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61	Modelování a simulace hybridní mikro sítě v prostředí PSCAD / Modeling and simulation of a hybrid micro grid in PSCAD environment Moravčík, Martin January 2012 (has links) In the opening part of this master´s thesis there is given concept, description, usage and advantages of micro hybrid grids in comparison to micro grids and there are evolution steps towards hybrid grid. There is also a mention about economics of operation of these grids. In the second part of this thesis there are descriptions of devices that are suitable for usage in micro hybrid grids with emphasis on generators and accumulation possibilities. In the next part of this thesis there is given an approach and description for modeling of various components of hybrid grids in PSCAD environment. In the next part of this thesis there are given simulation results that were conducted on created model. Especially power balance in 24 hour operation of the grid with method for determining suitable size of accumulation and installed capacity of photovoltaics. And next there are showed responses from change of power from photovoltaics, next there is a transition to islanded mode and last there is showed the behavior of converter when the limits of accumulation are reached. In the final part of this thesis there are conclusions, fulfillment of goals of this thesis and possibilities of further study.
62	Kogenerační jednotky na rostlinný olej / Cogeneration plants on vegetable oil Macoszek, Pavel January 2013 (has links) The thesis is focused on cogeneration units on vegetable oil. The first chapter contains basic information about the production, supply and consumption of electric energy in the Czech Republic and about renewable energy sources. The following chapter is devoted to possibilities of use oil kinds of phytomass in the Czech Republic, or products made from them. Next chapter is mentioned on legislation allowing the use of used cooking oils for energy purposes. It contains a summary of the laws and regulations and options regarding subsidies for electric and heat power. The main objective of these chapters is to explain the issue of the establishment and operation of cogeneration units on vegetable oil. The following chapters are devoted to the design and study of simultaneously operated cogeneration unit on the vegetable oil with a combustion engine and the calculation of economic operation running. The reason of study is to evaluation, which on based of the input values and calculation methods determine the economic efficiency of the project cogeneration unit on vegetable oil under mode purchase price and mode green bonus. Appreciation is also given to the overall legal review and responsibilities of cogeneration units on vegetable oil.
63	Optimal sizing and system management of water pumping and desalination process supplied with intermittent renewable sources / Dimensionnement et gestion optimale d’un système autonome dédié au pompage et au dessalement alimenté par des sources renouvelables intermittentes Nguyen, Duc Trung 28 May 2013 (has links) Cette étude s’intéresse à la conception systémique intégrant simultanément les questions de dimensionnement et de gestion optimale de l'énergie. Le système étudié concerne un procédé de pompage intégrant un processus de dessalement d’eaux saumâtres alimenté par des sources de puissance hybrides renouvelable incluant un minimum de stockage électrochimique. Ce cas d’étude appartient à une classe typique de systèmes autonomes alimentés par des sources intermittentes dont profil de puissance a une forme "donnée" : « selon les conditions climatiques (ensoleillement, vent), avec un minimum de stockage d’électricité, la puissance offerte doit être convertie ou stockée hydrauliquement sous peine d’être gaspillée ». L'influence des conditions d'environnement et la robustesse du processus d’optimisation est enfin aussi discutée dans cette thèse. Deux types de modèles mathématiques, dynamiques et quasi-statiques, sont mis en œuvre pour décrire l'ensemble du dispositif. Le système est tout d’abord modélisé dynamiquement par Bond Graphs. Pour une simulation plus rapide, plus adaptée à l’optimisation globale du système, un modèle quasi-statique est créé pour être simulé dans l'environnement Matlab. Pour de tels dispositifs, étant donné une certaine puissance offerte au fil du vent et du soleil, trouver le point optimal de fonctionnement à chaque période consiste en un partage de puissance entre les sous systèmes de pompage et de traitement de l’eau : ce processus est plutôt complexe compte tenu des non linéarités (courbes rendement – puissance) et de la présence de nombreuses contraintes relatives aux limitations de puissance des pompes, aux conditions de niveau des réservoirs, ainsi qu’aux limitations de pression et de débit dans les processus hydrauliques (pompes osmoseur). Nous montrerons qu’il n’est pas si trivial de choisir une fonction objectif qui assure simultanément la performance et la robuste du système vis-à-vis des conditions d’environnement : une fonction objectif robuste quel que soit le profil de puissance des sources est ainsi proposée pour mettre en œuvre une gestion optimale de l’énergie. Le problème d’optimisation étant posé sous forme standard, consistant en la maximisation d’une fonction objectif sous contraintes, des approches d’optimisation efficaces par programmation non linéaire sont employées. La question du dimensionnement et son couplage à la gestion énergétique est finalement étudiée. En particulier, l’intérêt de la modularité des systèmes, considérant plusieurs pompes connectées en parallèle pour la même fonction, est investigué. / This study focuses on systemic design, integrating simultaneously issues of sizing and optimal energy management. The system under study consists of a pumping process including a brackish water desalination system fed by hybrid renewable power sources with minimum electrochemical storage. Such a device belongs to the class of “autonomous systems” supplied by intermittent sources whose power profile has a “given” waveform: “with minimum electrical storage, power has to be converted, stored in water tanks, or wasted following climatic (sun, wind) conditions”. Influence of environment conditions and robustness of the optimization process is then also discussed in this thesis. Both dynamic and quasi static models are implemented for representing the whole system. The device is firstly modeled dynamically by Bond Graph methodology. For faster simulations, which are more suitable for system optimization, a quasi static model is created to be simulated in the Matlab environment. For such systems, given a certain source power, finding optimal operation point at each period consists of a power sharing between all pumping devices: it is a complex process with huge nonlinearities (efficiency vs power curves) and with many constraints as for the limitation of pump powers, tank level conditions, or pressure and flow limitations in hydraulic network and pumping devices. It is not so trivial to define an objective function which ensures system performance and robustness versus environment conditions: a convenient objective function, whatever the input power profile, is then proposed to implement the optimal management. The optimization problem being mathematically expressed, consisting of objective function maximization under constraints, efficient optimization methods by non linear programming are implemented. The issue of sizing and its coupling with system management efficiency is finally studied. In particular, the interest of modular operation with several pumps connected in parallel is also concerned in this research. Dessalement par osmose inverse Stratégie de gestion d’énergie Conception systémique Système multidisciplinaire Bond graph Sources renouvelables intermittentes Reverse osmosis desalination Energy management strategy Systemic design Multidisciplinary systems Bond graph Intermittent renewable sources
64	[pt] AVALIAÇÃO DA CONFIABILIDADE DE SISTEMAS DE GERAÇÃO COM FONTES RENOVÁVEIS VIA TÉCNICAS DE SIMULAÇÃO MONTE CARLO E ENTROPIA CRUZADA / [en] RELIABILITY ASSESSMENT OF GENERATING SYSTEMS WITH RENEWABLE SOURCES VIA MONTE CARLO SIMULATION AND CROSS ENTROPY TECHNIQUES RICARDO MARINHO SILVA FILHO 04 October 2021 (has links) [pt] A avaliação de confiabilidade da capacidade de geração é extremamente útil em diversos estudos de planejamento da expansão, na avaliação dos riscos relacionados ao dimensionamento da reserva operativa e também na programação da manutenção de unidades geradoras. O principal objetivo é avaliar se uma determinada configuração de unidades de geração atende de forma aceitável à carga do sistema, assumindo que os equipamentos de transmissão sejam totalmente confiáveis e sem limitações de capacidade. Na última década, a inserção de fontes renováveis nos sistemas elétricos de potência tem crescido de forma acentuada, na grande maioria dos países desenvolvidos como também em desenvolvimento. As flutuações de suas capacidades de geração se tornaram parte da complexidade do problema de planejamento e operação de redes elétricas, uma vez que dependem das condições ambientais em que foram instaladas. Além disso, representações detalhadas da carga têm se tornado uma preocupação a mais de muitos planejadores, tendo em vista as análises de risco ao atendimento da demanda nessas redes. Novos modelos e ferramentas computacionais devem ser desenvolvidos para tratar dessas variáveis principalmente com dependência espaço-temporal. Esta dissertação apresenta diversos estudos para avaliar a confiabilidade da capacidade de sistemas de geração via simulação Monte Carlo quasi-sequencial (SMC-QS), considerando fontes de geração e carga com forte dependência espaço-temporal. Esta ferramenta é escolhida devido à sua fácil implementação computacional e capacidade de simular eventos cronológicos. A técnica de redução de variância denominada amostragem por importância baseada no método Cross Entropy (CE) foi utilizada em conjunto com a SMC-QS. As simulações terão como base o sistema teste IEEE-RTS 96, o qual é adequada-mente modificado para incluir fontes renováveis eólicas e hídricas. Portanto, o principal objetivo desta dissertação é definir a melhor maneira de lidar com as séries temporais representativas da geração renovável e carga, nos diferentes estágios do método SMC-QS via CE, de modo a maximizar sua eficiência computacional. Vários testes de simulação são realizados com o sistema IEEE-RTS 96 modificado e os resultados obtidos são amplamente discutidos. / [en] The reliability evaluation of the generating capacity is extremely useful in several expansion planning studies, in the assessment of risks related to the requirements of the operating reserve and also in the scheduling of maintenance of generating units. The main objective is to assess whether a given generating configuration meets the system load in an acceptable manner, assuming that the transmission equipment is completely reliable and without capacity limitations. In the last decade, the insertion of renewable sources in electrical power systems has grown markedly, in the vast majority of developed and developing countries. Fluctuations in their generation capacities have become part of the complexity of the problem of planning and operating electrical networks, since they depend on the environmental conditions in which they are installed. In addition, detailed representations of the load have become a concern among many planners, given the risk analyzes to meet demand in these networks. New computational models and tools must be developed to deal with these variables mainly with space-time dependence. This dissertation presents several studies to evaluate the reliability of the capacity of generation systems via quasi-sequential Monte Carlo simulation (QS-MCS), considering generation and load sources with strong space-time dependence. This tool is chosen due to its easy computational implementation and the ability to simulate chronological events. The variance reduction technique named importance sampling based on the cross-entropy (CE) method is used in conjunction with the QS-MCS. The simulations will be carried out with the IEEE-RTS 96 test system, which is adequately modified to include renewable wind and hydro sources. Therefore, the main objective of this dissertation is to define the best way to deal with the time series representing the renewable generation and load, in the different stages of the SMC-QS method via CE, in order to maximize its computational efficiency. Several simulation tests are performed with the modified IEEE-RTS 96 system and the obtained results are widely discussed. [pt] SIMULACAO MONTE CARLO [pt] METODO DA ENTROPIA CRUZADA [pt] FONTES RENOVAVEIS [pt] CONFIABILIDADE [en] MONTE CARLO SIMULATION [en] RELIABILITY OF GENERATING SYSTEMS [en] CROSS-ENTROPY METHOD [en] RENEWABLE SOURCES [en] RELIABILITY
65	[en] IMPACT OF LOAD UNCERTAINTIES AND RENEWABLE SOURCES ON THE OPERATING RESERVE REQUIREMENTS IN MULTI-AREA SYSTEMS / [pt] IMPACTO DAS INCERTEZAS DE CARGA E FONTES RENOVÁVEIS NOS REQUISITOS DE RESERVA OPERATIVA EM SISTEMAS MULTIÁREA BRUNA DOS GUARANYS MARTINS 27 November 2019 (has links) [pt] A reserva girante é a parcela da geração que deve estar sincronizada, ou que seja possível sincronizar em tempo hábil, de forma a repor a perda de unidades de geração, suprir acréscimos de demanda devido aos erros de previsão, ou ainda lidar com possíveis flutuações na capacidade de geração de fontes renováveis. Desta forma, é crucial que tal parcela esteja dimensionada de modo a suprir tais necessidades de forma adequada. Para tal, deve-se considerar o perfil da demanda do sistema e também as características do sistema de geração. Estimativas imprecisas da carga elétrica podem levar a ocorrências de cortes de carga. Da mesma forma, um superdimensionamento da reserva pode ter como consequência custos excessivos para o consumidor de energia. Uma representação aceitável para carga é considerá-la como uma variável aleatória. Este tipo de modelagem permite que o valor do pico de carga estimado tenha suas incertezas intrinsecamente consideradas. Assim, considerando as variabilidades inerentes à demanda e à geração, é então possível estimar o risco de não suprimento do sistema por meio de métodos baseados em Simulação Monte Carlo (SMC). Tais métodos têm como principal vantagem uma relativa robustez para avaliação de índices que mensuram numericamente o nível de confiabilidade do sistema: e.g., LOLP (loss of load probability). Nesta dissertação será avaliado o impacto das incertezas associadas à demanda, à variabilidade das fontes renováveis e às falhas em equipamentos no dimensionamento da reserva de geração no âmbito da operação de sistemas elétricos. Serão empregadas técnicas baseadas em SMC para avaliar os níveis de confiabilidade, considerando diversas possibilidades de representação da carga em sistemas multiárea. Dentre os cenários testados e discutidos, calculam-se índices de risco para o sistema e por áreas, para avaliar se o sistema é confiável não apenas como um todo, mas também em cada uma de suas regiões operativas. Para avaliar a metodologia proposta, são realizados testes com o sistema IEEE-RTS (Reliability Test System) de modo a responder se os índices de risco por área/sistema estão dentro de níveis aceitáveis. Por fim, é avaliado também o efeito da inserção de fontes renováveis intermitentes na reserva do sistema. / [en] The spinning reserve is the generation quota that must be synchronized (or that can be synchronized in a timely manner) with the aim to restore the loss of generation units, to supply increases in demand due to forecast errors, or to cope with generation capacity fluctuations of renewable sources. Thus, it is crucial that such amount is defined so as to adequately meet the required needs. For this, the system load profile and also the generating system characteristics must be duly considered. Inaccurate estimates of electrical demand can lead to the occurrence of load shedding. Similarly, overinvestment in capacity reserve may result in excessive costs to electric energy consumers. An acceptable representation for the load profile is to consider it as a random variable. This type of modeling allows the estimated peak load value to have its uncertainties intrinsically considered. Therefore, considering the inherent variability of demand and generation, it is then possible to estimate the risk of not supplying the system load through methods based on Monte Carlo simulation (SMC). Such methods have as their main advantage a relative robustness for evaluating indices that numerically measure the reliability level of the system; e.g., LOLP (loss of load probability). In this dissertation, the impact of uncertainties associated with demand, the variability of renewable sources and equipment failures will be evaluated in order to size the amount of generating reserve, within the scope of the operation of electric systems. SMC techniques are used to evaluate the reliability levels, considering several possibilities of load representation in a multi-area system. Among different scenarios analyzed, risk indices are calculated for system and areas, in order to assess whether the grid is reliable as a whole and also for all operating regions. In order to evaluate the proposed methodology, tests are performed with the IEEE-RTS (Reliability Test System) to respond if the area/system risk indices are within acceptable levels. Finally, the effect of inserting intermittent renewable sources into the system reserve is also discussed. [pt] SIMULACAO MONTE CARLO [pt] RESERVA DE GERACAO [pt] PLANEJAMENTO DA GERACAO [pt] RISCO DE CORTE DE CARGA [pt] FONTES RENOVAVEIS [en] MONTE CARLO SIMULATION [en] GENERATION RESERVE [en] GENERATION PLANNING [en] LOSS OF LOAD RISK [en] RELIABILITY OF POWER SYSTEMS [en] RENEWABLE SOURCES
66	Energetické úspory velkých objektů / Energy saving of large objects Řehák, Pavel January 2018 (has links) The aim of this diploma thesis is to evaluate the economical measures using own heat and power production using cogeneration units, use of renewable resources to partially cover the consumption of objects, reduction of thermal losses by evaporation in the outdoor swimming pool and overall increase of waste heat utilization by exchanger heat exchangers from flue gas and heat from waste water.
67	Evaluation of Symmetrical Components Theory in Power Systems with Renewable Sources Danylov, Daniil January 2021 (has links) Rapidly growing Inverter- Based Resources (IBR) have different fault properties compared to Synchronous Generators (SG). Therefore, it is necessary to study the fault behavior of systems that contain different types of IBR and compare it to the conventional system responses in order to understand what steps should be taken to adapt conventional protection settings for new types of sources. For a two bus model, it is found out that sequence profiles in a system with one IBR are different from those observed in conventional system. Thermal and electrical limitations of the power electronics reduce the fault current from the IBR significantly, driving negative sequence current to small values compared to conventional sources. This is true for all studied types of IBR. Moreover, if IBR is connected to the grid through one line only, during Three Phase Fault (3hp) it is possible to lose synchronism with grid due to erroneous estimation of the grid angle through the Phase-Locked Loop (PLL). Verification of the obtained results is made through comparison to the Fault Recordings taken from the protection relays placed at substations. It is shown that for some faults simulation results can predict the behavior of symmetrical components in the network whereas for others they do not. To explain the latter behavior modifications to the sequence networks are proposed. / Snabbt växande inverterbaserade resurser (IBR) har olika felinmatningsegenskaper jämfört med synkrongeneratorer (SG). Därför är det nödvändigt att studera felbeteende hos system som innehåller olika typer av IBR och jämför det med konventionella källor för att kunna förstå vilka steg som ska göras för att anpassa konventionella skyddsinställningar för nya typer av källor. Under litteraturöversikten introduktion till det fast jordade systemet och dess speciella fall med isolerad transformatorjordning är klar. Kort introduktion till den studerade IBR och typer av simulerade fel görs också. För en tvåbussmodell har det visat sig att sekvensprofiler i ett system med en IBR skiljer sig från de som observerats i konventionella system. Termisk och elektrisk begränsningar i kraftelektroniska komponenter minskar felströmmen från IBR avsevärt och driver negativ sekvensström till små värden jämfört med konventionella källor. Detta gäller för alla studerade typer av IBR. Dessutom, om IBR är ansluten till nätet endast genom en linje, är det möjligt under trefasfel (3hp) att tappa synkronisering med nätet på grund av felaktig uppskattning av fasvinkeln genom styrsystemets faslåst slinga (PLL). Verifiering av de erhållna resultaten görs genom jämförelse med Fel Inspelningar från reläet placerade på transformatorstationer. Det visas att för vissa fel simuleringsresultat kan förutsäga symmetriska komponenters beteende i nätverket medan andra inte gör det. För att förklara de senare beteendena föreslås modifieringar i sekvensnätverket. Symmetrical components theory fault analysis renewable sources power electronics PSCAD/EMTDC two bus system inverter-based resources line protection nonlinear source. Teori om symmetriska komponenter felanalys förnybara källor kraftelektronik PSCAD/ EMTDC tvåbussystem inverterbaserade resurser linjeskydd icke- linjär källa. Elektroteknik och elektronik
68	Akumulace energie z OZE / Accumulation of Energy from Renewable Energy Sources Heller, Ondřej January 2010 (has links) The objective of the first part of master’s thesis is mapping the potential of various types of renewable sources in Europe and Czech Republic, especially solar energy, wind energy, water energy and biomass. There are described principals and ways of energy generation from these sources, brief overview of current technologies, and also their advantages and limitations. An important part is electric supply continuity from renewable sources, there are large differences and the resulting to restrictions on construction and connecting the units to the power system. In this work there are mentioned some impacts on network and rates of change of supply, some sources are also evaluated in terms of maximum power, that can be connected to the power system in our country. The conclusion of the first part is dedicated to energy storage technologies, which are suitable and usable for renewable sources, there are described their principals, properties, status of development and types of aplications, in which these technologies are used. This chapter also focusses on the price level of each technology. The second part of the thesis deals with 1 MWp on-grid photovoltaic power plant design. This design includes also the redox flow batteries accumulation, the first variant calculates on 24-hour steady energy supply, the second optimalized variant calculates on daily energy supply. There are the accumulation system costs estimated and also the payback period for the both variants. Additionally there is also determined minimum penalization for cost-effective operation. The last part is dedicated to changes of impact on the local grid and changes of system impacts, after the accumulation system is installed.

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