29 resultados para Engenharia industrial
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Tese apresentada para cumprimento dos requisitos necessários à obtenção do grau de Doutor em Geografia e Planeamento Regional
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ICAD2014, Campus de Caparica, Portugal
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Uma das tarefas mais relevantes deste trabalho foi a análise dos resultados de medição obtidos sobre os padrões de rugosidade, que permitiu identificar tendências dos resultados de medição de parâmetros de rugosidade pré-definidos, em função das condições de medição (ex.: comprimento total de medição, inclinação, tipo de apalpador). O estudo de quanto um valor de inclinação diferente do definido como critério de aceitação, influencia o valor do parâmetro de rugosidade em avaliação, foi um outro objectivo. Os resultados contribuíram para uma melhor definição das condições a ter em consideração aquando da calibração de padrões de rugosidade, bem como para uma melhor reprodutibilidade dos resultados obtidos (exactidão de medição) e redução do balanço de incertezas. Com a verificação e calibração in situ de um rugosímetro industrial, concluiu-se acerca da importância que a calibração tem nos equipamentos de medição de rugosidade (perfilómetros de contacto ou rugosímetros), através da avaliação da compatibilidade de resultados obtidos com um rugosímetro do Laboratório Nacional de Metrologia (LNM) e de um rugosímetro industrial. Dos trabalhos efectuados, averiguou-se a importância das normas técnicas que constituem a base do serviço de calibração de padrões de rugosidade, bem como da calibração dos sistemas de medição dos rugosímetros, nos resultados de medição e controlo de qualidade das superfícies. A calibração deve ser efectuada periodicamente e antes de qualquer medição da superfície em análise, através da utilização de padrões de rugosidade calibrados para os parâmetros a controlar. Estes podem variar de superfície para superfície. O trabalho desenvolvido no decurso da elaboração da Dissertação decorreu principalmente no Laboratório de Comprimento (LCO) do Departamento de Metrologia do Instituto Português da Qualidade (IPQ), em particular na área de trabalho do Laboratório correspondente à “Forma e Rugosidade”, em estreita colaboração com o Departamento de Engenharia Mecânica e Industrial (DEMI) da FCT/UNL. Simultaneamente, a verificação e a calibração de um rugosímetro industrial in situ foi possível graças à estreita colaboração existente entre a FCT/UNL-DEMI e o Instituto de Ciência e Engenharia de Materiais e Superfícies (ICEMS). Posteriormente à calibração do rugosímetro, as rugosidades de superfícies típicas de componentes mecânicos, obtidos por diferentes processos de fabrico (fundição, polimento e corte por serra), foram medidas, encontrando-se dentro da gama expectável de rugosidades
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A presente dissertação visa aferir a dimensão e a relevância das alterações operadas por Nikita Khrushchev, enquanto líder da União Soviética, no Complexo Militar e Industrial deste país, no período da Guerra Fria. Neste contexto, as mesmas serão analisadas e proceder-se-á, paralelamente, ao estudo do impacto das mesmas a nível interno, bem como a nível externo, na interacção da União Soviética com os restantes actores da comunidade internacional, nomeadamente os Estados Unidos. Mormente, como forma de contextualizar as referidas alterações, proceder-se-á também ao apuramento dos motivos que estiveram subjacentes à transmutação de uma componente relevante nas Relações Internacionais, o Complexo Militar e Industrial Soviético.
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O presente trabalho resulta do estágio realizada na Secretaria Geral do Ministério da Economia e do Emprego. O estágio consistiu na descrição de duas Séries documentais. Com o presente trabalho pretende-se demonstrar a importância do uso das normas de descrição arquivística, mostrando a importância da descrição dos produtores, das funções e das entidades responsáveis pela sua custódia, conjugada com a descrição dos documentos.
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This thesis aims to study how product relatedness to the current pattern of specialization influences the success of industrial policies in underdeveloped sectors. Drawing from Hausmann and Klinger (2006), this work extends the existing literature on the importance of proximity spillovers to explain economic development by focusing on underdeveloped sectors. We find that investment's success in an underdeveloped sector is more likely if it is highly related to the current pattern of specialization. However, heterogeneity amongst sectors is remarkable. Moreover, industrial policy cases are sometimes successful despite the bad odds provided by this criterion, suggesting further factors should be considered.
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An infinite-horizon discrete time model with multiple size-class structures using a transition matrix is built to assess optimal harvesting schedules in the context of Non-Industrial Private Forest (NIPF) owners. Three model specifications accounting for forest income, financial return on an asset and amenity valuations are considered. Numerical simulations suggest uneven-aged forest management where a rational forest owner adapts her or his forest policy by influencing the regeneration of trees or adjusting consumption dynamics depending on subjective time preference and market return rate dynamics on the financial asset. Moreover she or he does not value significantly non-market benefits captured by amenity valuations relatively to forest income.
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S. João da Madeira é uma localidade que desde cedo construiu os seus discursos em torno da identidade local sob o epíteto de Cidade do Trabalho. Mais recentemente, desde a última década do século XX, a cidade começou a olhar para a sua dimensão industrial do ponto de vista do seu cunho patrimonial, dentro do quadro emergente das políticas culturais e de identidade, no qual as identidades particulares – como à escala local – se querem afirmar no plano global. Partindo de uma primeira análise dos processos contemporâneos de patrimonialização do industrial no contexto de S. João da Madeira, concretizados pela via dos museus e do turismo, num trabalho de projeto que se apresenta como fase de investigação preliminar de um futuro trabalho de doutoramento, questiona-se como a antropologia poderá pensar o conceito de cultura popular fora dos contextos normalmente a estes atribuídos e como, consequentemente, poderá problematizar as fronteiras daquilo que poderá ser considerado ou não Património Cultural Imaterial (PCI), categoria com a qual a disciplina está historicamente comprometida.
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De forma a melhorar a precisão dos resultados obtidos com instrumentos doseadores de líquidos utilizados em ambiente clínico, foi submetido e aprovado um projeto internacional denominado Metrology for Drug Delivery (MeDD), financiado pela União Europeia, em que o Instituto Português da Qualidade (IPQ) é um dos sete participantes. Ao nível nacional, todo o projeto foi desenvolvido no Laboratório de Volume (LVO) do IPQ, em parceria com o Departamento de Engenharia Mecânica e Industrial (DEMI) da Faculdade de Ciências e Tecnologia da Universidade Nova de Lisboa (FCT/UNL), a B.Braun Portugal e o Hospital Garcia de Orta (HGO). A presente dissertação centra-se na elaboração de um procedimento de calibração de sistemas doseadores de fluidos, usando como ponto de partida um sistema padrão de micro caudal desenvolvido anteriormente pelo LVO em colaboração com a FCT-UNL/DEMI. Nesta dissertação são apresentados estudos de desempenho realizados em sistemas utilizados no hospital. Os instrumentos doseadores de fluidos mais usuais nos hospitais são as seringas perfusoras e as bombas peristálticas, que têm como função fornecer os fluidos necessários para hidratar, nutrir ou administrar fármacos. Com o objetivo de estudar o desempenho destes equipamentos em diferentes situações, tais como a influência da administração de fluidos mais viscosos em comparação com água, o tempo de resposta dos instrumentos e o impacto dos acessórios na linha de perfusão, realizaram-se diversos ensaios. Através dos ensaios realizados foi possível determinar o erro e a incerteza associada a cada equipamento para cada experiência realizada. A maioria dos resultados obtidos com os sistemas doseadores de fluidos permitiram verificar que os valores da incerteza dos caudais eram inferiores ao erro máximo admissível indicado pelo fabricante e serviram de base para a elaboração de um procedimento técnico.
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The interest in chromium (Cr) arises from the widespread use of this heavy metal in various industrial processes that cause its release as liquid, solid and gaseous waste into the environment. The impact of Cr on the environment and living organisms primarily depends on its chemical form, since Cr(III) is an essential micronutrient for humans, other animals and plants, and Cr(VI) is highly toxic and a known human carcinogen. This study aimed to evaluate if the electrodialytic process (ED) is an appropriate treatment for Cr removal, through a critical overview of Cr speciation, before and after the ED experiments, to assess possible Cr(III)-Cr(VI) interconversions during the treatment. ED was the treatment technique applied to two types of matrices containing Cr: chromate copper arsenate (CCA) contaminated soil and municipal solid waste incineration (MSWI) fly ash. In order to study Cr remediation, three EDR set-ups were used: a new set-up, the combined cell (2/3C or 3/2C), with three compartments, alternating current between two anodes and different initial experimental conditions, one set-up with three compartments (3C cell) and the other set-up with two compartments (2C cell). The Cr removal rates obtained in this study were between 10-36% for the soil, and 1-13% for the fly ash. The highest Cr removal rates were achieved in the 26 days experiments: 36% for the soil, 13% for the fly ash. Regarding the 13 days experiments, the highest Cr removal rates were attained with the 2/3C set-up: 24% for the soil, 5% for the fly ash. The analysis of Cr(VI) was performed before and after ED experiments to evaluate eventual changes in Cr speciation during the treatment. This analysis was conducted by two methods: USEPA Method 3060A, for the extraction of Cr(VI); and Hach Company Method 8023, for the detection of Cr(VI). Despite the differences in Cr total concentration, both matrices presented a similar speciation, with Cr(III) being the main species found and Cr(VI) less than 3% of Cr total, before and after the treatment. For fly ash, Cr(VI) was initially below the detection limit of the method and remained that way after the treatment. For soil, Cr(VI) decreased after the treatment. Oxidation of Cr(III) to Cr(VI) did not occur during the ED process since there was no increase in Cr(VI) in the matrices after the treatment. Hence, the results of this study indicate that ED is an appropriate technique to remediate matrices containing Cr because it contributes to Cr removal, without causing Cr(III)-Cr(VI) interconversions.
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This thesis was focused on the production, extraction and characterization of chitin:β-glucan complex (CGC). In this process, glycerol byproduct from the biodiesel industry was used as carbon source. The selected CGC producing yeast was Komagataella pastoris (formerly known as Pichia pastoris), due the fact that to achieved high cell densities using as carbon source glycerol from the biodiesel industry. Firstly, a screening of K. pastoris strains was performed in shake flask assays, in order to select the strain of K. pastoris with better performance, in terms of growth, using glycerol as a carbon source. K. pastoris strain DSM 70877 achieved higher final cell densities (92-97 g/l), using pure glycerol (99%, w/v) and in glycerol from the biodiesel industry (86%, w/v), respectively, compared to DSM 70382 strain (74-82 g/l). Based on these shake flask assays results, the wild type DSM 70877 strain was selected to proceed for cultivation in a 2 l bioreactor, using glycerol byproduct (40 g/l), as sole carbon source. Biomass production by K. pastoris was performed under controlled temperature and pH (30.0 ºC and 5.0, respectively). More than 100 g/l biomass was obtained in less than 48 h. The yield of biomass on a glycerol basis was 0.55 g/g during the batch phase and 0.63 g/g during the fed-batch phase. In order to optimize the downstream process, by increasing extraction and purification efficiency of CGC from K. pastoris biomass, several assays were performed. It was found that extraction with 5 M NaOH at 65 ºC, during 2 hours, associated to neutralization with HCl, followed by successive washing steps with deionised water until conductivity of ≤20μS/cm, increased CGC purity. The obtained copolymer, CGCpure, had a chitin:glucan molar ratio of 25:75 mol% close to commercial CGC samples extracted from A. niger mycelium, kiOsmetine from Kitozyme (30:70 mol%). CGCpure was characterized by solid-state Nuclear Magnetic Resonance (NMR) spectroscopy and Differential Scanning Calorimetry (DCS), revealing a CGC with higher purity than a CGC commercial (kiOsmetine). In order to optimize CGC production, a set of batch cultivation experiments was performed to evaluate the effect of pH (3.5–6.5) and temperature (20–40 ºC) on the specific cell growth rate, CGC production and polymer composition. Statistical tools (response surface methodology and central composite design) were used. The CGC content in the biomass and the volumetric productivity (rp) were not significantly affected within the tested pH and temperature ranges. In contrast, the effect of pH and temperature on the CGC molar ratio was more pronounced. The highest chitin: β-glucan molar ratio (> 14:86) was obtained for the mid-range pH (4.5-5.8) and temperatures (26–33 ºC). The ability of K. pastoris to synthesize CGC with different molar ratios as a function of pH and temperature is a feature that can be exploited to obtain tailored polymer compositions.(...)
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Succinic acid (SA) is a highly versatile building block that is used in a wide range of industrial applications. The biological production of succinic acid has emerged in the last years as an efficient alternative to the chemical production based on fossil fuels. However, in order to fully replace the competing petro-based chemical process from which it has been produced so far, some challenges remain to be surpassed. In particular, one main obstacle would be to reduce its production costs, mostly associated to the use of refined sugars. The present work is focused on the development of a sustainable and cost-e↵ective microbial production process based on cheap and renewable resources, such as agroindustrial wastes. Hence, glycerol and carob pods were identified as promising feedstocks and used as inexpensive carbon sources for the bioproduction of succinic acid by Actinobacillus succinogenes 130Z, one of the best naturally producing strains. Even though glycerol is a highly available carbon source, as by-product of biodiesel production, its consumption by A. succinogenes is impaired due to a redox imbalance during cell growth. However, the use of an external electron acceptor such as dimethylsulfoxide (DMSO) may improve glycerol metabolism and succinic acid production by this strain. As such, DMSO was tested as a co-substrate for glycerol consumption and concentrations of DMSO between 1 and 4% (v/v) greatly promoted glycerol consumption and SA production by this biocatalyst. Aiming at obtaining higher succinic acid yield and production rate, batch and fed-batch experiments were performed under controlled cultivation conditions. Batch experiments resulted in a succinic acid yield on glycerol of 0.95 g SA/g GLY and a production rate of 2.13 g/L.h, with residual production of acetic and formic acids. In fed-batch experiment, the SA production rate reached 2.31 g/L.h, the highest value reported in the literature for A. succinogenes using glycerol as carbon source. DMSO dramatically improved the conversion of glycerol by A. succinogenes and may be used as a co-substrate, opening new perspectives for the use of glycerol by this biocatalyst. Carob pods, highly available in Portugal as a residue from the locust bean gum industry, contain a significant amount of fermentable sugars such as sucrose, glucose and fructose and were also used as substrate for succinic acid production. Sugar extraction from raw and roasted carobs was optimized varying solid/water ratio and extraction time, maximizing sugar recovery while minimizing the extraction of polyphenols. Kinetic studies of glucose, fructose and sucrose consumption by A. succinogenes as individual carbon sources till 30 g/L were first determined to assess possible metabolic diferences. Results showed no significant diferences related to sugar consumption and SA production between the diferent sugars. Carob pods water extracts were then used as carbon source during controlled batch cultivations. (...)
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Polysaccharides are gaining increasing attention as potential environmental friendly and sustainable building blocks in many fields of the (bio)chemical industry. The microbial production of polysaccharides is envisioned as a promising path, since higher biomass growth rates are possible and therefore higher productivities may be achieved compared to vegetable or animal polysaccharides sources. This Ph.D. thesis focuses on the modeling and optimization of a particular microbial polysaccharide, namely the production of extracellular polysaccharides (EPS) by the bacterial strain Enterobacter A47. Enterobacter A47 was found to be a metabolically versatile organism in terms of its adaptability to complex media, notably capable of achieving high growth rates in media containing glycerol byproduct from the biodiesel industry. However, the industrial implementation of this production process is still hampered due to a largely unoptimized process. Kinetic rates from the bioreactor operation are heavily dependent on operational parameters such as temperature, pH, stirring and aeration rate. The increase of culture broth viscosity is a common feature of this culture and has a major impact on the overall performance. This fact complicates the mathematical modeling of the process, limiting the possibility to understand, control and optimize productivity. In order to tackle this difficulty, data-driven mathematical methodologies such as Artificial Neural Networks can be employed to incorporate additional process data to complement the known mathematical description of the fermentation kinetics. In this Ph.D. thesis, we have adopted such an hybrid modeling framework that enabled the incorporation of temperature, pH and viscosity effects on the fermentation kinetics in order to improve the dynamical modeling and optimization of the process. A model-based optimization method was implemented that enabled to design bioreactor optimal control strategies in the sense of EPS productivity maximization. It is also critical to understand EPS synthesis at the level of the bacterial metabolism, since the production of EPS is a tightly regulated process. Methods of pathway analysis provide a means to unravel the fundamental pathways and their controls in bioprocesses. In the present Ph.D. thesis, a novel methodology called Principal Elementary Mode Analysis (PEMA) was developed and implemented that enabled to identify which cellular fluxes are activated under different conditions of temperature and pH. It is shown that differences in these two parameters affect the chemical composition of EPS, hence they are critical for the regulation of the product synthesis. In future studies, the knowledge provided by PEMA could foster the development of metabolically meaningful control strategies that target the EPS sugar content and oder product quality parameters.