Global ETD Search

1	DEVELOPMENT OF AUTOMATED FAULT RECOVERY CONTROLS FOR PLUG-FLOW BIOMASS REACTORS Mariam Jacob (18369063) 03 June 2024 (has links) <p dir="ltr">The demand for sustainable and renewable energy sources has prompted significant research and development efforts in the field of biomass gasification. Biomass gasification technology holds significant promise for sustainable energy production, offering a renewable alternative to fossil fuels while mitigating environmental impact. This thesis presents a detailed study on the design, development, and implementation of a Plug-Flow Reactor Biomass Gasifier integrated with an Automated Auger Jam Detection System and a Blower Algorithm to maintain constant reactor pressure by varying blower speed with respect to changes in reactor pressure. The system is based on indirectly- heated pyrolytic gasification technology and is developed using Simulink™.</p><p dir="ltr">The proposed gasification system use the principles of pyrolysis and gasification to convert biomass feedstock into syngas efficiently. An innovative plug-flow reactor configuration ensures uniform heat distribution and residence time, optimizing gasification performance and product quality. Additionally, the system incorporates an automated auger jam detection system, which utilizes sensor data to detect and mitigate auger jams in real-time, thereby enhancing operational reliability and efficiency. By monitoring these parameters, the system detects deviations from normal operating conditions indicative of auger jams and initiates corrective actions automatically. The detection algorithm is trained using test cases and validated through detailed testing to ensure accurate and reliable performance.</p><p dir="ltr">The MATLAB™-based implementation offers flexibility, scalability, and ease of integration with existing gasifier control systems. The graphical user interface (GUI) provides operators with real-time monitoring and visualization of system status, auger performance, and detected jam events. Additionally, the system generates alerts and notifications to inform operators of detected jams, enabling timely intervention and preventive maintenance. </p><p dir="ltr">To maintain consistent gasification conditions, a blower algorithm is developed to regulate airflow and maintain constant reactor pressure within the gasifier. The blower algorithm dynamically adjusts blower speed based on feedback from differential pressure sensors, ensuring optimal gasification performance under varying operating conditions. The integration of the blower algorithm into the gasification system contributes to stable syngas production and improved process control. The development of the Plug-Flow Reactor Biomass Gasifier, Automated Auger Jam Detection System, and Blower Algorithm is accompanied by rigorous simulation studies and experimental validation.</p><p dir="ltr">Overall, this thesis contributes to the advancement of biomass gasification technology by presenting a detailed study on a plug flow reactor biomass gasifier with indirectly- heated pyrolytic gasification technology with an Automated Auger Jam Detection System and Blower Algorithm. The findings offer valuable insights for researchers, engineers, policymakers, and industry stakeholders supporting the transition towards cleaner and more renewable energy systems.</p> Plug-Flow Biomass Reactors Automation Auger Jam Detection Reactor Pressure Blower Algorithm
2	Co-incineração de pneus com resíduos sólidos urbanos / Co-incineration of tires with municipal solid waste Cleide Meireles Braga de Aquino 25 February 2011 (has links) O aumento da população, o crescimento das grandes cidades, da industrialização e do consumo, tem trazido preocupação com relação a sustentabilidade quanto à disponibilidade energética e quanto à destinação dos resíduos sólidos urbanos gerados. Dessa forma, é fundamental realizarem-se os estudos visando novas formas de reutilização dos resíduos gerados pelas atividades industriais. Os resíduos sólidos urbanos e os pneus inservíveis gerados trazem conseqüências ao meio ambiente e às populações quando destinados inadequadamente. A destinação final dos resíduos sólidos urbanos é complexa, sendo sempre um grande desafio para as administrações públicas. Com a Política Nacional de Resíduos Sólidos (instituída pela Lei n 12.305/2010), tem-se um marco da preservação ambiental, coma a gestão e gerenciamento de resíduos sólidos, com a ordem de prioridade: não geração, redução, reutilização, reciclagem, tratamento dos resíduos sólidos e disposição final ambientalmente adequada dos rejeitos e prevê, de forma inteligente, a atribuição aos fabricantes de responsabilidade pelo retorno de produtos descartados pelos consumidores. Uma alternativa para minimizar estes aspectos e impactos ambientais é o tratamento térmico com aproveitamento energético. Este processo contribui para mais uma solução de destinação dos resíduos, proporcionado uma redução das áreas a serem utilizadas nos aterros sanitários e contribuindo como uma fonte de geração de energia elétrica / The increase in population, the growth of big cities, industrialization and consumption, have brought with them a kind of awareness about sustainability towards availability of energy and toward the destination of generated municipal solid waste. This way, it is primordial to carry out studies aiming to find new ways to reutilize the waste generated by industrial activities. The municipal solid waste and unusable tires produced cause serious consequences to the environment and to the population when these issues are improperly addressed. The final destination of the municipal solid waste is complex and it is always a big challenge to public management. With our National Policy of solid waste (established by the law number 12.305/2010).It consists of the administration and management of solid waste with the following order of priority: non-generation, reduction, reuse, recycling, treatment of solid waste and final environmentally appropriate disposal. With this we can foresee, in an intelligent way, a responsible plan for the return of goods discarded by consumers to the original manufacturers. An alternative to minimize these aspects and the negative environmental impacts caused is the usage of the thermal treatment with the good use of energy. This process contributes to another solution to the problem of the aforementioned waste, providing a reduction of landfill spaces and contributing to a new source of electrical energy generation Resíduos sólidos urbanos pneus inservíveis tratamento térmico de resíduos geração de energia elétrica electrical energy generation QUIMICA
3	Co-incineração de pneus com resíduos sólidos urbanos / Co-incineration of tires with municipal solid waste Cleide Meireles Braga de Aquino 25 February 2011 (has links) O aumento da população, o crescimento das grandes cidades, da industrialização e do consumo, tem trazido preocupação com relação a sustentabilidade quanto à disponibilidade energética e quanto à destinação dos resíduos sólidos urbanos gerados. Dessa forma, é fundamental realizarem-se os estudos visando novas formas de reutilização dos resíduos gerados pelas atividades industriais. Os resíduos sólidos urbanos e os pneus inservíveis gerados trazem conseqüências ao meio ambiente e às populações quando destinados inadequadamente. A destinação final dos resíduos sólidos urbanos é complexa, sendo sempre um grande desafio para as administrações públicas. Com a Política Nacional de Resíduos Sólidos (instituída pela Lei n 12.305/2010), tem-se um marco da preservação ambiental, coma a gestão e gerenciamento de resíduos sólidos, com a ordem de prioridade: não geração, redução, reutilização, reciclagem, tratamento dos resíduos sólidos e disposição final ambientalmente adequada dos rejeitos e prevê, de forma inteligente, a atribuição aos fabricantes de responsabilidade pelo retorno de produtos descartados pelos consumidores. Uma alternativa para minimizar estes aspectos e impactos ambientais é o tratamento térmico com aproveitamento energético. Este processo contribui para mais uma solução de destinação dos resíduos, proporcionado uma redução das áreas a serem utilizadas nos aterros sanitários e contribuindo como uma fonte de geração de energia elétrica / The increase in population, the growth of big cities, industrialization and consumption, have brought with them a kind of awareness about sustainability towards availability of energy and toward the destination of generated municipal solid waste. This way, it is primordial to carry out studies aiming to find new ways to reutilize the waste generated by industrial activities. The municipal solid waste and unusable tires produced cause serious consequences to the environment and to the population when these issues are improperly addressed. The final destination of the municipal solid waste is complex and it is always a big challenge to public management. With our National Policy of solid waste (established by the law number 12.305/2010).It consists of the administration and management of solid waste with the following order of priority: non-generation, reduction, reuse, recycling, treatment of solid waste and final environmentally appropriate disposal. With this we can foresee, in an intelligent way, a responsible plan for the return of goods discarded by consumers to the original manufacturers. An alternative to minimize these aspects and the negative environmental impacts caused is the usage of the thermal treatment with the good use of energy. This process contributes to another solution to the problem of the aforementioned waste, providing a reduction of landfill spaces and contributing to a new source of electrical energy generation Resíduos sólidos urbanos pneus inservíveis tratamento térmico de resíduos geração de energia elétrica electrical energy generation QUIMICA
4	Produção de energia elétrica e licenciamento ambiental: cidadania no Brasil em tempo de crise ecológica Bettencourt, Marcia Pires da Luz 14 March 2017 (has links) Submitted by Priscilla Araujo (priscilla@ibict.br) on 2017-06-20T18:00:06Z No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Tese Marcia Pires 2017.pdf: 3509214 bytes, checksum: 7e43a46cb74a8d2490119d122489b2bc (MD5) / Made available in DSpace on 2017-06-20T18:00:07Z (GMT). No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Tese Marcia Pires 2017.pdf: 3509214 bytes, checksum: 7e43a46cb74a8d2490119d122489b2bc (MD5) Previous issue date: 2017-03-14 / As escolhas sobre as fontes de energia ganham relevância diante da crise ecológica que deriva de um sistema que transforma tudo em mercadoria e traz como questionamento central as formas de produção e consumo. A matriz elétrica brasileira, cuja fonte hidráulica possui destaque com maior oferta de eletricidade no país, possui de um lado o discurso das vantagens de grande parte de sua composição ser de energia limpa, e, do outro lado, comprova-se um alto custo socioambiental, principalmente para comunidades que vivem próximas aos locais escolhidos para construção de empreendimentos do setor elétrico. Esta pesquisa buscou identificar e analisar as formas de participação da sociedade no processo de escolha de fontes energéticas para produção de energia elétrica em âmbito federal no Brasil, visando discutir os nexos principais entre a crise ecológica e a produção de energia elétrica; como funcionam os mecanismos institucionais para participação social nas questões relacionadas à produção de energia elétrica no Brasil; e, de que forma a sociedade civil participa dos assuntos referentes ao licenciamento ambiental no Conselho Nacional do Meio Ambiente (CONAMA). Um conjunto de abordagens relacionadas à natureza da crise ecológica e das formas de participação social foi adotado no referencial teórico e uma análise do panorama do setor elétrico no Brasil foi elaborada. Para investigar as formas de participação da sociedade nas questões relacionadas à composição da matriz elétrica brasileira foi efetuada uma análise documental, além de um estudo de caso que contemplou três categorias de atores: conselheiros do CONAMA, especialistas da área e dirigentes de órgãos do Estado, envolvidos no planejamento e gestão do setor elétrico. A pesquisa permitiu identificar inconsistências, ambiguidades e outros aspectos relevantes sobre a participação da sociedade na produção de energia elétrica. Tais questões estão associadas a: deficiências nos mecanismos de acesso à informação; falta de transparência e de padronização de documentos; falta de participação social na elaboração dos compromissos internacionais; ausência de participação da sociedade em espaços institucionalizados; ausência da representação da sociedade e de especialistas no Conselho Nacional de Política Energética (CNPE); invisibilidade da discussão sobre possíveis impactos e conflitos sociais; falta de representação da diversidade; deficiência na participação das minorias; falta de iniciativas para a educação para cidadania focadas na questão energética; ausência de debate sobre produção de energia versus consumo; os problemas decorrentes da opção desenvolvimentista das decisões governamentais (mesmo que implícita). Ao final, apresenta sugestões para o aperfeiçoamento deste processo, a partir das três questões chave identificadas nesta tese: crise ecológica; produção de energia elétrica; e participação social. O estudo conclui apontando para a necessidade de mudanças nas formas de participação da sociedade no processo de escolha de fontes energéticas para produção de energia elétrica em âmbito federal no Brasil. Além disso, propõe uma reflexão sobre o modelo de geração e consumo de energia elétrica e a avaliação sistemática do consumo humano sobre os recursos naturais. / The choices of energy sources gain relevance in the face of the ecological crisis which has a central questioning on the modes of production and consumption and that stems from a system which changes everything into merchandise. On one hand, brazilian electricity generation has the advantage of using clean energy in great part of its composition, at least in discourse. On the other hand, though, there are high social and environmental costs, especially for communities living near the regions where projects for the electricity sector are built. This research aimed to identify and analyse different modes society takes part in the process of choosing energy sources for electricity generation in Brazil. It discusses the links between the ecological crisis and the production of electrical energy; how the institutional mechanisms for social participation on issues related to the production of electric power in Brazil work; and, how civil society participates in environmental licensing in the National Environment Council (CONAMA). A set of related approaches to the nature of the ecological crisis and the forms of social participation was adopted in the theoretical framework and an analysis of the electric sector panorama in Brazil has been drawn up. In order to investigate the forms society participates in issues related to the composition of the brazilian electricity matrix, the methodology comprised a documentary analysis and a case study. They included three categories of actors: (i) CONAMA's councilors, (ii) experts from the Field; and (iii) actors involved in the diagnosis study, planning and management of the electricity sector. The research identified inconsistencies, ambiguities and other relevant issues about the participation of society in the production of electrical energy. Such issues are related to: deficiencies in the mechanisms for information access; lack of transparency and patterns in internal documents; lack of social participation in the elaboration of international commitments; absence of participation of the society in institutionalized spaces; absence of representation of the society and specialists in the National Energy Policy Council (CNPE); invisibility of the discussion on possible impacts and social conflicts; lack of diversity's representation; deficiency in minority participation; lack of citizenship education initiatives focused on energy issue; absence of debates on energy production versus consumption; problems arising from developmental choice of Government decisions (even if implied). At the end, the present research offer suggestions for the improvement of this process, from the perspective of three key issues identified in this thesis: ecological crisis; electric power production; and social participation. The study concludes by pointing to the need of changes in the modes society’ participate in the process of choosing energy sources for the electrical energy production at the federal level in Brazil. In addition, it proposes a reflection on the model of generation and consumption of electricity and a systematic evaluation of human consumption on natural resources. Participação social Licenciamento ambiental Produção de energia elétrica Crise ecológica Ciência da Informação Social participation Environmental licensing Electrical energy generation Ecological crisis Information Science
5	OPTIMIZATION OF ONBOARDSOLAR PANELGEOMETRYFOR POWERING AN ELECTRIC VEHICLE Joseph L Fraseur (15347272) 26 April 2023 (has links) <p> Integrating solar energy into the electric vehicle (EV) market alleviates the demand for</p> <p>fossil fuels used to generate the electricity used to power these vehicles. Integrated solar panels</p> <p>provide a new method of power generation for an electric vehicle, but researchers must consider</p> <p>new dependent variables such as drag in the figure of vehicle efficiency. For the solar array to be</p> <p>deemed a viable option for power generation, the solar array must generate enough energy to</p> <p>overcome the added weight and aerodynamic drag forces the solar system introduces. The thesis</p> <p>explores the application of photovoltaic modules for power generation in an EV system.</p> <p>Researchers installed an off-the-shelf solar module on the roof of an EV and investigated the</p> <p>system to explore the efficiency tradeoffs. The research sought to identify an optimized solar</p> <p>panel configuration for minimized drag based on maximized panel surface irradiance, cooling,</p> <p>and array output voltage parameters. The study utilized computational fluid dynamics modeling,</p> <p>wind tunnel testing, and full-scale track testing to analyze the system. The results of this study</p> <p>provide an optimized configuration for a Renogy RNG-100D atop a Chevrolet Bolt. The system</p> <p>was considered optimal at a tilt angle of zero degrees when in motion. The performance benefits</p> <p>due to the increased angle of the solar panel tilt were deemed insufficient in overcoming the</p> <p>aerodynamic drag forces introduced into the system while in motion.</p> Photovoltaic power systems Photovoltaic devices (solar cells) Special vehicles Solar Vehicles Solar Energy Efficiency drag force measurements Electric Vehicle Efficiency
6	Quasi-Two-Dimensional Halide Perovskite Materials For Photovoltaic Applications Aidan Coffey (12481935) 29 April 2023 (has links) <p>As energy demands for the world increase, the necessity for alternate sources of energy are critical. Just in the United States alone, 92 quadrillion British thermal units (Btu) were used in 2020. As political and geographical pressures surrounding oil increase, along with the growing concern for climate, the drive to explore alternative and renewable means for harvesting energy is on the rise. Solar cells, also known as photovoltaics (PVs), are an attractive renewable source and have been developed as an alternative energy means for over 60 years. When considering losses due to atmospheric absorption and scattering, the Earth’s surface gets about 1000 W/m2 of energy from the sun, which is why there are research efforts around the world trying to maximize the efficiency of solar cells.</p> <p>Organic-inorganic halide perovskites provide for ideal absorbing layers that feature long carrier lifetime and diffusion lengths, strong photoluminescence, and promising tunability. Furthermore, the solution-processing methods used to make these perovskites ensure that the solar cells will remain low-cost and have easy scale-up possibilities. The main problem perovskites is that they degrade in the presence of water, thus leading to decreased device performance.</p> <p>In this work two approaches are investigated to increase moisture stability. The first investigates incorporation of thiols as pseudohalides into the 2D perovskite structure. Instead of the theorized perovskite, two novel 2D compounds were created, Pb<sub>2</sub>X(S-C<sub>6</sub>H<sub>5</sub>)<sub>3</sub> (X= I, Br, Cl) and PbI<sub>1.524</sub>(S-C<sub>6</sub>H<sub>5</sub>)<sub>0.476</sub>. While not perovskites, this study gives insight into the effect that the thiol may have on determining structure when comparing –S-C<sub>6</sub>H<sub>5</sub> with –SCN groups. Future work will explore more electronegative thiols that will be used to make moisture resistant, tunable 2D perovskites.</p> <p>The second approach is to incorporate longer organic ammonium cations into the perovskite structure to produce quasi-2D perovskite films fabricate them into devices. Adding in electronically insulating ligands leads to a stricter requirement for vertically aligned 2D films and special care must be taken to have efficient charge collection. The current field has successfully incorporated short ligands such as butylammonium (BA) into PVs, however the extension to larger and more beneficially hydrophobic ligands has been very scarce. In this work, a novel solvent engineering system is developed to create vertically aligned quasi-2D perovskite absorbing layers based off of a bithiophene ligand (2T). These absorbing layers are then characterized and incorporated into efficient PV devices. Generalizations to solvent conditions related to ligand choice is discussed herein, creating deep insights into incorporating more conjugated ligands into devices.</p> Perovskite 2D Perovskite Solar Cell Thin Film Fabrication Photovoltaic Materials
7	OPTIMIZATION-BASED OPERATION AND CONTROL APPROACHES FOR IMPROVING THE RESILIENCE OF ELECTRIC POWER SYSTEMS Dakota James Hamilton (17048772) 27 September 2023 (has links) <p dir="ltr">The safe and reliable delivery of electricity is critical for the functioning of our modern society. However, high-impact, low-probability (HILP) catastrophic events (such as extreme weather caused by climate change, or cyber-physical attacks) pose an ever-growing threat to the power grid. At the same time, modern advancements in computational capabilities, communication infrastructure, and measurement technologies provide opportunities for new operation and control strategies that enhance the resilience of electric power systems to such HILP events. In this work, optimization-based operation and control approaches are proposed to improve resilience in two power systems applications. First, a real-time linearized-trajectory model-predictive controller (LTMPC) is developed for ensuring voltage, frequency, and transient (rotor angle) stability in systems engineered to operate as microgrids. Such microgrids are capable of seamlessly transitioning from grid-connected operation to an islanded mode and thus, enhance system resilience. The proposed LTMPC enables rapid deployment of such systems by reducing engineering costs and development time while maintaining stable operation. On the other hand, some power systems, such as distribution feeders, are not designed to operate as standalone microgrids. For these cases, a method is proposed for forming ad-hoc microgrids from intact sections of the damaged feeder in the aftermath of a HILP event. A feeder operating center-on-a-laptop (FOCAL) is introduced that coordinates the control of possibly hundreds of inverter-interfaced distributed energy resources (e.g., rooftop solar, battery storage) to improve system resilience. Theoretical analysis as well as numerical case studies and simulations of the proposed strategies are presented for both applications.</p> Optimization Power Systems Power Systems Resilience Power Systems Modelling Power Systems Dynamics and Control Control Systems Microgrids
8	APPLYING HEAT PIPES TO INSTALL NATURAL CONVECTION AND RADIATIVE COOLING ON CONCENTRATING PHOTOVOLTAICS. Saleh Abdullah Basamad Sr. (13163391) 28 July 2022 (has links) <p> </p> <p> </p> <p>Concentrator photovoltaics have demonstrated greater solar energy production efficiency than previous solar electric technologies. However, recent research reveals that heat management is a significant difficulty in CPV systems, and if left unaddressed, it can have a severe influence on system efficiency and lifetime. Traditional CPV cooling relies on active methods such as forced air convection, or liquid cooling, which might lead to an extremely large parasitic power use. In addition, the moving parts of a cooling system result in a shorter lifespan and higher maintenance expenses. </p> <p><br></p> <p>CPV systems can boost their efficiency and lifespan by adopting passive cooling solutions. This work employed radiative cooling and natural convection to construct an efficient and cost-effective cooling system. The excess heat of a solar cell can be dispersed into space via electromagnetic waves via radiative cooling. Due to the fact that the radiative cooling power is related to the difference between the fourth powers of the solar cell and the ambient temperature, much greater cooling powers can be obtained at higher temperatures. Heat pipes were installed to act as a heat pump by transferring excessive heat from solar cells within a system to the exterior, where it can be dissipated via natural air cooling and thermal radiation. Experiments conducted in this study demonstrate that a temperature reduction of 21 ◦C was accomplished through radiative cooling and natural convection, resulting in an increase of 64 mV, or 17% in the open-circuit voltage of a GaSb solar cell.</p> Engineering electromagnetics Photovoltaic power systems Concentrating photovoltaic (CPV) Radiative Cooling Natural Convection Cooling Heat Pipes Soitec Units
9	DFIG-BASED SPLIT-SHAFT WIND ENERGY CONVERSION SYSTEMS Rasoul Akbari (13157394) 27 July 2022 (has links) <p>In this research, a Split-Shaft Wind Energy Conversion System (SS-WECS) is investigated</p> <p>to improve the performance and cost of the system and reduce the wind power</p> <p>uncertainty influences on the power grid. This system utilizes a lightweight Hydraulic Transmission</p> <p>System (HTS) instead of the traditional gearbox and uses a Doubly-Fed Induction</p> <p>Generator (DFIG) instead of a synchronous generator. This type of wind turbine provides</p> <p>several benefits, including decoupling the shaft speed controls at the turbine and the generator.</p> <p>Hence, maintaining the generator’s frequency and seeking maximum power point</p> <p>can be accomplished independently. The frequency control relies on the mechanical torque</p> <p>adjustment on the hydraulic motor that is coupled with the generator. This research provides</p> <p>modeling of an SS-WECS to show its dependence on mechanical torque and a control</p> <p>technique to realize the mechanical torque adjustments utilizing a Doubly-Fed Induction</p> <p>Generator (DFIG). To this end, a vector control technique is employed, and the generator</p> <p>electrical torque is controlled to adjust the frequency while the wind turbine dynamics</p> <p>influence the system operation. The results demonstrate that the generator’s frequency is</p> <p>maintained under any wind speed experienced at the turbine.</p> <p>Next, to reduce the size of power converters required for controlling DFIG, this research</p> <p>introduces a control technique that allows achieving MPPT in a narrow window of generator</p> <p>speed in an SS-WECS. Consequently, the size of the power converters is reduced</p> <p>significantly. The proposed configuration is investigated by analytical calculations and simulations</p> <p>to demonstrate the reduced size of the converter and dynamic performance of the</p> <p>power generation. Furthermore, a new configuration is proposed to eliminate the Grid-</p> <p>Side Converter (GSC). This configuration employs only a reduced-size Rotor-Side Converter</p> <p>(RSC) in tandem with a supercapacitor. This is accomplished by employing the hydraulic</p> <p>transmission system (HTS) as a continuously variable and shaft decoupling transmission</p> <p>unit. In this configuration, the speed of the DFIG is controlled by the RSC to regulate the</p> <p>supercapacitor voltage without GSC. The proposed system is investigated and simulated in</p> <p>MATLAB Simulink at various wind speeds to validate the results.</p> <p>Next, to reduce the wind power uncertainty, this research introduces an SS-WECS where the system’s inertia is adjusted to store the energy. Accordingly, a flywheel is mechanically</p> <p>coupled with the rotor of the DFIG. Employing the HTS in such a configuration allows the</p> <p>turbine controller to track the point of maximum power (MPPT) while the generator controller</p> <p>can adjust the generator speed. As a result, the flywheel, which is directly connected</p> <p>to the shaft of the generator, can be charged and discharged by controlling the generator</p> <p>speed. In this process, the flywheel energy can be used to modify the electric power generation</p> <p>of the generator on-demand. This improves the quality of injected power to the</p> <p>grid. Furthermore, the structure of the flywheel energy storage is simplified by removing</p> <p>its dedicated motor/generator and the power electronics driver. Two separate supervisory</p> <p>controllers are developed using fuzzy logic regulators to generate a real-time output power</p> <p>reference. Furthermore, small-signal models are developed to analyze and improve the MPPT</p> <p>controller. Extensive simulation results demonstrate the feasibility of such a system and its</p> <p>improved quality of power generation.</p> <p>Next, an integrated Hybrid Energy Storage System (HESS) is developed to support the</p> <p>new DFIG excitation system in the SS-WECS. The goal is to improve the power quality</p> <p>while significantly reducing the generator excitation power rating and component counts.</p> <p>Therefore, the rotor excitation circuit is modified to add the storage to its DC link directly.</p> <p>In this configuration, the output power fluctuation is attenuated solely by utilizing the RSC,</p> <p>making it self-sufficient from the grid connection. The storage characteristics are identified</p> <p>based on several system design parameters, including the system inertia, inverter capacity,</p> <p>and energy storage capacity. The obtained power generation characteristics suggest an energy</p> <p>storage system as a mix of fast-acting types and a high energy capacity with moderate</p> <p>acting time. Then, a feedback controller is designed to maintain the charge in the storage</p> <p>within the required limits. Additionally, an adaptive model-predictive controller is developed</p> <p>to reduce power generation fluctuations. The proposed system is investigated and simulated</p> <p>in MATLAB Simulink at various wind speeds to validate the results and demonstrate the</p> <p>system’s dynamic performance. It is shown that the system’s inertia is critical to damping</p> <p>the high-frequency oscillations of the wind power fluctuations. Then, an optimization approach</p> <p>using the Response Surface Method (RSM) is conducted to minimize the annualized</p> <p>cost of the Hybrid Energy Storage System (HESS); consisting of a flywheel, supercapacitor, and battery. The goal is to smooth out the output power fluctuations by the optimal</p> <p>size of the HESS. Thus, a 1.5 MW hydraulic wind turbine is simulated, and the HESS is</p> <p>configured and optimized. The direct connection of the flywheel allows reaching a suitable</p> <p>level of smoothness at a reasonable cost. The proposed configuration is compared with the</p> <p>conventional storage, and the results demonstrate that the proposed integrated HESS can</p> <p>decrease the annualized storage cost by 71 %.</p> <p>Finally, this research investigates the effects of the reduced-size RSC on the Low Voltage</p> <p>Ride Through (LVRT) capabilities required from all wind turbines. One of the significant</p> <p>achievements of an SS-WECS is the reduced size excitation circuit. The grid side converter is</p> <p>eliminated, and the size of the rotor side converter (RSC) can be safely reduced to a fraction</p> <p>of a full-size excitation. Therefore, this low-power-rated converter operates at low voltage</p> <p>and handles the regular operation well. However, the fault conditions may expose conditions</p> <p>on the converter and push it to its limits. Therefore, four different protection circuits are</p> <p>employed, and their effects are investigated and compared to evaluate their performance.</p> <p>These four protection circuits include the active crowbar, active crowbar along a resistorinductor</p> <p>circuit (C-RL), series dynamic resistor (SDR), and new-bridge fault current limiter</p> <p>(NBFCL). The wind turbine controllers are also adapted to reduce the impact of the fault</p> <p>on the power electronic converters. One of the effective methods is to store the excess energy</p> <p>in the generator’s rotor. Finally, the proposed LVRT strategies are simulated in MATLAB</p> <p>Simulink to validate the results and demonstrate their effectiveness and functionality.</p> Electrical energy storage Electrical machines and drives Wind Energy Development wind energy systems doubly-fed induction generator Maximum power point tracking (MPPT)
10	DYNAMIC MODELING OF INVERTER-BASED ANDELECTROMECHANICAL POWER GENERATION COMPONENTS USING A SPARSE TABLEAU APPROACH Oindrilla Sanyal (18831502) 14 June 2024 (has links) <p>The ongoing and rapidly accelerating integration of inverter-based resources (IBRs), such as solar panels, into power distribution systems has heightened the importance of computational tools that can be used to study the dynamics of such systems. IBRs use power electronics to interface the energy sources to the grid, thereby introducing faster dynamics than their electromechanical counterparts, which could lead to instabilities in distribution systems and microgrids. Hence, there is a need for conducting simulations of distribution systems containing large numbers of single- and three-phase inverters, which could be operating under either grid-following or grid-forming modes.</p> <p>A key objective of this thesis is to derive detailed, high-fidelity models of inverters and their controls in the context of unbalanced distribution networks. In addition, a diesel synchronous generator model is derived, for the sake of completeness. The main contribution of this work is that these models are developed for use in a novel simulation toolbox called Dynamic Simulation Tool using a Sparse Tableau Approach in Python, DynaSTPy (pronounced dynasty). This thesis outlines how the components can be modeled in the sparse tableau framework as electrical networks with topology described using a node-branch incidence matrix. In addition, the thesis explains how controller dynamics and constraints can be handled within this framework. These models are tailored to seamlessly integrate into the DynaSTPy toolbox. The proposed approach can be readily extended to model other such components in the future.</p> Power electronics Modelling and simulation power system simulaiton dynamic simulaiton grid following inverters grid forming inverters distributed engrgy resources

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