtained the lowest bus voltage, the highest losses in the transmis. The largest power distributed in power plants, new in high voltage transmission, increases the power of power from power to load, changes in voltage problems and improves system stability. This paper aims to verify the capacitor's ability to improve voltage regulation (voltage stability) in electric power transmission systems, from this capacitor simulated using ETAP 4.0 included in Newton-Raphson model.
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Salkuti, Surender Reddy. "Optimal Location and Sizing of Shunt Capacitors with Distributed Generation in Distribution Systems." ECTI Transactions on Electrical Engineering, Electronics, and Communications 19, no. 1 (2021): 34–42. http://dx.doi.org/10.37936/ecti-eec.2021191.222295.

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This paper proposes a novel approach to determine an optimal location and sizing of shunt capacitors for reactive power compensation in distribution systems with distributed generation. Here, the optimal location for installing the shunt capacitors is determined using the loss sensitivity factor approach. The stochastic nature of distributed generation (i.e., wind and solar PV powers) has been considered in this paper. Optimal sizing of shunt capacitors has been determined by considering the power loss minimization as objective function and this problem is solved using the differential evolution algorithm (DEA). The results obtained with DEA are also compared with genetic algorithm (GA) and particle swarm optimization (PSO) algorithms. The effectiveness of this proposed approach has been simulated on the IEEE 15, 33, 69 and 85 bus test systems.
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Leghari, Zohaib Hussain, Mohammad Yusri Hassan, Dalila Mat Said, et al. "Effective Utilization of Distributed Power Sources under Power Mismatch Conditions in Islanded Distribution Networks." Energies 16, no. 6 (2023): 2659. http://dx.doi.org/10.3390/en16062659.

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The integration of distributed generation (DG) into a power distribution network allows the establishment of a microgrid (MG) system when the main grid experiences a malfunction or is undergoing maintenance. In this case, the power-generating capacity of distributed generators may be less than the load demand. This study presents a strategy for the effective utilization of deployed active and reactive power sources under power mismatch conditions in the islanded distribution networks. Initially, the DGs’ and capacitors’ optimal placement and capacity were identified using the Jaya algorithm (JA) with the aim to reduce power losses in the grid-connected mode. Later, the DG and capacitor combination’s optimal power factor was determined to withstand the islanded distribution network’s highest possible power demand in the event of a power mismatch. To assess the optimal value of the DG–capacitor pair’s operating power factor (pfsource) for the islanded operation, an analytical approach has been proposed that determines the best trade-off between power losses and the under-utilization of accessible generation. The test results on 33-bus and 69-bus IEEE distribution networks demonstrate that holding the islanded network’s load power factor (pfload) equal to pfsource during the power imbalance conditions allows the installed distributed sources to effectively operate at full capacity. As expected, the proposed strategy will assist the utility companies in designing efficient energy management or load shedding schemes to effectively cope with the power mismatch conditions.
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Khandare, Prof J. R. "Advanced Footstep Power Generation using RFIDs." International Journal for Research in Applied Science and Engineering Technology 13, no. 1 (2025): 1885–87. https://doi.org/10.22214/ijraset.2025.66670.

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In today's world, the demand for renewable energy is ever-increasing. Footstep power generation offers a sustainable and innovative approach to energy harvesting. By leveraging piezoelectric technology and integrating RFID modules, this system aims to generate electrical power efficiently and enable user identification for personalized energy contribution tracking. The energy harvested is stored in batteries or super capacitors and can be used for various applications, such as lighting, IoT systems, and smart infrastructure in urban areas.
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El Khlifi, Younes, Abdelmounime El Magri, Adil Mansouri, and Rachid Lajouad. "Enhanced low voltage ride-through control of multilevel flying capacitor inverter based wind generation." Indonesian Journal of Electrical Engineering and Computer Science 33, no. 2 (2024): 854. http://dx.doi.org/10.11591/ijeecs.v33.i2.pp854-861.

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This paper introduces a cost-effective control method to enhance the low voltage ride-through (LVRT) capability and smooth the output power of a three-phase multilevel flying capacitor inverter (FCI) in wind turbine-based permanent magnet synchronous generator (PMSG). The proposed approach utilizes the energy storage capability of flying capacitors to mitigate wind power fluctuations and address short-duration outages and deep voltage sags. Additionally, a nonlinear controller based Lyapunov theory is developed to regulate capacitor voltages, improve power factors, and balance DC-link voltage. Numerical simulations are conducted in MATLAB/SimPower systems environment to validate the effectiveness of this comprehensive control strategy across different grid operation scenarios.
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Khlifi, Younes El, Abdelmounime El Magri, Adil Mansouri, and Rachid Lajouad. "Enhanced low voltage ride-through control of multilevel flying capacitor inverter based wind generation." Indonesian Journal of Electrical Engineering and Computer Science 33, no. 2 (2024): 854–61. https://doi.org/10.11591/ijeecs.v33.i2.pp854-861.

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This paper introduces a cost-effective control method to enhance the low voltage ride-through (LVRT) capability and smooth the output power of a three-phase multilevel flying capacitor inverter (FCI) in wind turbine-based permanent magnet synchronous generator (PMSG). The proposed approach utilizes the energy storage capability of flying capacitors to mitigate wind power fluctuations and address short-duration outages and deep voltage sags. Additionally, a nonlinear controller based Lyapunov theory is developed to regulate capacitor voltages, improve power factors, and balance DC-link voltage. Numerical simulations are conducted in MATLAB/SimPower systems environment to validate the effectiveness of this comprehensive control strategy across different grid operation scenarios.
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Zhao, Kuo, Yi Bin Zhang, and Bo Yu. "The Series and Parallel Energy Storage System Based on Super Capacitors." Advanced Materials Research 989-994 (July 2014): 2820–24. http://dx.doi.org/10.4028/www.scientific.net/amr.989-994.2820.

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The series and parallel energy storage system based on super capacitors can quickly adjust a wide range of active and reactive power in two directions, which is a new way to improve the stability and power quality of new energy power generation system. In this paper, double converters structure is used to achieve the series and parallel compensation effect and their control strategies according to Instantaneous Power Theory. It is simulated in PSCAD that series and parallel energy storage system of super capacitor contribute to the impact on wind turbines power as environment conditions change. Simulation results show that the energy storage system can greatly improve the stability and power quality of grid-connected wind turbines.
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Dissertations / Theses on the topic "Power generation and power capacitors"

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Shoai, Tehrani Bianka. "Electricity investments and development of power generation capacities : An approach of the drivers for investment choices in Europe regarding nuclear energy." Phd thesis, Ecole Centrale Paris, 2014. http://tel.archives-ouvertes.fr/tel-01020273.

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In a context of growing energy prices and climate change mitigation, the thesis addresses the issues of investments in power generation capacities and in particular nuclear capacities. Given that the Generation IV of nuclear reactors is supposed to be ready in 2040 for industrial deployment, the purpose of the thesis is to study the conditions for electricity investments in France and Europe within this horizon, in order to assess development perspectives for nuclear energy and for potential emergence of Generation IV on the European market. To do so, it is necessary to study the mechanisms at stake in investment choices taking into account all power generating technologies. Economic theory usually bases the choice on long-term economic rationality, which does not allow explain the actual choices observed in European electricity mix. The objective of the research work is thus to identify investment choice drivers and to propose an approach describing the behavior of investors in a more realistic way. A multidisciplinary approach was adopted to explore the question. It combines a historical analysis of drivers evolution according to historical context, a structural analysis of these drivers to identify favorable scenarios for future nuclear reactors, a value creation approach to replicate investors' preferences in those scenarios, and last, a value option approach focusing on nuclear technologies and comparing competitiveness of Generation IV reactors with current reactors. As a result, only strong climate policy combined to government support to nuclear energy could allow industrial development of Generation IV, while high progress of renewables does not lessen the attractiveness of nuclear energy.On a international level, such analysis could be broaden by taking into account the drivers specific to each area of the world, such as highly growing demand in developing countries.
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Paul, Sushanta. "Optimal capacitor placement for line-loss reduction and importance of voltage reduction during reactive power compensation and its effects on load, line loss, and generation." Diss., Wichita State University, 2013. http://hdl.handle.net/10057/10615.

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A methodology to determine the optimal capacitor locations and sizes to minimize line loss on a radial distribution system was developed in this work. Both the power loss index (PLI)-based approach and the loss sensitivity coefficient-based approach were comparatively studied to determine the optimal capacitor location. The index-based approach combined with a genetic algorithm was used to determine the capacitor sizes. After reactive power compensation voltage-dependent loads consume more power because of the increase in node voltage; therefore, customers pay more for their electricity while utilities experience savings from line-loss reduction. Therefore, a rationale for the necessity of reducing voltage for load demand reduction during reactive power compensation is presented, and the optimal voltage setting at the substation regulator is determined. The joint effect of ambient temperature, price, size, and phase kVAr of the capacitor on load, line loss, and generation is analyzed using a 24 factorial design. How consumer energy consumption, line loss, and generation are affected by voltage reduction is also evaluated. Since bus voltage also depends on line resistance, which varies with ambient temperature, the impact of temperature on power consumption, line loss, and generation is discussed as well. At reduced voltage, variations in line loss need to be analyzed, because losses affect the cost-benefit analysis. A model is derived that explains, at reduced voltage, how line loss varies with the type of load. Also analyzed is the effect of line resistance on line loss for various types of loads. The results of this work will improve the effectiveness and reliability of future voltage-reduction programs. Finally, analyses for negative line loss, higher voltage at the downstream node, and the active and reactive current components of a capacitor are presented in this work.<br>Thesis (Ph.D.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering and Computer Science
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Michel, André Bernardes. "Alocação de bancos de capacitores e reguladores de tensão usando otimização por metas considerando geração distribuída." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2015. http://hdl.handle.net/10183/118829.

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Sistemas de Distribuição de Energia Elétrica (SDEE) estão, pelas próprias condições de funcionamento, sujeitos a perdas de energia e quedas nos níveis de tensão. Uma das formas de reduzir as perdas e ao mesmo tempo melhorar o perfil de tensão do SDEE consiste na utilização de bancos de capacitores e reguladores de tensão ao longo dos alimentadores. Para isto a alocação ótima destes equipamentos torna-se de fundamental importância, logo este trabalho tem por objetivo a utilização de um método quadrático de programação por metas multiobjetivo para a ótima alocação desses equipamentos visando a redução de perdas (meta 1) com o menor custo de investimento (meta 2) sujeito a restrições do fluxo de potência, limites técnicos de operação, mudança no controle dos capacitores chaveados e dos taps dos reguladores de tensão. O constante aumento na penetração da geração distribuída traz novos desafios para o controle e a operação dos SDEE. A metodologia proposta considera os efeitos destas fontes de geração e os seus impactos na alocações ótima dos bancos de capacitores e reguladores de tensão. Com o intuito de resolver o problema de otimização em programas comerciais como Gurobi e Cplex uma metodologia linear de cálculo de fluxo de potência é utilizada. Os algoritmos foram desenvolvidos no software Matlab, e posteriormente foi realizada a conversão para linguagem GAMS (Generic Algebraic Modeling System) para utilização dos solvers na plataforma NEOS (Network Enabled Optimization System).<br>Power distribution systems (DS) are susceptible to energy loss and voltage drops, mainly because of the way that they are operated and built. One way to minimize system loss and improve the voltage profile of DS is with the use of capacitor banks and voltage regulators (VRs) along the distribution feeders. In this scenario, the optimal placement of these devices becomes crucial. In this paper, a quadratic multi objective goal programming method is proposed to obtain the optimal placement of these devices, where the goals are energy loss (goal 1) and the total investment cost (goal 2). The model is subject to system operation constraints, such as power flow demands, limits of voltages and currents, number of stages of switched capacitors and the tap control of VRs. The increase of distributed generation penetration brings new challenges for control and operation of DS. The proposed methodology considers the effects of these power sources and their impact on optimal allocations of capacitors and VRs. With the aim of solving the optimization problem in commercial programs, a linear power flow is used. The algorithms were developed with Matlab software and the conversion was made to a General Algebraic Modeling System (GAMS) language and solved in the NEOS (Network Enabled Optimization System) platform.
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Kim, Jong Wan. "Back to Back Active Power Filter for Multi-Generator Power Architecture with Reduced dc-link Capacitor." Diss., Virginia Tech, 2020. http://hdl.handle.net/10919/96638.

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Multi-pulse converters have been widely used for a multi-megawatt scale power generating system to comply with harmonic regulations. Among all types of multi-pulse converters, a 12-pulse converter is the most widely used due to the simple structure, which consists of a delta-delta and a delta-wye phase-shift transformer pair and it effectively mitigates undesirable harmonics from the nonlinear load. In the early 2000s, a shunt type passive front-end for a shipboard power system was proposed. By shunting the two gensets with 30° phase angle difference, a single phase-shift transformer effectively eliminates 5th and 7th harmonics. It achieves a significant size and weight reduction compared to a 12-pulse converter while keep the comparable harmonic cancellation performance. Recently, a hybrid type front-end was proposed. On top of the passive front-end, 3 phase active power filter was added and an additional harmonic cancellation was achieved to further eliminate 11th and 13th harmonics. However, the performance of both the passive and hybrid type front-end are highly dependent on the size of the line reactor in ac mains. A back to back active power filter is proposed in this dissertation to replace the phase-shift transformer in the multi-generator power architecture. The proposed front-end does not include phase-shift transformer and the size and the weight of the overall front-end can be significantly reduced. Due to the active harmonic compensation, the back to back front-end achieves better power quality and the line reactor dependency is improved. The number of required dc-link capacitors is reduced by half by introducing a back to back configuration and the capacitor size is reduced by adjusting the phase angle difference of genset to cancel out the most significant voltage harmonics in the shared dc-link bus. The overview of the existing shunt type front-end is provided and the concept of back to back active power filter is validated by simulation and prototype hardware. The comparison between existing front-end and the proposed front-end is provided to highlight the superior performance of back to back active front-end. The dc-link bus current and voltage ripple analysis is provided to explain the dc-link ripple reduction mechanism.<br>Doctor of Philosophy<br>The transportation electrification has gained more and more attention due to its smaller carbon dioxide emission, better fuel efficiency. The recent advances in power devices, microcontrollers, and transducers accelerate the electrification of transportation. This trend is shown in the propulsion system in marine transport as well and the electric propulsion system has been widely used to meet the strict environmental regulations. However, the non-linear circuit components such as capacitor and diode in the electric propulsion system draw non-linear current and significantly deteriorate power quality and lead to critical problems such as reduced life span of circuit components Accordingly, a front-end is required to improve power quality. Also, it is desired to have compact and lightweight front-end for installation flexibility and fuel efficiency improvement. In this dissertation, several front-ends using a phase-shift transformer are reviewed and a detailed analysis is provided to help understand the harmonic cancellation principle of the existing front-end through equivalent circuit analysis, quantitative analysis, and a phasor diagram representation. Based on the analysis of the existing front-ends and shipboard power architecture, lightweight and high-performance front-end is proposed and verified by simulation and prototype hardware. The performance, size comparison between existing front-end and the proposed front-end is provided to show the advantage of the proposed front-end.
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Enge, Thomas. "Power generation assets." Doctoral thesis, Humboldt-Universität zu Berlin, Wirtschaftswissenschaftliche Fakultät, 2010. http://dx.doi.org/10.18452/16223.

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Wir betrachten die Einsatzplanung (Unit Commitment Problem) für ein thermisches Kraftwerk mit zusätzlicher Energienebenbedingung. Dazu definieren wir ein stochastisches dynamisches Programm (SDP)mit stetigem Zustandsraum und integriertem gemischt-ganzzahligem Programm (MIP). Wir stellen einen effizienten Algorithmus vor zur Lösung des MIP über eine Matrixmultiplikation und verwenden eine Hauptkomponentenanalyse zur Reduzierung der Dimension des Preisvektors. Außerdem liefern wir zum Vergleich des SDP eine vereinfachte Regel zur Energieallokation. Zur Beurteilung der Güte der Ergbnisse betrachten wir als nächstes obere Grenzen. Für eine vereinfachte Modellierung des Kraftwerks als Swing Option mit Mehrfachausübung auf derselben Stufe bestimmen wir formal eine solche obere Grenze. Abschließend untersuchen wir Strategien zur Vermeidung des Spotpreisrisikos, dem das Kraftwerk aufgrund der Nichtspeicherbarkeit von Strom besonders ausgesetzt ist. Zunächst konzentrieren wir uns auf die Messung des Spotpreisrisikos und stellen drei neue Maße vor (Forward Delta, Synthetisches Spot Delta und Earnings-at-Risk). Danach präsentieren wir Strategien zur Risikoreduzierung vor und während der Lieferperiode. Im zweiten Fall wird versucht, durch einen neuen Produktionsplan das Risiko mehr als den Gewinn zu senken. Wir schlagen dazu einen Referenzwert vor, den wir EaR-effizienten Optionswert nennen und in eine neue Erzeugungspolitik basierend auf Quantil-Regression einfließt. Die Politik beschreibt ein Preisband innerhalb dessen ein beobachteter Preis zur Ausübung eines Swing-Rechts führt. Für den Fall der amerikanischen Option können wir EaR-Effizienz mit dieser Strategie nachweisen. Abschließend betrachten wir die Absicherung des Kraftwerks vor der Lieferung durch gezielten Verkauf einer Swing Option. Wir stellen eine Heuristik basierend auf unserem synthetischen Spot Delta vor, um Swinghöhe und –anzahl effizient zu finden.<br>We define a new not yet investigated unit commitment problem that introduces an energy constraint to a thermal power plant. We define a stochastic dynamic program with continuous state space and nested mixed integer program (MIP). We introduce a fast implementation approach by replacing the MIP with an efficient matrix calculation and use principal component analysis to reduce the dimension of the price vector. We also provide a fast heuristic valuation approach for comparison. We investigate the theory of upper bounds for a proper validation of our power plant results. In particular we provide an extension for swing options with multiple exercises at the same stage. Finally we provide a risk analysis for our thermal power plant. In particular we investigate strategies to reduce the spot price risk to which power plants are significantly exposed. First, we focus on the measurement of spot price risk and propose three appropriate risk figures (Forward delta, synthetic spot delta and Earnings-at-Risk ). Second we suggest risk mitigation strategies for both periods, before and in delivery. The latter tries to alter the dispatch policy i.e. pick less risky hours and accept a (desirably only slightly) smaller return. We introduce a benchmark that we will call EaR-efficient option value. We propose a mitigation strategy for this benchmark that is based on quantile regression. It defines a price interval for executing an individual swing right and is therefore very well suited for real world applications. In case of an American option we are able to show EaR-efficiency of our strategy. Finally, we investigate hedging strategies before delivery. In particular, we look at a hedge for the spot price risk of the power plant using a swing option. We propose a heuristic based on our synthetic spot deltas to find the swing number and size of the swing option for a given upper generation amount.
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Navarrete, Pablo-Romero Javier. "Power Quality for Distributed Wind Power Generation." Thesis, KTH, Elektroteknisk teori och konstruktion, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-105221.

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Wind power often is a source of voltage fluctuations and possible voltage issues are raised when considering interconnecting wind turbines to an electric grid. Also, the power electronics introduced in the wind turbines might insert more fluctuations and different PQ problems. Distributed generation seems to be a good option in order to try to mitigate these problems. The first goal of the work is to create a model of a small electric grid, using MATLAB/Simulink. The models aims to simulate various DFIG wind turbines coupled to the grid in different conditions of location and wind. Then, the main objective is to analyze the PQ in the grid with this type of turbine. For this, once the simulations have been done, the results obtained have allowed calculating different indices to study PQ in the model. Afterwards, a comparison of those indices in the different conditions is made.<br>StandUp
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Ali, Richard A. "Reliability and characterization of high voltage power capacitors." Thesis, Monterey, California: Naval Postgraduate School, 2014. http://hdl.handle.net/10945/41346.

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Approved for public release; distribution is unlimited.<br>Alternative energy products are an increasingly common sight on military bases in the United States. Energy product reliability affects the sustainability and cost-effectiveness of these systems, which must be tested by outside entities to ensure quality. The purpose of this thesis is to perform component level reliability testing on a high voltage power capacitor used in an electrical vehicle solar charging system. A component level characterization was performed to better understand the physical attributes of these capacitors. This investigation identified the expected component lifetime and conditions in which this component will become less reliable. Results are compared to those published by the manufacturer.
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Montenegro, León Alejandro. "Advanced power electronic for wind-power generation buffering." [Gainesville, Fla.] : University of Florida, 2005. http://purl.fcla.edu/fcla/etd/UFE0010112.

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Al-Anfaji, Ahmed Suaal Bashar. "The optimization of combined power-power generation cycles." Thesis, University of Hertfordshire, 2015. http://hdl.handle.net/2299/15485.

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An investigation into the performance of several combined gas-steam power generating plants’ cycles was undertaken at the School of Engineering and Technology at the University of Hertfordshire and it is predominantly analytical in nature. The investigation covered in principle the aspect of the fundamentals and the performance parameters of the following cycles: gas turbine, steam turbine, ammonia-water, partial oxidation and the absorption chiller. Complete thermal analysis of the individual cycles was undertaken initially. Subsequently, these were linked to generate a comprehensive computer model which was employed to predict the performance and characteristics of the optimized combination. The developed model was run using various input parameters to test the performance of the cycle’s combination with respect to the combined cycle’s efficiency, power output, specific fuel consumption and the temperature of the stack gases. In addition, the impact of the optimized cycles on the generation of CO2 and NOX was also investigated. This research goes over the thermal power stations of which most of the world electrical energy is currently generated by. Through which, to meet the increase in the electricity consumption and the environmental pollution associated with its production as well as the limitation of the natural hydrocarbon resources necessitated. By making use of the progressive increase of high temperature gases in recent decades, the advent of high temperature material and the use of large compression ratios and generating electricity from high temperature of gas turbine discharge, which is otherwise lost to the environment, a better electrical power is generated by such plant, which depends on a variety of influencing factors. This thesis deals with an investigation undertaken to optimize the performance of the combined Brayton-Rankine power cycles' performance. This work includes a comprehensive review of the previous work reported in the literature on the combined cycles is presented. An evaluation of the performance of combined cycle power plant and its enhancements is detailed to provide: A full understanding of the operational behaviour of the combined power plants, and demonstration of the relevance between power generations and environmental impact. A basic analytical model was constructed for the combined gas (Brayton) and the steam (Rankine) and used in a parametric study to reveal the optimization parameters, and its results were discussed. The role of the parameters of each cycle on the overall performance of the combined power cycle is revealed by assessing the effect of the operating parameters in each individual cycle on the performance of the CCPP. P impacts on the environment were assessed through changes in the fuel consumption and the temperature of stack gases. A comprehensive and detailed analytical model was created for the operation of hypothetical combined cycle power and power plant. Details of the operation of each component in the cycle was modelled and integrated in the overall all combined cycle/plant operation. The cycle/plant simulation and matching as well as the modelling results and their analysis were presented. Two advanced configurations of gas turbine cycle for the combined cycle power plants are selected, investigated, modelled and optimized as a part of combined cycle power plant. Both configurations work on fuel rich combustion, therefore, the combustor model for rich fuel atmosphere was established. Additionally, models were created for the other components of the turbine which work on the same gases. Another model was created for the components of two configurations of ammonia water mixture (kalina) cycle. As integrated to the combined cycle power plant, the optimization strategy considered for these configurations is for them to be powered by the exhaust gases from either the gas turbine or the gases leaving the Rankine boiler (HRSG). This included ChGT regarding its performance and its environmental characteristics. The previously considered combined configuration is integrated by as single and double effect configurations of an ammonia water absorption cooling system (AWACS) for compressor inlet air cooling. Both were investigated and designed for optimizing the triple combination power cycle described above. During this research, tens of functions were constructed using VBA to look up tables linked to either estimating fluids' thermodynamic properties, or to determine a number of parameters regarding the performance of several components. New and very interesting results were obtained, which show the impact of the input parameters of the individual cycles on the performance parameters of a certain combined plant’s cycle. The optimized parameters are of a great practical influence on the application and running condition of the real combined plants. Such influence manifested itself in higher rate of heat recovery, higher combined plant thermal efficiency from those of the individual plants, less harmful emission, better fuel economy and higher power output. Lastly, it could be claimed that various concluding remarks drawn from the current study could help to improve the understanding of the behaviour of the combined cycle and help power plant designers to reduce the time, effort and cost of prototyping.
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SOARES, LEONARDO BRAGA. "POWER GENERATION INVESTMENTS SELECTION." PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 2008. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=11951@1.

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PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO<br>CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO<br>A reestruturação do setor de energia elétrica, iniciada nos anos 90, teve como uma de suas principais implicações a introdução da competição na atividade de geração. A expansão do parque gerador, necessária para garantir o equilíbrio estrutural entre oferta e demanda, é estimulada por contratos de longo prazo negociados em leilões, na modalidade de menor tarifa. Destarte, o investidor deve oferecer um limite de preço para que o seu projeto seja competitivo (de forma a ganhar a licitação), mas que ao mesmo tempo seja suficiente para remunerar seu investimento, custos de operação e, sobretudo, protegê-lo contra todos os riscos intrínsecos ao projeto. Nesse contexto, as duas principais contribuições do presente trabalho são: (i) a proposição de uma metodologia de precificação de riscos, utilizando o critério do Value at Risk (VaR), que indica a máxima perda admitida pelo invetidor avesso a risco, com um determinado nível de confiança, e (ii) a aplicação de diferentes modelos de seleção de carteiras, que incorporam o critério do VaR para otimizar um portfolio com diferentes tecnologias de geração de energia. Os resultados da precificação de riscos são úteis para determinar os componentes críticos do projeto e calcular a competitividade (preço) de cada tecnologia. A aplicação de diferentes métodos de seleção de carteiras busca determinar o modelo mais indicado para o perfil das distribuições de retorno dos projetos de geração, que apresentam assimetria e curtose elevada (caldas pesadas).<br>The new structure of the brazilian electric sector, consolidated by the end of the 90s main implication the introduction of competition in the power generation activity. The expansion of generation capacity, responsible to ensure structural equilibrium between supply and demand, is stimulated by long-term contracts negotiated through energy auctions. Therefore, the investor must give a competitive price (in order to win the auction), but also sufficient to pay his investment, operational costs and, especially, protect him against all project risks. In this role, the two main contributions of this work are: (i) to suggest a methodology of risk pricing, using the Value at Risk (VaR) criterium, which gives the maximum loss admitted by the risk averse investor, with a specified confidence level, and (ii) to apply different portfolio selection models, which incorporates the VaR criterium to optimize a portfolio with different power generation technologies. The risk pricing results are usefull to determine the project critical components and to calculate the competitiviness (price) of each technology. The study of different portfolio selection methods aims to investigate the most suitable model for the return distribution shape, characterized by having assimetry and curtosis (heavy tails).
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Books on the topic "Power generation and power capacitors"

1

Grbović, Petar. Ultra-Capacitors in Power Conversion Systems. John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118693636.

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Institute Of Electrical and Electronics Engineers. IEEE standard for shunt power capacitors. Institute of Electrical and Electronics Engineers, 1993.

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van Overstraeten, R., and G. Caratti, eds. Photovoltaic Power Generation. Springer Netherlands, 1988. http://dx.doi.org/10.1007/978-94-009-2933-3.

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Tagare, Digambar M. Electric Power Generation. John Wiley & Sons, Inc., 2011. http://dx.doi.org/10.1002/9780470872659.

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Canada. Industry, Science and Technology Canada. Power generation equipment. Industry, Science and Technology Canada, 1991.

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Breeze, Paul. Power generation technologies. Newnes, 2005.

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Canada. Industry, Science and Technology Canada. Power generation equipment. Industry, Science and Technology Canada, 1988.

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P, Winkle, ed. Power generation retrofitting: Optimizing power plant performance. Professional Engineering Pub., 2002.

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IEEE Power Engineering Society. Transmission and Distribution Committee. and Insitute of Electrical and Electronics Engineers., eds. IEEE guide for application of shunt power capacitors. Institute of Electrical and Electronics Engineers, 1993.

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Prékopa, András, János Mayer, Beáta Strazicky, et al. Scheduling of Power Generation. Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-07815-1.

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Book chapters on the topic "Power generation and power capacitors"

1

Ahmed, Moustafa M., Muhyaddin Rawa, Ahmed M. Ibrahim, Hala M. Abdel Mageed, and Shady H. E. Abdel Aleem. "Optimal Coordination of Distributed Generation Units and Shunt Capacitors in Egyptian Distribution System Using Sine-Cosine Optimization Algorithm." In Modernization of Electric Power Systems. Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-18996-8_8.

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Boutora, Saliha, and Hamid Bentarzi. "Capacitor Bank Resizing in Islanded Power Grid Fed by Induction Generator." In ICREGA’14 - Renewable Energy: Generation and Applications. Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-05708-8_30.

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Abbas, Ahmed S., Adel Ali Mohamed Abou El-Ela, Ragab A. El-Sehiemy, and Adel A. Elbaset. "Optimal Placement and Sizing of Distributed Generation and Capacitor Banks in Distribution Systems." In Power Quality Enhancement using Artificial Intelligence Techniques. CRC Press, 2023. http://dx.doi.org/10.1201/9781003369448-5.

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Butzen, Nicolas, and Michiel Steyaert. "Advanced Multiphasing: Pushing the Limits of Fully Integrated Switched-Capacitor Converters." In Next-Generation ADCs, High-Performance Power Management, and Technology Considerations for Advanced Integrated Circuits. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-25267-0_7.

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Teske, Sven, and Thomas Pregger. "OECM 1.5 °C Pathway for the Global Energy Supply." In Achieving the Paris Climate Agreement Goals. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-99177-7_12.

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AbstractThis chapter summarizes all the calculated energy demands for the industry, service, transport, and building sectors. The supply side results for the OECM 1.5 °C scenario are documented. Electricity generation and the power generation required globally are provided by technology, together with the corresponding renewable and fossil energy shares. A detailed overview of the heat demand by sector, the heat temperature levels required for industrial process heat, and the OECM 1.5 °C heat supply trajectories by technology are presented, in both total generation and installed capacities. The calculated global final and primary energy demands, carbon intensities by source, and energy-related CO2 emissions by sector are given. Finally, the chapter provides the global carbon budgets by sector.
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"Energy Storage-Power Storage Super Capacitors." In Electric Power Generation. John Wiley & Sons, Inc., 2011. http://dx.doi.org/10.1002/9780470872659.ch16.

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Mitcheson, P., A. Holmes, E. Yeatman, T. Green, and P. Miao. "Micro-Machined Variable Capacitors for Power Generation." In Electrostatics 2003. Taylor & Francis, 2004. http://dx.doi.org/10.1201/9781420034387.ch8.

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Bharathi Sankar Ammaiyappan, A., and Seyezhai Ramalingam. "Piezoelectric-Driven Self-Powered Supercapacitor for Wearable Device Applications." In Supercapacitors for the Next Generation. IntechOpen, 2022. http://dx.doi.org/10.5772/intechopen.98356.

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Supercapacitors are the most promising energy storage devices that bridge the gap between capacitors and batteries. They can reach energy density close to the batteries and power density to the conventional capacitors. Several kinds of research have been carried out in the field of supercapacitors for the development of promising electrode and electrolyte materials as well as device fabrications to breakthrough in energy storage systems with diverse applications in electronics. They have a broad range of applications as they can deliver a huge power within a very short time. The applications of supercapacitors in several sectors like consumer and portable electronics, transportation and vehicles, power backup, biomedical, military, aerospace, etc.
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Grzeskowiak, Henri, Daniel Trias, and David Delaux. "The Reliability of Components: A New Generation of Film Capacitors." In Reliability of High-Power Mechatronic Systems 2. Elsevier, 2017. http://dx.doi.org/10.1016/b978-1-78548-261-8.50004-8.

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Ali H., Mohammed, A. Krishnakumari, S. Selvakanmani, and S. Kaliappan. "Synchronous Reconfiguration in Implantable Distributed Generation on Optimal Power Arrangement." In Advances in Chemical and Materials Engineering. IGI Global, 2024. http://dx.doi.org/10.4018/979-8-3693-2659-6.ch015.

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This study addresses the challenges of synchronous reconfiguration in implantable distributed generation systems, aiming to optimize power arrangement using an evolutionary whale optimization technique. The research focuses on overcoming the degradation in utility grid performance caused by varied responses, which significantly impacts the efficacy of electricity delivery in implantable systems. The key objective is to deliver high-quality electricity while minimizing power dissipation and maintaining operational temperatures within safe limits. To achieve this, the study proposes an innovative method that optimizes both the routing protocol and the placement of capacitors within the implantable distributed generation network. This approach is designed to reduce power flow and operational costs, thereby improving the efficiency of various buses in the system. The optimization process utilizes Jackson's technique for identifying the optimal minimal tree in routing, complemented by an adaptable whale optimization algorithm for model predictive control.
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Conference papers on the topic "Power generation and power capacitors"

1

Sundararajan, Prasanth, Marif Daula Siddique, Mrutyunjaya Sahani, Jaydeep Saha, and Sanjib Kumar Panda. "Machine Learning-Based Condition Monitoring of DC-Link Capacitors in Drive Inverters Using Case Temperature." In 2024 IEEE 15th International Symposium on Power Electronics for Distributed Generation Systems (PEDG). IEEE, 2024. http://dx.doi.org/10.1109/pedg61800.2024.10667455.

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Sahay, Sumeet, Saubhagya Ranjan Biswal, and Gauri Shankar. "Optimizing the Integration of Distributed Generation, Shunt Capacitors, and Electric Vehicle Charging Stations into Radial Distribution Systems." In 2024 IEEE Third International Conference on Power Electronics, Intelligent Control and Energy Systems (ICPEICES). IEEE, 2024. http://dx.doi.org/10.1109/icpeices62430.2024.10718866.

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Beinarys, Rytis, and Seamus O’Driscoll. "400V SiC in Next-Generation 3-Level Flying Capacitor Bridgeless Totem-pole PFC." In 2025 IEEE Applied Power Electronics Conference and Exposition (APEC). IEEE, 2025. https://doi.org/10.1109/apec48143.2025.10977447.

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Shahir, Farzad Mohammadzadeh, and Ebrahim Babaei. "Optimal Placement and Sizing of Distributed Generation and Capacitors: Addressing Uncertainties in Reducing Power Losses and Line Congestion in Radial Distribution Networks." In 2024 9th International Conference on Technology and Energy Management (ICTEM). IEEE, 2024. http://dx.doi.org/10.1109/ictem60690.2024.10632002.

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Chintalapati, Naga Lalithanvitha, Yaswanth Sai Kapavarapu, Yuva Raju Akasapu, et al. "K-Means Algorithm and Fuzzy Genetic Algorithm Based Methodology for Distribution System Planning With Distributed Generations and Shunt Capacitors." In 2024 IEEE International Conference on Smart Power Control and Renewable Energy (ICSPCRE). IEEE, 2024. http://dx.doi.org/10.1109/icspcre62303.2024.10675186.

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Cunzhong Li, Zhangliang Li, Haoran Wang, Guorong Zhu, and Huai Wang. "Multi-objective Optimization of Capacitor Bank Considering the Parasitic Parameters of Capacitors." In 8th Renewable Power Generation Conference (RPG 2019). Institution of Engineering and Technology, 2019. http://dx.doi.org/10.1049/cp.2019.0677.

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Munshi, M. Zafar A., and Ayad Ibrahim. "New Dielectric Polymer Film Capacitors for Pulse Power Applications." In ASME 2004 International Mechanical Engineering Congress and Exposition. ASMEDC, 2004. http://dx.doi.org/10.1115/imece2004-60053.

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High voltage pulse power technologies utilized by the Department of Defense applications such as armor/anti-armor, electromagnetic/electrothermal guns, lasers, high power microwave weapons, etc. are usually satisfied today by film capacitor technologies. Commercial applications extend to a.c. motors, lighting, and automotive and implantable and portable defibrillators, among others. Film capacitors based on polypropylene (PP) and polyester (PET) have the ability to operate at very high voltages and with good reliability. They also offer high breakdown voltages, inherent low losses, excellent frequency response, low dissipation factor (DF), and good self-healing abilities. Unlike most other circuit components, existing capacitor technologies now present a barrier to achieving significant packaging (size and weight) reductions and struggling to meet market-driven performance requirements. The energy density of commercial film capacitors is less than 1 J/cc. Polyvinylidene fluoride (PVDF) has a much higher dielectric constant (12) than commercial films such as polypropylene (PP) (2.5) and a practical energy density of about 2.4 J/cc. However, it has a number of drawbacks including non-linearity of the dielectric constant with voltage, very poor insulation resistance, poor clearing or self-healing ability, poor dissipation factor (DF), higher leakage currents, relatively lower breakdown voltages and is very costly. In recent SBIR Programs, Lithium Power Technologies demonstrated that by combining PP with PVDF in a polymer blend, one could obtain a material with a very high dielectric constant as well as other excellent electrical properties. Electrical data on biaxial oriented thin films and capacitors demonstrated very high breakdown voltages of 700 V/μm to over 1050 V/μm. In contrast, PP films and capacitors resulted in breakdown voltages of 220 to 560 V/±m. Preliminary energy density for the new dielectric capacitor was about 12 J/cc compared to less than 0.5 J/cc for PP. The frequency response data with respect to the DF demonstrated an almost negligible loss in dielectric activity at high frequencies. The new polymer dielectric offers a number of key advantages, including improved performance and lower cost per unit of energy. The technology is a promising candidate for the development of a higher energy density, high voltage metallized film capacitor for a large number of applications including, defense, aerospace, defibrillator, automotive, and electric power generation. This paper will discuss the development of this new technology and commercial potential.
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Spurney, Robert G., Himani Sharma, P. M. Raj, et al. "High-Voltage Capacitors for Next-Generation Power Modules in Electric Vehicles." In 2017 IEEE 67th Electronic Components and Technology Conference (ECTC). IEEE, 2017. http://dx.doi.org/10.1109/ectc.2017.95.

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Wang, J., D. Wang, J. Zhao, H. Hu, Q. Liu, and W. Jing. "Low voltage ride through control strategy for doubly fed asynchronous wind turbines based on super-capacitors." In 12th International Conference on Renewable Power Generation (RPG 2023). Institution of Engineering and Technology, 2023. http://dx.doi.org/10.1049/icp.2023.2177.

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Du, Chengrui, Xiao Li, Xiaotian Wu, Wenping Zhang, and Dehong Xu. "Fuel cell UPS system without bulky DC electrolytic capacitors." In 2010 2nd IEEE International Symposium on Power Electronics for Distributed Generation Systems (PEDG). IEEE, 2010. http://dx.doi.org/10.1109/pedg.2010.5545857.

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Reports on the topic "Power generation and power capacitors"

1

Yushin, Gleb. High Power Electrochemical Capacitors. Defense Technical Information Center, 2012. http://dx.doi.org/10.21236/ada567578.

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Welsch, Gerhard. Titanate Capacitors for Power Electronics. Office of Scientific and Technical Information (OSTI), 2019. http://dx.doi.org/10.2172/1580082.

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N. Badi, D. Starikov, C. Boney, A. Bensaoula, and D. Johnstone. BORON NITRIDE CAPACITORS FOR ADVANCED POWER ELECTRONIC DEVICES. Office of Scientific and Technical Information (OSTI), 2010. http://dx.doi.org/10.2172/1012989.

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Balachandran, U. Development of Capacitors for Power Electronics in Hybrid Vehicles. Office of Scientific and Technical Information (OSTI), 2016. http://dx.doi.org/10.2172/1326788.

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Boyd, Tonya. Geothermal Power Generation Plant. Office of Scientific and Technical Information (OSTI), 2013. http://dx.doi.org/10.2172/1163767.

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Robert L. Johnson Jr. and Gary E. Carver. Solar Power Generation Development. Office of Scientific and Technical Information (OSTI), 2011. http://dx.doi.org/10.2172/1047740.

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Brugman, John, Mai Hattar, Kenneth Nichols, and Yuri Esaki. Next Generation Geothermal Power Plants. Office of Scientific and Technical Information (OSTI), 1995. http://dx.doi.org/10.2172/894305.

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A. Nehrozoglu. ADVANCED CO2 CYCLE POWER GENERATION. Office of Scientific and Technical Information (OSTI), 2004. http://dx.doi.org/10.2172/883159.

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A. Nehrozoglu. ADVANCED CO2 CYCLE POWER GENERATION. Office of Scientific and Technical Information (OSTI), 2003. http://dx.doi.org/10.2172/883160.

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Grannis, Lee, and Carla R. York. Connecticut Biodiesel Power Generation Project. Office of Scientific and Technical Information (OSTI), 2010. http://dx.doi.org/10.2172/1329182.

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