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Avaliação econômica e termodinâmica do processo de destilação extrativa.OLIVEIRA, Rivana Mabel Lucena. 13 April 2018 (has links)
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Previous issue date: 2017 / Capes / Sequências de destilação extrativa têm recebido uma atenção especial dos pesquisadores devido ao alto consumo energético e à baixa eficiência termodinâmica associados a esse processo. A eficiência termodinâmica vem sendo abordada de forma bastante simplificada pela literatura, e neste trabalho, este termo foi abordado intrinsecamente, de modo que o sentido físico dos termos: trabalho mínimo, trabalho equivalente, trabalho perdido e produção de entropia, relacionados à eficiência, foram discutidos do ponto de vista físico e matemático. Técnicas de intensificação vem recebendo destaque no que se refere a redução do consumo energético e custos de processos de destilação, e a integração térmica surge como alternativa para reduzir o consumo energético de processos de destilação. As sequências de destilação extrativa convencional sem e com integração térmica foram abordadas neste trabalho dos pontos de vista ótimo econômico, termodinâmico e energético, utilizando o parâmetro teor de solvente como principal parâmetro de análise. Além do alto consumo energético e baixa eficiência termodinâmica, os processos de destilação extrativa incluem ainda uma fonte de irreversibilidade que é relatado como responsável pela baixa eficiência termodinâmica desses processos, e este foi outro ponto de análise para os fluxogramas abordados. Os estudos de caso foram as misturas azeotrópicas etanol-água e acetona-metanol utilizando etileno glicol e água, como solventes, respectivamente. Usando o procedimento proposto, as sequências com e sem integração térmica foram analisadas considerando o sistema como um todo, para os termos econômicos e termodinâmicos, e, cada coluna (extrativa e de recuperação) em separado para termos termodinâmicos, além da avaliação do efeito remixing. Os resultados mostram que a configuração com integração térmica não só é termodinamicamente mais eficiente quando comparada a configuração sem integração, como também apresentou menores valores de TAC e consumo energético, mesmo quando valores negativos para eficiência termodinâmica são encontrados, e que os termos termodinâmicos devem ser comparados para casos que envolvem a separação da mesma mistura. / Extractive distillation sequences have received special attention from researchers due to the high energy consumption and the low thermodynamic efficiency associated to this process. The thermodynamic efficiency has been simplified in the literature, but in this work it was approached intrinsically, thus the physical meaning of the terms related to efficiency like minimum work, work equivalent, lost work and entropy production were discussed from a physical and mathematical point of view. Process intensification alternatives have been highlighted in the reduction of energy consumption and costs in the distillation processes. Likewise, thermal integration is an alternative to reduce the energy consumption of distillation processes. The conventional extractive distillation sequences with and without thermal integration were approached in this work. They were analyzed from the economic, thermodynamic and energy optimum points of view and the main parameter of analysis was the solvent content. In addition to the high energy consumption and low thermodynamic efficiency, the extractive distillation also include a irreversibility that is reported as responsible for the low thermodynamic efficiency of this process, and this was another point of analysis on the flowcharts studied. The study cases were the azeotropic mixtures formed from ethanol-water and acetone-methanol using ethylene glycol and water as solvents, respectively. The sequences with and without thermal integration were studied considering the proposed procedure and the whole system was analyzed for the economic and thermodynamic terms, also each column (extractive and recovery columns) was separately analyzed for thermodynamic terms, besides the evaluation of the remixing effect. The results show that the configuration with thermal integration is thermodynamically more efficient when compared to the non-integration configuration, moreover the configuration with thermal integration presented lower values of TAC and energy consumption, even when negative values for thermodynamic efficiency are found, and that the thermodynamic terms must be compared to cases involving the separation of the same mixture.
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COBET : abordagem termodinâmica para a otimização e o controle de processosPaim, Ágata January 2013 (has links)
O aumento do custo e da demanda de energia, juntamente com a escassez de recursos não renováveis e o crescente apelo para a sustentabilidade dos processos, incentiva o desenvolvimento de equipamentos e sistemas mais eficientes mediante a otimização e o controle dos recursos energéticos disponíveis. A proposta deste trabalho consiste em estabelecer uma abordagem termodinâmica para o controle e a otimização de processos visando o aumento da eficiência na operação dos mesmos. Para tanto, foi desenvolvido um problema de controle ótimo formulado com base no critério de eficiência termodinâmica de acordo com a 2ª Lei, com o objetivo de otimizar a transição entre estados com respeito a taxa de geração de entropia do sistema, mantendo as variáveis controladas como restrições de desigualdade dependentes do tempo. A estratégia proposta, chamada COBET (controle baseado na eficiência termodinâmica), foi aplicada a uma coluna de destilação binária para controlar a pureza do destilado e do produto de fundo, manipulando a razão de refluxo e a taxa de transferência de calor do refervedor. O COBET apresentou ajuste simples, tempo computacional razoável e desempenho de controle aceitável, quando comparado com controladores convencionais. Foi proposta uma estratégia alternativa, de modo a aprimorar o COBET, chamada R-COBET, que consiste no uso de restrições adicionais que garantem que as variáveis de controle permaneçam entre o estado inicial e final. O R-COBET obteve um desempenho aceitável, menor integral do erro quadrático das variáveis de controle e maior lucro, quando comparado ao COBET. A fim de demonstrar a aplicabilidade da metodologia proposta a outras funções objetivo, uma função empírica de eficiência baseada na 1ª Lei da Termodinâmica foi determinada e utilizada no problema de controle ótimo, sujeito às mesmas restrições consideradas no controlador R-COBET. Também se aplicou a metodologia proposta a um reator CSTR com o intuito de controlar a temperatura e a concentração do produto, considerando-se o controlador na forma R-COBET, e obteve-se um desempenho similar ao do estudo da coluna de destilação. Com estas análises, concluiu-se que a metodologia proposta pode ser aplicada com sucesso a problemas de controle ótimo com estados final e inicial definidos. / The increasing demand of energy and its rising costs, in addition to the non-renewable resources depletion and to the growing interest in the sustainability in industrial processes, stimulate the development of equipment and systems that are more efficient through the control and optimization of available energy resources. The purpose of this work is to establish a thermodynamic approach to process control and optimization, in order to improve operational efficiency. To this end, it is developed in this work an optimal control problem formulated on the basis of a thermodynamic efficiency criterion, as dictated by the 2nd Law. The principle is to optimize the transition between states with respect to thermodynamic efficiency – regarded as the square of entropy generation rate – while maintaining the controlled variables as time dependent inequality constraints. The proposed strategy, called here TEBC (Thermodynamic Efficiency Based Control) was applied to a binary distillation column in order to control distillate and bottom product purities within specifications while manipulating the reflux ratio and reboiler heat transfer rate. When compared to other controllers, TEBC presented practical tuning, reasonable computational time and acceptable control performance. An alternative strategy was also proposed in order to improve TEBC, called R-TEBC, which considers additional constraints to ensure that control variables remain between the initial and final states. The R-TEBC achieved acceptable performance, smaller integral squared error in the control variables and larger profit, when compared to TEBC. In order to demonstrate the applicability of the proposed methodology to other objective functions, an empirical efficiency function was proposed for the distillation column example and used in the optimal control problem, in the form of a R-TEBC controller. Moreover, an exothermic CSTR reactor with product concentration and reactor temperature as controlled variables was also studied, using additional constraints (R-TEBC), and the results was similar to those obtained in the distillation column. With this analysis, it was concluded that the proposed methodology can be applied to optimal control problems of this kind with fixed initial and final states.
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COBET : abordagem termodinâmica para a otimização e o controle de processosPaim, Ágata January 2013 (has links)
O aumento do custo e da demanda de energia, juntamente com a escassez de recursos não renováveis e o crescente apelo para a sustentabilidade dos processos, incentiva o desenvolvimento de equipamentos e sistemas mais eficientes mediante a otimização e o controle dos recursos energéticos disponíveis. A proposta deste trabalho consiste em estabelecer uma abordagem termodinâmica para o controle e a otimização de processos visando o aumento da eficiência na operação dos mesmos. Para tanto, foi desenvolvido um problema de controle ótimo formulado com base no critério de eficiência termodinâmica de acordo com a 2ª Lei, com o objetivo de otimizar a transição entre estados com respeito a taxa de geração de entropia do sistema, mantendo as variáveis controladas como restrições de desigualdade dependentes do tempo. A estratégia proposta, chamada COBET (controle baseado na eficiência termodinâmica), foi aplicada a uma coluna de destilação binária para controlar a pureza do destilado e do produto de fundo, manipulando a razão de refluxo e a taxa de transferência de calor do refervedor. O COBET apresentou ajuste simples, tempo computacional razoável e desempenho de controle aceitável, quando comparado com controladores convencionais. Foi proposta uma estratégia alternativa, de modo a aprimorar o COBET, chamada R-COBET, que consiste no uso de restrições adicionais que garantem que as variáveis de controle permaneçam entre o estado inicial e final. O R-COBET obteve um desempenho aceitável, menor integral do erro quadrático das variáveis de controle e maior lucro, quando comparado ao COBET. A fim de demonstrar a aplicabilidade da metodologia proposta a outras funções objetivo, uma função empírica de eficiência baseada na 1ª Lei da Termodinâmica foi determinada e utilizada no problema de controle ótimo, sujeito às mesmas restrições consideradas no controlador R-COBET. Também se aplicou a metodologia proposta a um reator CSTR com o intuito de controlar a temperatura e a concentração do produto, considerando-se o controlador na forma R-COBET, e obteve-se um desempenho similar ao do estudo da coluna de destilação. Com estas análises, concluiu-se que a metodologia proposta pode ser aplicada com sucesso a problemas de controle ótimo com estados final e inicial definidos. / The increasing demand of energy and its rising costs, in addition to the non-renewable resources depletion and to the growing interest in the sustainability in industrial processes, stimulate the development of equipment and systems that are more efficient through the control and optimization of available energy resources. The purpose of this work is to establish a thermodynamic approach to process control and optimization, in order to improve operational efficiency. To this end, it is developed in this work an optimal control problem formulated on the basis of a thermodynamic efficiency criterion, as dictated by the 2nd Law. The principle is to optimize the transition between states with respect to thermodynamic efficiency – regarded as the square of entropy generation rate – while maintaining the controlled variables as time dependent inequality constraints. The proposed strategy, called here TEBC (Thermodynamic Efficiency Based Control) was applied to a binary distillation column in order to control distillate and bottom product purities within specifications while manipulating the reflux ratio and reboiler heat transfer rate. When compared to other controllers, TEBC presented practical tuning, reasonable computational time and acceptable control performance. An alternative strategy was also proposed in order to improve TEBC, called R-TEBC, which considers additional constraints to ensure that control variables remain between the initial and final states. The R-TEBC achieved acceptable performance, smaller integral squared error in the control variables and larger profit, when compared to TEBC. In order to demonstrate the applicability of the proposed methodology to other objective functions, an empirical efficiency function was proposed for the distillation column example and used in the optimal control problem, in the form of a R-TEBC controller. Moreover, an exothermic CSTR reactor with product concentration and reactor temperature as controlled variables was also studied, using additional constraints (R-TEBC), and the results was similar to those obtained in the distillation column. With this analysis, it was concluded that the proposed methodology can be applied to optimal control problems of this kind with fixed initial and final states.
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COBET : abordagem termodinâmica para a otimização e o controle de processosPaim, Ágata January 2013 (has links)
O aumento do custo e da demanda de energia, juntamente com a escassez de recursos não renováveis e o crescente apelo para a sustentabilidade dos processos, incentiva o desenvolvimento de equipamentos e sistemas mais eficientes mediante a otimização e o controle dos recursos energéticos disponíveis. A proposta deste trabalho consiste em estabelecer uma abordagem termodinâmica para o controle e a otimização de processos visando o aumento da eficiência na operação dos mesmos. Para tanto, foi desenvolvido um problema de controle ótimo formulado com base no critério de eficiência termodinâmica de acordo com a 2ª Lei, com o objetivo de otimizar a transição entre estados com respeito a taxa de geração de entropia do sistema, mantendo as variáveis controladas como restrições de desigualdade dependentes do tempo. A estratégia proposta, chamada COBET (controle baseado na eficiência termodinâmica), foi aplicada a uma coluna de destilação binária para controlar a pureza do destilado e do produto de fundo, manipulando a razão de refluxo e a taxa de transferência de calor do refervedor. O COBET apresentou ajuste simples, tempo computacional razoável e desempenho de controle aceitável, quando comparado com controladores convencionais. Foi proposta uma estratégia alternativa, de modo a aprimorar o COBET, chamada R-COBET, que consiste no uso de restrições adicionais que garantem que as variáveis de controle permaneçam entre o estado inicial e final. O R-COBET obteve um desempenho aceitável, menor integral do erro quadrático das variáveis de controle e maior lucro, quando comparado ao COBET. A fim de demonstrar a aplicabilidade da metodologia proposta a outras funções objetivo, uma função empírica de eficiência baseada na 1ª Lei da Termodinâmica foi determinada e utilizada no problema de controle ótimo, sujeito às mesmas restrições consideradas no controlador R-COBET. Também se aplicou a metodologia proposta a um reator CSTR com o intuito de controlar a temperatura e a concentração do produto, considerando-se o controlador na forma R-COBET, e obteve-se um desempenho similar ao do estudo da coluna de destilação. Com estas análises, concluiu-se que a metodologia proposta pode ser aplicada com sucesso a problemas de controle ótimo com estados final e inicial definidos. / The increasing demand of energy and its rising costs, in addition to the non-renewable resources depletion and to the growing interest in the sustainability in industrial processes, stimulate the development of equipment and systems that are more efficient through the control and optimization of available energy resources. The purpose of this work is to establish a thermodynamic approach to process control and optimization, in order to improve operational efficiency. To this end, it is developed in this work an optimal control problem formulated on the basis of a thermodynamic efficiency criterion, as dictated by the 2nd Law. The principle is to optimize the transition between states with respect to thermodynamic efficiency – regarded as the square of entropy generation rate – while maintaining the controlled variables as time dependent inequality constraints. The proposed strategy, called here TEBC (Thermodynamic Efficiency Based Control) was applied to a binary distillation column in order to control distillate and bottom product purities within specifications while manipulating the reflux ratio and reboiler heat transfer rate. When compared to other controllers, TEBC presented practical tuning, reasonable computational time and acceptable control performance. An alternative strategy was also proposed in order to improve TEBC, called R-TEBC, which considers additional constraints to ensure that control variables remain between the initial and final states. The R-TEBC achieved acceptable performance, smaller integral squared error in the control variables and larger profit, when compared to TEBC. In order to demonstrate the applicability of the proposed methodology to other objective functions, an empirical efficiency function was proposed for the distillation column example and used in the optimal control problem, in the form of a R-TEBC controller. Moreover, an exothermic CSTR reactor with product concentration and reactor temperature as controlled variables was also studied, using additional constraints (R-TEBC), and the results was similar to those obtained in the distillation column. With this analysis, it was concluded that the proposed methodology can be applied to optimal control problems of this kind with fixed initial and final states.
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Termodynamická metoda stanovení účinnosti vodního stroje. / Thermodynamic method for assessing hydraulic machine efficiencyMizera, Ladislav January 2011 (has links)
The master´s thesis contained basic information about the method of thermodynamic efficiency of hydraulic machines. The first part briefly mentioned our opinion on the most widely used method for determining the efficiency of hydraulic machines. Another section of thesis is characterization and measurement procedure using the thermodynamic method. Another section describes measurements of water plants and laboratory measurements, which took place in the past. The final part describes the results of laboratory measurements, which took place in the lab of VUT FSI Brno, and evaluating and comparing the results.
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Kondenzační parní turbina / Condensing Steam TurbineŽáček, Ondřej January 2015 (has links)
The aim of the thesis „Condensing steam turbine“ is design of condensing steam turbine with uncontrolled extractions. The design is made according to assigned parameters. Balancing scheme of the turbine is defined at the beginning of the thesis. Then design of the regulation stage and reaction stages is accomplished. The calculation (thermodynamic and strength) is computed for mentioned two parts. For thermodynamic calculation is used ca/u method. In closing the design of the seal system is made.
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An Optimization of Thermodynamic Efficiency vs. Capacity for Communications SystemsRawlins, Gregory 01 January 2015 (has links)
This work provides a fundamental view of the mechanisms which affect the power efficiency of communications processes along with a method for efficiency enhancement. Shannon's work is the definitive source for analyzing information capacity of a communications system but his formulation does not predict an efficiency relationship suitable for calculating the power consumption of a system, particularly for practical signals which may only approach the capacity limit. This work leverages Shannon's while providing additional insight through physical models which enable the calculation and improvement of efficiency for the encoding of signals. The proliferation of Mobile Communications platforms is challenging capacity of networks largely because of the ever increasing data rate at each node. This places significant power management demands on personal computing devices as well as cellular and WLAN terminals. The increased data throughput translates to shorter meantime between battery charging cycles and increased thermal footprint. Solutions are developed herein to counter this trend. Hardware was constructed to measure the efficiency of a prototypical Gaussian signal prior to efficiency enhancement. After an optimization was performed, the efficiency of the encoding apparatus increased from 3.125% to greater than 86% for a manageable investment of resources. Likewise several telecommunications standards based waveforms were also tested on the same hardware. The results reveal that the developed physical theories extrapolate in a very accurate manner to an electronics application, predicting the efficiency of single ended and differential encoding circuits before and after optimization.
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Výpočtová studie Millerova cyklu benzínového motoru s turbodmychadlem / Computational Study of the Miller Cycle on a Gasoline Engine with a TurbochargerČerný, Roman January 2017 (has links)
The scope of this thesis is the Miller engine cycle analysis and its practical application on a turbocharged spark ignited engine. Based on the sensitivity analysis of the limits affecting the ideal Miller cycle thermal efficiency a thermodynamic model of the engine with a prolonged expansion was set up in the GT-POWER software. The results of the analyses were used to evaluate the feasibility of the reference engine conversion for an operation with Miller cycle.
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Parní turbína pro fosilní elektrárnu / Steam Turbine for fossil power plantTřináctý, Jiří January 2015 (has links)
This thesis deals with design is condensing steam turbines burning fossil fuels with nominal capacity of the generator of 250 MW with steam reheating and regenerative eight uncontrolled extraction points. The turbine consists of two bodies: a combined high-intermediate pressure section and low pressure parts with dual way outlet down into the water-cooled condenser. Work includes calculating thermal scheme for 100% and 75% capacity, specific heat consumption calculation and design of the flow HP-MP body. Further strength control and basic engineering design of high-medium- work completed by longitudinal section. Achievements are at the end of work compared with work 3a and the conclusion summarizes the advantages and disadvantages of the concept.
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