Global ETD Search

81	Vibro-acoustic analysis of inverter driven induction motors Wang, Chong, Aerospace & Mechanical Engineering, Australian Defence Force Academy, UNSW January 1998 (has links) With the advent of power electronics, inverter-driven induction motor are finding increased use in industries because of applications that demand variable speed operations and because of the potential savings in energy usage. However, these drives sometimes produce unacceptably high levels in vibration and acoustic noise. A literature survey has revealed that while there has been intensive research on the design of inverters to minimize acoustic noise radiation from these drives, the vibro-acoustic behaviour of an induction motor structure has received relatively little attention. The primary objective of this research project, therefore, is to develop a general strategy/algorithm for estimating the acoustic noise radiated from inverter-driven induction motors. By using a three-phase, 2.2 kW induction motor, the vibration modes due to various structural components (such as the rotor, the stator/casing, the endshields and the base plate) of the motor structure were analysed by experimental modal testing. Results indicate that the vibration modes due to the rotor are only important at low frequencies. It has been found that the power injection method gives more accurate measurement of the damping of a motor structure than the modal testing and the time decay methods. If a point force excitation is used, then it is more accurate to measure the sound radiation efficiency than the power conversion efficiency for motor structures. The effect of three different inverter designs (an ideal ???almost sinusoidal??? controller and two commercially available PWM inverters) on the radiated acoustic power were assessed for both no-load and load conditions using sound intensity measurements conducted in an anechoic room. The results indicate that although the sound power level due to aerodynamic and mechanical noise increases at a rate of 12 dB per doubling of the motor speed, the electromagnetic noise dominates at low motor speeds and is still a significant noise source even at high motor speeds. For inverters with low switching frequencies, the radiated sound power level is almost 15 dB higher than the ideal case at low speeds and is relatively insensitive to the motor speed. For inverters that implement the random modulation technique, the change in the total sound power level with the level of the random modulation is very small but the tonal nature of the noise is greatly reduced. The vibration behaviour of a motor structure was modeled using the finite element method (FEM) and validated using the experimental modal testing results. It has been found that it is essential to model the laminated stator as an orthotropic structure. While the details of other structural components (such as the endshields, the teeth in the stator and the windings) are not so important, it is essential that they are incorporated into the structural model as simplified structures to account for their mass, stiffness and boundary conditions imposed on the motor structure. Based on this structural model, the radiated acoustic power for various operating conditions has been predicated using the boundary element (BEM) and the electromagnetic force calculated from an electromagnetic finite element model. The predicted results agree reasonably well with experimental measurements. Despite the success of the FEM/BEM approaches, they can be prohibitively expensive (in terms of computer resources required) to apply to large motors and high frequencies. Thus the feasibility of using a statistical method, namely, the statistical energy analysis (SEA), to estimate the radiated acoustic sound power from an inverter-driven induction motor has been examined. In order to carry out this analysis, analytical expressions for calculating the natural frequencies and radiation efficiency of finite length circular cylindrical shells (which are simplified models of the stator and casing of a motor structure) were firstly derived. The internal loss factors and coupling loss factors of the motor structure were determined experimentally using the power injection method. Then by introducing an equivalent surface mobility of circular cylindrical shells for the electromagnetic force, the vibration response and the acoustic noise radiated from each part of the motor structure were estimated. Results indicate that SEA method is potentially an efficient and effective tool in estimating the noise radiated from inverter-driven induction motors. Vibro-acoustic analysis induction motor inverters motor structure electromagnetic noise numerical analysis finite element method boundary element method statistical energy analysis finite length cylindrical shells
82	Post occupancy energy analysis of the Gwinnett Environmental and Heritage Center Natarajan, Hariharan 11 July 2011 (has links) A Post-Occupancy Energy Analysis of the Gwinnett Environmental and Heritage Center conducted with the view of recommending optimizations that result in energy savings. IES-VE Energy consumption Optimization Energy use EQuest LEED Recommendations Energy efficiency Building simulation Energy analysis Lighting power density Energy auditing Buildings Energy conservation
83	Prediction of the vibroacoustic response of aerospace composite structures in a broadband frequency range Chronopoulos, Dimitrios 29 November 2012 (has links) (PDF) During its mission, a launch vehicle is subject to broadband, severe, aeroacoustic and structure-borne excitations of various provenances, which can endanger the survivability of the payload and the vehicles electronic equipment, and consequently the success of the mission. Aerospace structures are generally characterized by the use of exotic composite materials of various configurations and thicknesses, as well as by their extensively complex geometries and connections between different subsystems. It is therefore of crucial importance for the modern aerospace industry, the development of analytical and numerical tools that can accurately predict the vibroacoustic response of large, composite structures of various geometries and subject to a combination of aeroacoustic excitations. Recently, a lot of research has been conducted on the modelling of wave propagation characteristics within composite structures. In this study, the Wave Finite Element Method (WFEM) is used in order to predict the wave dispersion characteristics within orthotropic composite structures of various geometries, namely flat panels, singly curved panels, doubly curved panels and cylindrical shells. These characteristics are initially used for predicting the modal density and the coupling loss factor of the structures connected to the acoustic medium. Subsequently the broad-band Transmission Loss (TL) of the modelled structures within a Statistical Energy Analysis (SEA) wave-context approach is calculated. Mainly due to the extensive geometric complexity of structures, the use of Finite Element(FE) modelling within the aerospace industry is frequently inevitable. The use of such models is limited mainly because of the large computation time demanded even for calculations in the low frequency range. During the last years, a lot of researchers focus on the model reduction of large FE models, in order to make their application feasible. In this study, the Second Order ARnoldi (SOAR) reduction approach is adopted, in order to minimize the computation time for a fully coupled composite structural-acoustic system, while at the same time retaining a satisfactory accuracy of the prediction in a broadband sense. The system is modelled under various aeroacoustic excitations, namely a diffused acoustic field and a Turbulent Boundary Layer (TBL) excitation. Experimental validation of the developed tools is conducted on a set of orthotropic sandwich composite structures. Initially, the wave propagation characteristics of a flat panel are measured and the experimental results are compared to the WFEM predictions. The later are used in order to formulate an Equivalent Single Layer (ESL) approach for the modelling of the spatial response of the panel within a dynamic stiffness matrix approach. The effect of the temperature of the structure as well as of the acoustic medium on the vibroacoustic response of the system is examined and analyzed. Subsequently, a model of the SYLDA structure, also made of an orthotropic sandwich material, is tested mainly in order to investigate the coupling nature between its various subsystems. The developed ESL modelling is used for an efficient calculation of the response of the structure in the lower frequency range, while for higher frequencies a hybrid WFEM/FEM formulation for modelling discontinuous structures is used. [SPI:OTHER] Engineering Sciences/Other Launch vehicle Aeroacoustic excitations Wave Finite Element Method (WFEM) Statistical Energy Analysis (SEA)
84	Vibro-acoustic analysis of inverter driven induction motors Wang, Chong, Aerospace & Mechanical Engineering, Australian Defence Force Academy, UNSW January 1998 (has links) With the advent of power electronics, inverter-driven induction motor are finding increased use in industries because of applications that demand variable speed operations and because of the potential savings in energy usage. However, these drives sometimes produce unacceptably high levels in vibration and acoustic noise. A literature survey has revealed that while there has been intensive research on the design of inverters to minimize acoustic noise radiation from these drives, the vibro-acoustic behaviour of an induction motor structure has received relatively little attention. The primary objective of this research project, therefore, is to develop a general strategy/algorithm for estimating the acoustic noise radiated from inverter-driven induction motors. By using a three-phase, 2.2 kW induction motor, the vibration modes due to various structural components (such as the rotor, the stator/casing, the endshields and the base plate) of the motor structure were analysed by experimental modal testing. Results indicate that the vibration modes due to the rotor are only important at low frequencies. It has been found that the power injection method gives more accurate measurement of the damping of a motor structure than the modal testing and the time decay methods. If a point force excitation is used, then it is more accurate to measure the sound radiation efficiency than the power conversion efficiency for motor structures. The effect of three different inverter designs (an ideal ???almost sinusoidal??? controller and two commercially available PWM inverters) on the radiated acoustic power were assessed for both no-load and load conditions using sound intensity measurements conducted in an anechoic room. The results indicate that although the sound power level due to aerodynamic and mechanical noise increases at a rate of 12 dB per doubling of the motor speed, the electromagnetic noise dominates at low motor speeds and is still a significant noise source even at high motor speeds. For inverters with low switching frequencies, the radiated sound power level is almost 15 dB higher than the ideal case at low speeds and is relatively insensitive to the motor speed. For inverters that implement the random modulation technique, the change in the total sound power level with the level of the random modulation is very small but the tonal nature of the noise is greatly reduced. The vibration behaviour of a motor structure was modeled using the finite element method (FEM) and validated using the experimental modal testing results. It has been found that it is essential to model the laminated stator as an orthotropic structure. While the details of other structural components (such as the endshields, the teeth in the stator and the windings) are not so important, it is essential that they are incorporated into the structural model as simplified structures to account for their mass, stiffness and boundary conditions imposed on the motor structure. Based on this structural model, the radiated acoustic power for various operating conditions has been predicated using the boundary element (BEM) and the electromagnetic force calculated from an electromagnetic finite element model. The predicted results agree reasonably well with experimental measurements. Despite the success of the FEM/BEM approaches, they can be prohibitively expensive (in terms of computer resources required) to apply to large motors and high frequencies. Thus the feasibility of using a statistical method, namely, the statistical energy analysis (SEA), to estimate the radiated acoustic sound power from an inverter-driven induction motor has been examined. In order to carry out this analysis, analytical expressions for calculating the natural frequencies and radiation efficiency of finite length circular cylindrical shells (which are simplified models of the stator and casing of a motor structure) were firstly derived. The internal loss factors and coupling loss factors of the motor structure were determined experimentally using the power injection method. Then by introducing an equivalent surface mobility of circular cylindrical shells for the electromagnetic force, the vibration response and the acoustic noise radiated from each part of the motor structure were estimated. Results indicate that SEA method is potentially an efficient and effective tool in estimating the noise radiated from inverter-driven induction motors. Vibro-acoustic analysis induction motor inverters motor structure electromagnetic noise numerical analysis finite element method boundary element method statistical energy analysis finite length cylindrical shells
85	Análise energética do milho em sistema de plantio direto, em assentamento rural, Itaberá/SP Santos, Ricardo Rodrigues dos [UNESP] 03 February 2006 (has links) (PDF) Made available in DSpace on 2014-06-11T19:24:42Z (GMT). No. of bitstreams: 0 Previous issue date: 2006-02-03Bitstream added on 2014-06-13T19:31:34Z : No. of bitstreams: 1 santos_rr_me_botfca.pdf: 739634 bytes, checksum: 22dd4ee99538bf6df069fdde6891965e (MD5) / Universidade Estadual Paulista (UNESP) / O objetivo deste trabalho foi analisar do ponto de vista energético o agroecossistema milho, em sistema de plantio direto, localizado na área III do projeto de assentamento de trabalhadores rurais Pirituba II, no município de Itaberá/SP. A análise energética quantificou todas as operações realizadas, juntamente com suas exigências físicas (quilogramas, litros, horas, metro, hectare, alqueire etc), os insumos utilizados e os grãos produzidos, classificando-os em seus respectivos fluxos, a partir da definição das entradas e saídas de energia, traduzindo-os em equivalentes energéticos e determinando, assim, a matriz energética do agroecossistema. Os índices calóricos utilizados foram os de eficiência cultural e energia cultural líquida. Os resultados desta pesquisa demonstraram a dependência do sistema de fontes de energia industrial, provindas de fertilizantes (44,42%) e agrotóxicos (18,71%), e de energia fóssil do óleo diesel (28,06%). Os valores energéticos, referentes aos tipos de energia direta e indireta, apresentaram grandezas distintas, sendo que a energia indireta (65,60%) representou quase o dobro da energia direta (34,40%) utilizada no sistema, significando que as fontes energéticas utilizadas encontram-se pouco equilibradas. A 2 eficiência cultural encontrada foi de 14,39, apontando que para cada unidade calórica aplicada no agroecossistema o retorno foi de 13,39 unidades e a energia cultural líquida atingiu 115.388,28 MJ x ha-1. Num segundo momento, os dados obtidos foram comparados aos dados publicados por Bueno (2002), que realizou sua pesquisa neste mesmo agroecossistema, ano agrícola e área, porém em duas glebas diferentes que empregavam o sistema de plantio convencional. Na comparação entre os estudos, as entradas culturais de ambos os sistemas foram energeticamente muito semelhantes com 8.619,73 MJ x ha-1 (plantio direto)... / The aim of this work was to proceed, from the energetic point of view, an analysis of a corn agroecosystem, on the direct planting, located at Pirituba II rural workers placement project, Área III, city of Itaberá/SP. The energetic analysis mesured all operations, together with its fisical demands (kilograms, liters, hours, meters, surface measures, etc), the inputs and produced grains, classifying them within their respective flux, based on the definition of energy inputs and outputs, converting them into energetic equivalents and, so, determining the energetic matrix of de agroecosystem. The caloric index used were cultural efficiency and cultural liquid energy. The results showed the dependence of the studied systems on the chemical energy sources, from fertilizers (44,42%), agrotoxics (18,71%), and diesel (28,06%). The energetic values of the direct and indirect energy showed a very big difference between them: indirect energy (65,60%) represented almost twice the direct energy (34,40%) used on the system, what means that the energy sources used in the system are not balanced. The cultural efficiency found was 14,39, pointing that for every caloric unity applied on the agroecosystem, the return was of 13,39 units and cultural liquid energy got to 115.388,28 MJ x ha-1. Later on, obtained data was compared to already existing data in Bueno 4 (2002), who researched corn agroecosystem, in the same agriculture period, at the same area, in two different gleba, with conventional planting system. Comparing both studies, the cultural inputs of both systems were energeticaly almost the same: 8.619,73 MJ x ha-1 (direct planting), e 8.783,78 MJ x ha-1 (convencional planting). The outputs had very different results: 124.008,01 e 79.118,38 MJ x ha-1, respectively. So, we had much more cultural liquid energy on the studied system: 115.388,28 MJ x ha-1, compared... (Complete abstract click electronic access below) Milho Plantio direto - Itaberá (SP) Análise energética Assentamento rural Energy analysis Cultural efficience Cultural liquid energy Direct planting Corn Rural placement
86	Estudo de geração de energia elétrica em motores stirling acionados por biogás e/ou energia solar / Study of electric power generation in Stirling engines driven by biogas and/or solar energy Dentello, Rodrigo Orefise [UNESP] 28 July 2017 (has links) Submitted by Rodrigo Orefise Dentello null (rodrigodentello@gmail.com) on 2017-09-26T19:16:11Z No. of bitstreams: 1 Dissertação de Mestrado Rodrigo Orefise Dentello.pdf: 3135657 bytes, checksum: b5e87e13e54b4ab1c494888ed13cc131 (MD5) / Rejected by Monique Sasaki (sayumi_sasaki@hotmail.com), reason: Solicitamos que realize uma nova submissão seguindo as orientações abaixo: No campo “Versão a ser disponibilizada online imediatamente” foi informado que seria disponibilizado o texto completo porém no campo “Data para a disponibilização do texto completo” foi informado que o texto completo deverá ser disponibilizado apenas 6 meses após a defesa. 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Agradecemos a compreensão. on 2017-09-28T13:17:05Z (GMT) / Submitted by Rodrigo Orefise Dentello null (rodrigodentello@gmail.com) on 2017-10-02T12:11:48Z No. of bitstreams: 1 Dissertação de Mestrado Rodrigo Orefise Dentello.pdf: 3135657 bytes, checksum: b5e87e13e54b4ab1c494888ed13cc131 (MD5) / Approved for entry into archive by LUIZA DE MENEZES ROMANETTO (luizamenezes@reitoria.unesp.br) on 2017-10-04T15:16:42Z (GMT) No. of bitstreams: 1 dentello_ro_me_guara.pdf: 3135657 bytes, checksum: b5e87e13e54b4ab1c494888ed13cc131 (MD5) / Made available in DSpace on 2017-10-04T15:16:42Z (GMT). No. of bitstreams: 1 dentello_ro_me_guara.pdf: 3135657 bytes, checksum: b5e87e13e54b4ab1c494888ed13cc131 (MD5) Previous issue date: 2017-07-28 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O motor Stirling é um motor de combustão externa que opera com diferenças de temperaturas, produzindo trabalho mecânico e eletricidade. Esse tipo de motor opera em um ciclo fechado, que através do uso de uma fonte quente e uma fria, expande e comprime um fluido de trabalho (ar, hélio ou hidrogênio, dentre os mais comuns), fornecendo assim o movimento de um pistão. Pode operar com calor residual e também com a queima de qualquer tipo de combustível (gás natural, diesel, gasolina, etc). Essa tecnologia tem se destacado para o desenvolvimento de sistemas que operam com biocombustíveis (biogás e syngas) e com energias renováveis, como por exemplo, caso de uso de concentradores solares. Este trabalho tem como objetivo estudar as performances termodinâmica, econômica e ambiental de um sistema Stirling operando com sistema de alimentação a biogás e energia solar, aplicado para a geração de energia elétrica descentralizada. São realizados estudos dos aspectos termodinâmicos do ciclo Stirling, com foco no funcionamento e no trabalho do motor. São efetuadas análises técnicas do sistema operando com câmara de combustão a biogás e utilizando energia de concentrador solar parabólico. Em etapa final são analisados e comparados os aspectos econômicos e ambientais do sistema acionado por biogás e energia solar. Os resultados obtidos mostraram pela teoria de Schmidt uma eficiência do motor Stirling de 67%. Da análise econômica, fica evidente que um maior número de horas de operação corrobora com a viabilidade econômica. Quantos aos aspectos ambientais, o valor da eficiência ecológica do motor Stirling operando a biogás é de 98,02%. No caso do sistema solar utilizando concentrador para alimentar o motor Stirling, a eficiência ecológica indica é de cerca de 98%. Conclui-se que o uso de fontes renováveis, permitem bons níveis de eficiência de geração de energia elétrica de sistemas utilizando motores Stirling de pequeno porte, reduzindo níveis de poluição atmosférica e contribuindo para a redução do efeito estufa. / The Stirling engine is an external combustion engine that operates at varying temperatures, producing mechanical work or electricity. This type of engine operates in a closed cycle, which through the use of a hot and cold source expands and compresses a working fluid (air, helium or hydrogen, among the most common), thus providing the movement of a piston. It can operate with residual heat and also with the burning of any type of fuel (natural gas, diesel, gasoline, etc.). This technology has been outstanding for the development of hybrid systems that operate with biofuels (biogas and syngas) and with renewable energies, as for example, case of use of solar concentrators. This work aims to study the thermodynamic, economic and environmental performances of a Stirling system operating with a biogas and solar energy supply system, applied for the generation of decentralized electric energy. Studies are carried out on the thermodynamic aspects of the Stirling cycle, focusing on the operation and work of the engine. Technical analysis of the system is carried out using a biogas combustion chamber and using parabolic solar concentrator energy. In the final stage are analyzed and compared the economic and environmental aspects of the system activated by biogas and solar energy. The results showed that through the thermodynamic analysis by the Schmidt theory, a Stirling engine efficiency of 67% was obtained. From the economic analysis, it is evident that a greater number of hours of operation corroborates with economic viability. As for the environmental aspects, the ecological efficiency value of the Stirling engine operating biogas is 98.02%. In the case of the solar system using concentrator to power the Stirling engine, the ecological efficiency indicates is about 98%. It is concluded that the use of renewable sources, allow good levels of efficiency of electric power generation of systems using small Stirling motors, reducing levels of air pollution and contributing to the reduction of the greenhouse effect. Motor Stirling Biogás Energia solar Análise energética Análise econômica Análise ambiental Stirling engine Biogas Solar energy Energy analysis
87	Análise energética do milho em sistema de plantio direto, em assentamento rural, Itaberá/SP / Santos, Ricardo Rodrigues dos, 1963- January 2006 (has links) Orientador: Elias José Simon / Banca: Osmar de Carvalho Bueno / Banca: Valeria Comitre / Resumo: O objetivo deste trabalho foi analisar do ponto de vista energético o agroecossistema milho, em sistema de plantio direto, localizado na área III do projeto de assentamento de trabalhadores rurais Pirituba II, no município de Itaberá/SP. A análise energética quantificou todas as operações realizadas, juntamente com suas exigências físicas (quilogramas, litros, horas, metro, hectare, alqueire etc), os insumos utilizados e os grãos produzidos, classificando-os em seus respectivos fluxos, a partir da definição das entradas e saídas de energia, traduzindo-os em equivalentes energéticos e determinando, assim, a matriz energética do agroecossistema. Os índices calóricos utilizados foram os de eficiência cultural e energia cultural líquida. Os resultados desta pesquisa demonstraram a dependência do sistema de fontes de energia industrial, provindas de fertilizantes (44,42%) e agrotóxicos (18,71%), e de energia fóssil do óleo diesel (28,06%). Os valores energéticos, referentes aos tipos de energia direta e indireta, apresentaram grandezas distintas, sendo que a energia indireta (65,60%) representou quase o dobro da energia direta (34,40%) utilizada no sistema, significando que as fontes energéticas utilizadas encontram-se pouco equilibradas. A 2 eficiência cultural encontrada foi de 14,39, apontando que para cada unidade calórica aplicada no agroecossistema o retorno foi de 13,39 unidades e a energia cultural líquida atingiu 115.388,28 MJ x ha-1. Num segundo momento, os dados obtidos foram comparados aos dados publicados por Bueno (2002), que realizou sua pesquisa neste mesmo agroecossistema, ano agrícola e área, porém em duas glebas diferentes que empregavam o sistema de plantio convencional. Na comparação entre os estudos, as entradas culturais de ambos os sistemas foram energeticamente muito semelhantes com 8.619,73 MJ x ha-1 (plantio direto)... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The aim of this work was to proceed, from the energetic point of view, an analysis of a corn agroecosystem, on the direct planting, located at Pirituba II rural workers placement project, Área III, city of Itaberá/SP. The energetic analysis mesured all operations, together with its fisical demands (kilograms, liters, hours, meters, surface measures, etc), the inputs and produced grains, classifying them within their respective flux, based on the definition of energy inputs and outputs, converting them into energetic equivalents and, so, determining the energetic matrix of de agroecosystem. The caloric index used were cultural efficiency and cultural liquid energy. The results showed the dependence of the studied systems on the chemical energy sources, from fertilizers (44,42%), agrotoxics (18,71%), and diesel (28,06%). The energetic values of the direct and indirect energy showed a very big difference between them: indirect energy (65,60%) represented almost twice the direct energy (34,40%) used on the system, what means that the energy sources used in the system are not balanced. The cultural efficiency found was 14,39, pointing that for every caloric unity applied on the agroecosystem, the return was of 13,39 units and cultural liquid energy got to 115.388,28 MJ x ha-1. Later on, obtained data was compared to already existing data in Bueno 4 (2002), who researched corn agroecosystem, in the same agriculture period, at the same area, in two different gleba, with conventional planting system. Comparing both studies, the cultural inputs of both systems were energeticaly almost the same: 8.619,73 MJ x ha-1 (direct planting), e 8.783,78 MJ x ha-1 (convencional planting). The outputs had very different results: 124.008,01 e 79.118,38 MJ x ha-1, respectively. So, we had much more cultural liquid energy on the studied system: 115.388,28 MJ x ha-1, compared... (Complete abstract click electronic access below) / Mestre Milho. Plantio direto - Itaberá (SP) Análise energética. Assentamento rural. Energy analysis. eng Cultural efficience. eng Cultural liquid energy. eng Direct planting. eng Corn. eng Rural placement. eng
88	Avaliação de desempenho ambiental e energético da produção de etanol de cana, milho e sorgo em uma unidade integrada, segundo a abordagem do ciclo de vida / Environmental and energy assessment of sugarcane, corn and sorghum ethanol production in an integrated plant, according to the life cycle approach. Ana Cristina Guimarães Donke 25 April 2016 (has links) O etanol está consolidado como combustível para movimentação de veículos leves no Brasil e, nos últimos 40 anos, apenas a cultura de cana-de-açúcar tem sido explorada comercialmente para a produção deste combustível. Por outro lado, o desenvolvimento agrícola vem proporcionando safras recordes de grãos nas últimas décadas. A produção de milho se destaca pelo aumento da produtividade, podendo ser semeado como cultura principal ou como cultura de inverno em rotação com a soja. O sorgo, por sua vez, pode atuar como um substituto do milho, apresentando maior rusticidade e tolerância à seca. Dada essa conjuntura, usinas de etanol do Mato Grosso se associaram a produtores de milho e sorgo para incluir novas matéria-primas no processo de produção de combustíveis, compartilhando uma mesma unidade industrial, denominada Usina Integrada ou Usina Flex. No contexto atual, o desenvolvimento de novas tecnologias e setores produtivos exige a consideração de suas potenciais implicações energéticas e ambientais. A Avaliação de Ciclo de Vida (ACV) é uma ferramenta da gestão ambiental usada para avaliar impactos ambientais potenciais associados a produtos, processos e serviço. Sua principal característica é se prestar a essa avaliação de forma sistêmica, levando em conta todas as etapas do seu ciclo de vida. O objetivo deste trabalho foi avaliar e comparar os desempenhos ambiental e energético da produção de etanol a partir dos ativos agrícolas cana-de-açúcar, milho e sorgo, no contexto de usina autônoma integrada, segundo a abordagem do ciclo de vida. Para tanto, estudos de ACV foram conduzidos para cada um dos três produtos, seguindo as diretrizes das normas ABNT NBR ISO 14.040:2009 e ABNT NBR ISO 14.044:2009. Para a análise ambiental aplicou-se o método de Avaliação de Impacto do Ciclo de Vida (AICV) ReCiPe midpoint e, para a análise energética, o método Demanda de Energia Cumulativa foi utilizado, seguido pelo cálculo dos Índices de Retorno Energético sobre o Investimento (EROI) para cada combustível. A unidade funcional dos estudos foi 1 m³ de etanol hidratado e o sistema de produto incluiu a produção de insumos, produção da matéria-prima agrícola, produção de etanol, cogeração e etapas de transporte. Os resultados da análise ambiental demonstraram que o etanol de cana-de-açúcar apresenta melhor desempenho do que o etanol de milho e de sorgo em um número maior de categorias de impacto. As análises energéticas demonstraram que o uso de cavaco de madeira na etapa de cogeração dos processos de produção de etanol de milho e sorgo traduziu-se em ganhos energéticos, mas o etanol de cana-de-açúcar ainda apresenta um desempenho melhor por utilizar o bagaço para cogeração. Em termos de EROI, o etanol de cana-de-açúcar disponibilizou 9,77 unidades de energia para cada unidade consumida, o etanol de milho disponibilizou 2,68 e o etanol de sorgo disponibilizou 3,10. / Ethanol is consolidated as fuel to drive light vehicles in Brazil, but for the past 40 years, only the cultivation of sugarcane has been commercially exploited for the production of this fuel. On the other hand, agricultural development has provided high yields of grain in recent decades. Corn production is distinguished by increased productivity, and can be sown as main crop or as a winter crop in rotation with soybeans. Sorghum, in turn, has a higher roughness and tolerance to drought and can act as a substitute for corn. Given this situation, ethanol plants in Mato Grosso were associated with corn and sorghum producers to include new raw materials in the fuel production process, sharing the same plant, called Integrated Plant or Plant Flex. However, the development of new technology and production sectors requires consideration of its potential energy and environmental implications. The Life Cycle Assessment (LCA) is management tool used to evaluate potential environmental impacts associated with products, processes and services. Its main feature is to provide such an assessment in a systematic way, taking into account all stages of their life cycle. The objective of this study was to evaluate and compare the environmental and energy performance of ethanol production from sugarcane, corn and sorghum in the context of integrated autonomous plant, according to the life cycle approach. For that, LCA studies were conducted for each of the three products, following the guidelines of the standards ISO 14040: 2009 and ISO 14044: 2009. For environmental analysis the method of Life Cycle Impact Assessment (LCIA) Recipe midpoint was applied and for energy analysis Cumulative Energy Demand method was used, followed by the estimate of the Energy Return On Investment (EROI) for each fuel. The functional unit of the studies was 1 m³ of hydrous ethanol and the product system includes the production inputs, production of agricultural raw material, production of ethanol, cogeneration and transport stages. The results of the environmental analysis showed that the ethanol sugarcane performs better than the ethanol maize and sorghum in a greater number of impact categories. Energy analyzes have shown that the use of wood chips in cogeneration stage of corn ethanol production processes and sorghum has resulted in energy savings, but the ethanol sugarcane still performs better by using bagasse for cogeneration. In terms of EROI, the sugarcane ethanol provided 9.77 units of energy for every unit consumed, corn ethanol provided 2.68 and sorghum ethanol provided 3.10. Avaliação de Ciclo de Vida Balanço energético Cana-de-açúcar EROI Etanol Milho Sorgo Granífero corn EROI ethanol grain sorghum Life Cycle Assessment net energy analysis sugarcane
89	Análise de desempenho ambiental da cogeração de energia elétrica a partir de adições sucessivas de biomassa em destilaria autônoma. / Environmental performance analysis of cogeneration of electricity from successive additions of biomass in autonomous distillery. Laíse Anton 14 February 2017 (has links) Uma análise do setor sucroalcooleiro nacional revela sua autossuficiência energética que com investimentos adequados, pode evoluir para transformar tal característica em benefício por meio de exportação de energia elétrica. Atualmente, os sistemas de cogeração das usinas de etanol operam com bagaço-de-cana; no entantoesse quadro deve ser alterado devido ao grande aumento de disponibilidade de palha gerada no campo. Um acordo firmado entre o Governo do Estado de São Paulo e UNICA, que limita e condiciona queimadas durante a colheita na região ratifica essa condição. O presente estudo se propõe a estimar e discutir impactos ambientais associados à cogeração de energia elétrica em destilarias autônomas para situações diversas de operação do ciclo Rankine, modelo de termodinâmico adotado para representar o funcionamento daquele sistema. Para atender a tais propósitos foram verificadas diferentes condições de pressão de operação da caldeira (20, 45, 67, 80 e 100 bar), teor de umidade da palha (10%, 15%, 25%, 35% e 50%), e taxa de adição dessa biomassa (10%, 20%, 30%, 40% e 50%) com relação ao total gerado no campo. A coordenação simultânea dessas variáveis resultou na formulação de cento e vinte e cinco cenários de análise. Os cenários foram analisados a partir de Análise Energética (Análise Termodinâmica de 1ª e 2ªLeis) e Avaliação de Ciclo de Vida (ACV). AACVocorreusob enfoque do tipo \"berço-aoportão\", e seguiu diretrizes metodológicas descritas na norma ABNT NBR ISO 14044. Adotou-se como unidade funcional para o estudo \"produzir10 t de etanol anidro (99,5% w/w)\". O sistema de produto compreende atividades realizadas nas etapas agrícola (de produção de cana-de-açúcar e palha) e industrial (obtenção de etanol e cogeração). A análise ocorreu em termos da geração específica de eletricidade, e de perfil de impactos ambientais, definido em termos dos potenciais de Mudanças Climáticas, Acidificação Terrestre, Eutrofização Aquática, e de Formação de Oxidantes Fotoquímicos e de Material Particulado.Os resultados obtidos indicam que a eficiência energética aumenta com a elevação das funções de estado do vapor superaquecido que é injetadona turbina. Em termos de desempenho ambiental, observou-se redução sistêmica de efeitos adversos com o aumento da eficiência do ciclo termodinâmico. Os resultados também ratificaram como condição mais favorável em termos de desempenho ambiental aquela em que 50% da palha gerada no campo, com 10% de umidade, é aproveitada como fonte de energia térmica na caldeira, produzindo vapor superaquecido a 100 bar. / Analyzing the sugar-alcohol sector in Brazil, one can perceive that it is self-sufficient in energy terms and that, with adequate investments, it can evolve to transform this characteristic into a benefit through the export of electricity. Currently, the cogeneration systems of the ethanol plants operate with bagasse. However, this picture should be changed due to the large increase in availability of straw generated in the field. An agreement signed between the Government of the State of São Paulo and the federation of ethanol and sugar mills (UNICA) that limits and conditions burnings during harvesting in the region ratifies this condition. This study estimates and discusses environmental impacts associated with the cogeneration of power in autonomous distilleries for typical operational conditions of the Rankine cycle, a thermodynamic model adopted to represent the operation of that system. In order to meet these purposes, different boiler operating pressure (20, 45, 67, 80 and 100 bar), moisture content of the straw (10%, 15%, 25%, 35% and 50%), and rate of biomass feeding (10%, 20%, 30%, 40% and 50%) in relation to the total generated in the field have been verified.The simultaneous coordination of these variables resulted in the formulation of one hundred and twenty-five analysis scenarios, which were investigated in terms of Energy Analysis (Thermodynamic Analysis of 1st and 2nd Laws) and Life Cycle Assessment (LCA). The LCA was carried out under a \"cradle-to-gate\" approach and followed the methodological guidelines described in ABNT NBR ISO 14044. It was adopted as a Functional Unit for the study \"to produce 10 t of anhydrous ethanol (99.5% w/w) \". The product system comprises activities that occur in the agricultural (production of sugarcane and straw) and industrial (synthesis of ethanol and cogeneration) stages. The analysis took place in terms of the specific generation of electricity, and of environmental impact profiles have been defined in terms of the potential of Climate Change, Terrestrial Acidification, Aquatic Eutrophication, and Formation of Photochemical Oxidants and Particulate Material. The results indicate that the energy efficiency increases with the increase of the state functions of the steam that is injected into the turbine. Regarding the environmental performance, it was observed a systemic reduction of adverse effects with the increase of the efficiency of the thermodynamic cycle. The results also confirmed that the most favorable condition in terms of environmental performance is that one which 50% of the straw produced in the field, with 10% humidity, is used as a source of thermal energy in the boiler, producing superheated steam at 100 bar. Análise energética Biomassa Ciclo de vida (Avaliação) Ciclo Rankine Cogeração de energia elétrica Destilarias Biomass Cogeneration Energy analysis Life Cycle Assessment Rankine cycle
90	Irrigação e tipos de poda no cultivo de pinhão-manso em Piracicaba, SP / Irrigation and types of pruning in jatropha cultivation in Piracicaba, SP Otávio Neto Almeida Santos 15 January 2016 (has links) O pinhão-manso (Jatropha curcas L) é uma espécie da família da Euforbiácea que tem se destacado por ser uma planta perene, rústica e com elevada produção de óleo. A avaliação dos efeitos da poda e da irrigação no crescimento e produção do pinhão-manso é relevante para o manejo de um cultivo com essa espécie. Este estudo teve como objetivo principal avaliar os efeitos de diferentes tipos de poda e manejos hídricos no cultivo do pinhão-manso em Piracicaba, SP. O experimento foi conduzido na área experimental do Departamento de Engenharia de Biossistemas (ESALQ/USP), com plantas de quatro anos de idade dispostas em espaçamento 3 x 4 m, totalizando 833 plantas ha-1. Os tratamentos foram arranjados de forma aleatória em blocos compostos de quatro repetições, sendo que os fatores foram constituídos de dois manejos hídricos (irrigado e sem irrigação) e três tipos de poda, sendo P1 (sem poda), P2 (1,5 m de altura x 1,5 m de diâmetro de copa) e P3 (poda a 2 m de altura e 1,5 m de diâmetro da copa). A irrigação teve influência no diâmetro da copa, nas taxas de crescimento absoluto em altura e diâmetro, na taxa de crescimento relativo em diâmetro e nas variáveis produtivas. O fator poda apresentou diferenças em todas as variáveis de crescimento, sendo a poda drástica (P2) a que exibiu as maiores taxas médias de crescimento. As plantas irrigadas apresentaram os maiores rendimentos por planta e por hectare. A análise de ressonância magnética nuclear de hidrogênio (RMN de 1H) revelou que a irrigação e a poda não influenciaram o teor de óleo nas sementes de pinhão-manso. Em relação ao perfil graxo, a irrigação teve influência em plantas submetidas a poda drástica (P2), de modo que a ausência de irrigação favoreceu o maior acúmulo de ácido oleico no óleo. Pela análise energética, observou-se que os fertilizantes foram os insumos com maior participação na demanda energética (42,57 GJ ha-1) para os dois sistemas estudados, seguido dos combustíveis (32,96 GJ ha-1). A área irrigada consumiu 100,4 GJ ha-1, sendo 16% devido ao acionamento do pivô central. A energia bruta dos frutos de pinhão-manso foi de 69,82 e 45,31 GJ ha-1 para o sistema irrigado e o sem irrigação, respectivamente. O balanço energético (BE) para as duas áreas foi negativo e a lucratividade energética (EROI) foi de 0,63 para a área irrigada e 0,49 para a área sem irrigação, evidenciando a ineficiência e a não sustentabilidade do cultivo de pinhão-manso nas condições deste estudo para geração de energia. / Jatropha (Jatropha curcas L) is a species from Euforbiácea family that has been widely studied because of some particular characteristics such as being a perennial plant, its rusticity and the high oil production. The evaluation of pruning and irrigation on growth development and yield of jatropha is very important for the culture management. The objective of this study was to evaluate the effects on jatropha under different types of pruning and water management in Piracicaba, SP. The experiment was conducted in the experimental area of the Department of Biosystems Engineering (ESALQ/USP) during the fourth year crop growing and with 3 x 4 m planting spacing, totalizing 833 plants ha-1. The treatments were randomly arranged in blocks with two water management (irrigation and rainfed) and three pruning types (P1, no pruning; P2, with 1.5 m height x 1.5 m canopy diameter and; P3, with 2.0 height x 1.5 m canopy diameter). In each block, there were three pruning types with 4 blocks in each water management. Irrigation have influenced the canopy diameter values, absolute growth rates for height and canopy diameter, relative growth rate for canopy diameter and yield parameters., pruning management have influenced in all growth parameters, with drastic pruning (P2) representing the highest average growth rates. The irrigation have showed the highest yield per plant and per hectare. The analysis of Nuclear Magnetic Resonance of hydrogen (1H NMR) have shown that the irrigation and pruning have not influenced the oil content on jatropha seeds. Regarding the fatty profile, the irrigation management have influenced only the P2, since that no irrigation have influenced to largest accumulation of oleic acid in the oil. In energy analysis, it was noted that fertilizers were the inputs with the largest participation in energy input (42.57 GJ ha-1) for both water management, followed by fuels (32.96 GJ ha-1). The irrigated area consumed 100.4 GJ ha-1 energy, representing 16% due to the central pivot usage. The gross energy of jatropha fruits was 69.82 and 45.31 GJ ha-1 for irrigated and rainfed system, respectively. The energy balance for the two areas was negative and the energy return over investment, with 0.63 and 0.49 for irrigated and rainfed, respectively, have showed the inefficiency and unsustainability of jatropha cultivation to generate energy. Jatropha curcas L. Análise energética Óleo vegetal Perfil graxo Pivô central Jatropha curcas L. Center pivot Energy analysis Lipid profile Vegetable oil

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