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Estudo da viabilidade econômica entre dois tipos de lâmpadas de baixa pressão : fluorescente e catodo frio / Economic feasibility study between two types of low-pressure lamps : fluorescent and cold cathodeNeves, Gustavo Duarte, 1975- 23 August 2018 (has links)
Orientador: Paulo Sergio Scarazzato / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Civil, Arquitetura e Urbanismo / Made available in DSpace on 2018-08-23T13:21:03Z (GMT). No. of bitstreams: 1
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Previous issue date: 2013 / Resumo: A constante procura por eficiência em projetos de iluminação nas edificações tem envolvido os profissionais da construção civil, engenharias e arquitetura em buscar por informações confiáveis que melhor adéquem às inúmeras fontes de iluminação artificial disponíveis. Este estudo, de maneira cronológica, ilustra a evolução da iluminação nas edificações, considerando seus avanços em diferentes períodos da história. Também apresenta dados analíticos sobre a luz e como a fisiologia do olho humano percebe tais fatores. Devido a sua eficiência luminosa, as lâmpadas fluorescentes têm sido constantemente utilizadas em ambientes que necessitam de grande quantidade de fluxo luminoso e baixo consumo de energia elétrica. Desta forma, este estudo explica o princípio de funcionamento das lâmpadas de descarga de baixa pressão, tanto as fluorescentes tubulares quanto as lâmpadas de catodo frio. Embora pertencentes ao mesmo grupo de lâmpadas, há diferenças entre suas características técnicas - o que, por ventura, pode indicar maior ou menor eficiência em sua aplicação. Tais diferenças são fundamentais para que se possa descrevê-las e compará-las quanto a viabilidade econômica de sua aplicação. Assim, o objetivo deste estudo é apresentar o comparativo de dois tipos de lâmpadas de descarga de baixa pressão - as lâmpadas fluorescentes tubulares e as lâmpadas de catodo frio - quanto a sua eficiência e os benefícios da eventual substituição (retrofit), sem que seja prejudicada a qualidade da iluminação para a realização das tarefas pelos usuários das edificações. Com base nos comparativos técnico (das características peculiares destas lâmpadas) e financeiro (investimento, custos de operação e de manutenção dos sistemas de iluminação), foi possível calcular os índices econômicos como Payback, VPL (Valor Presente Líquido) e TIR (Taxa Interna de Retorno), e dessa forma, oferecer argumentos para tomada de decisão do investidor. E, devido ao seu maior tempo de vida útil e baixo consumo de energia elétrica, como resultado, verifica-se a viabilidade econômica para o catodo frio, com emissão do fluxo luminoso equivalente, indicando o retorno sobre o investimento inicial em 3,5 anos, com taxas de retorno de 34,30%, se considerado o período de vida útil da lâmpada / Abstract: The constant search for efficiency in lighting projects on buildings has involved professionals in the construction, engineering and architecture to look for reliable information that best suit the numerous artificial light sources available. This study, chronologically, illustrates the evolution of lighting in buildings, considering its advances in different periods of history. It also presents analytical data on the light and how the physiology of the human eye perceives these factors. Because of its luminous efficiency, fluorescent lamps have been constantly used in environments that require large amount of luminous flux and low power consumption. Thus, this study explains the operation's principle of low pressure discharge lamps, both as tubular fluorescent lamps and cold cathode. Although belonging to the same lamps' group, there are differences between its technical characteristics - which, perchance, may indicate a greater or lesser efficiency in your application. Such differences are fundamental so that you can describe and compare them as economic feasibility of its application. The objective of this study is to present a comparison of two types of low pressure discharge lamps - fluorescent lamps and cold cathode lamps - as its efficiency and benefits of possible replacement (retrofit), without hampering lighting quality for the building users' tasks. Based on technical (the peculiar characteristics of these lamps) and financial comparative (investment, operating costs and lighting systems maintenance), it was possible to calculate economic index as Payback, NPV (Net Present Value) and IRR (Internal Rate of Return), and thus, provide arguments for investor's decision making. And, due to their longer life span and low power consumption, as a result, there is economic feasibility for the cold cathode, with equivalent lumen emission, indicating the return on the initial investment in 3.5 years with rates of return of 34.30%, considered the lamp life span / Mestrado / Arquitetura, Tecnologia e Cidade / Mestre em Arquitetura, Tecnologia e Cidade
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Low platinum electrodes for proton exchange fuel cells manufactures by reactive spray deposition technologyRoller, Justin 05 1900 (has links)
Reactive spray deposition technology (RSDT) is a method of depositing
films or producing nanopowders through combustion of metal-organic
compounds dissolved in a solvent. This technology produces powders of
controllable size and quality by changing process parameters to control the
stoichiometry of the final product. This results in a low-cost, continuous
production method suitable for producing a wide range of fuel cell related catalyst
films or powders. In this work, the system is modified for direct deposition of both
unsupported and carbon supported layers on proton exchange membrane (PEM)
fuel cells. The cell performance is investigated for platinum loadings of less than
0.15 mg/cm² using a heterogeneous bi-layer consisting of a layer of unsupported
platinum followed by a composite layer of Nafion®, carbon and platinum.
Comparison to more traditional composite cathode architectures is made at
loadings of 0.12 and 0.05 mg platinum/cm². The composition and phase of the
platinum catalyst is confirmed by XPS and XRD analysis while the particle size is
analyzed by TEM microscopy. Cell voltages of 0.60 V at 1 A/cm² using H₂/O₂ at a
loading of 0.053 mg platinum/cm² have been achieved. / Applied Science, Faculty of / Mechanical Engineering, Department of / Graduate
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Bioleaching Potential of Filamentous Fungi to Mobilize Lithium and Cobalt from Spent Rechargeable Li-Ion BatteriesLobos, Aldo 03 November 2017 (has links)
Demand for lithium (Li) and cobalt (Co) is on the rise, due in part to their increased use in rechargeable Li-ion batteries (RLIB). Current recycling processes that utilize chemical leaching efficiently recover in Li and Co from the cathode material in spent batteries; however, these processes are costly and emit hazardous waste into the environment. Therefore, a more sustainable process for recycling Li and Co is needed, and bioleaching may provide a solution. Fungal bioleaching has been shown in previous studies to effectively mobilize metals (Pb, Al, Mn, Cu, and Zn) from mine tailings, electronic scrap, and spent batteries with organic acids. However, little is known regarding fungal tolerance to Li and Co, and if the concentrations of organic acids excreted by fungi can effectively leach Li and Co from the cathode material.
In order to address these questions, experiments were first conducted to test the Li and Co leaching efficiency with organic acids at concentrations similar to what has been previously reported in fungal cultures. The remaining experiments were performed with three fungal species: Aspergillus niger, Penicillium chrysogenum, and Penicillium simplicissimum. First, fungal biomass production, pH and organic acid excretion were examined when the fungi were grown in Czapek dox broth (CDB) or Sabouraud dextrose broth (SDB). Second, fungal biomass production and pH were examined when the fungi were grown in the presence of Li or Co. This determines tolerance of the fungi to the metals, and if fungal processes were inhibited by the metals. Third, bioleaching was performed with cathode material from RLIB in batch cultures to test the ability of organic acids excreted by A. niger to mobilize Li and Co. Three bioleaching strategies, one-step, two-step, and spent-medium leaching techniques were used to mobilize Li and Co from the cathode in RLIB.
Low concentrations of organic acids similar to what is excreted by fungi have not been tested to leach Li and Co from the cathode in RLIB. Results from chemical leaching with low concentrations of organic acids in this study indicate that organic acid leaching efficiency can be increased by utilizing higher concentrations (above 50 mM) of citric or oxalic acid to mobilize Li or Co from the cathode in RLIB. Furthermore, 100 mM of citric acid or 100 mM of oxalic acid mobilized more Co or Li than mixtures of organic acids. Notably the addition of hydrogen peroxide to mixed concentrations of organic acids significantly improved mobilization of Li and Co under abiotic conditions.
Different growth media may alter biomass production and potentially organic acid excretion by the three fungal species. Analysis of biomass production by A. niger and P. simplicissimum showed that differences in media composition between CDB and SDB did not affect collected biomass for each species. However, CDB cultures with P. chrysogenum had significantly less biomass than SDB cultures after 10 days of growth. Differences in growth by P. chrysogenum between CDB and SDB may be attributed to preferred nutrients and/or low pH present in SDB cultures. Biomass production by the three fungi increased up to day 10 in CDB or SDB. This result indicated that nutrients in CDB or SDB were not limiting toward fungal growth. Cultures with A. niger had the highest concentrations of organic acids (50 mM of oxalic acid), followed by cultures with P. simplicissimum (30 mM oxalic acid), and P. chrysogenum (less than 5 mM oxalic acid). Organic acids excreted by all three fungal species were detected in cultures in CDB, while only A. niger and P. chrysogenum excreted organic acids in SDB cultures.
Metals such a Li or Co present in the cathode of RLIB may be toxic to fungal processes when exposed to high metal concentrations. Metal tolerance experiments indicate that biomass production by the three fungi was significantly inhibited by 100 mg/L Co compared to controls, which contained no metal. Li at a concentration of 1000 mg/L inhibited biomass production by A. niger and P. simplicissimum. However, biomass production by P. chrysogenum was not significantly inhibited by 1000 mg/L Li. I found that P. simplicissimum was the most susceptible to toxic effects of Li and Co among the three fungi. In A. niger cultures amended with 100 mg/L Li or Co, pH at day 5 was similar to control cultures of A. niger without metals (pH 3.0 – 3.4), whereas pH was significantly higher in cultures with 1000 mg/L of Li or Co (pH 7.1 – 7.3).
Cultures of A. niger were exposed to the cathode material from RLIB to test the leaching efficiency of excreted organic acids after mobilizing Li and Co. In bioleaching experiments with A. niger, organic acids excreted in the presence of cathode material from RLIB were quantified at concentrations under 50 mM. At the end of bioleaching experiments with A. niger, 40 mM tartaric acid was detected and was the highest produced organic acid in bioleaching cultures. However, with conditions set in this study, organic acids excreted by A. niger mobilized only ̴7% of Co and 20% of Li when using spent medium with cathode material from RLIB. According to findings in chemical leaching experiments, concentrations of organic acids higher than 50 mM will be required in fungal cultures to increase mobilization of Li or Co from the cathode material in RLIB. Modifying growth media to include higher concentrations of sucrose will potentially increase organic acid excretion as demonstrated in previous publications. Future studies should focus on how to maximize organic acid excretion by fungi when exposed to metals found in the cathode of RLIB.
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Designing next generation high energy density lithium-ion battery with manganese orthosilicate-capped alumina nanofilmNdipingwi, Miranda Mengwi January 2015 (has links)
>Magister Scientiae - MSc / In the wide search for advanced materials for next generation lithium-ion batteries, lithium manganese orthosilicate, Li₂MnSiO₄ is increasingly gaining attention as a potential cathode material by virtue of its ability to facilitate the extraction of two lithium ions per formula unit, resulting in a two-electron redox process involving Mn²⁺/Mn³⁺ and Mn³⁺/Mn⁴⁺ redox couples. This property confers on it, a higher theoretical specific capacity of 333 mAhg⁻¹ which is superior to the conventional layered LiCoO₂ at 274 mAhg⁻¹ and the commercially available olivine LiFePO₄ at 170 mAhg⁻¹. Its iron analogue, Li₂FeSiO₄ has only 166 mAhg⁻¹ capacity as the Fe⁴⁺ oxidation state is difficult to access. However, the capacity of Li₂MnSiO₄ is not fully exploited in practical galvanostatic charge-discharge tests due to the instability of the delithiated material which causes excessive polarization during cycling and its low intrinsic electronic conductivity. By reducing the particle size, the electrochemical performance of this material can be enhanced since it increases the surface contact between the electrode and electrolyte and further reduces the diffusion pathway of lithium ions. In this study, a versatile hydrothermal synthetic pathway was employed to produce nanoparticles of Li₂MnSiO₄, by carefully tuning the reaction temperature and the concentration of the metal precursors. The nanostructured cathode material was further coated with a thin film of aluminium oxide in order to modify its structural and electronic properties. The synthesized materials were characterized by microscopic (HRSEM and HRTEM), spectroscopic (FTIR, XRD, SS-NMR, XPS) and electrochemical techniques (CV, SWV and EIS). Microscopic techniques revealed spherical morphologies with particle sizes in the range of 21-90 nm. Elemental distribution maps obtained from HRSEM for the novel cathode material showed an even distribution of elements which will facilitate the removal/insertion of Li-ions and electrons out/into the cathode material. Spectroscopic results (FTIR) revealed the vibration of the Si-Mn-O linkage, ascertaining the complete insertion of Mn ions into the SiO₄⁴⁻ tetrahedra. XRD and ⁷Li MAS NMR studies confirmed a Pmn21 orthorhombic crystal pattern for the pristine Li₂MnSiO₄ and novel Li₂MnSiO₄/Al₂O₃ which is reported to provide the simplest migratory pathway for Li-ions due to the high symmetrical equivalence of all Li sites in the unit cell, thus leading to high electrochemical reversibility and an enhancement in the overall performance of the cathode materials. The divalent state of manganese present in Li₂Mn²⁺SiO₄ was confirmed by XPS surface analysis. Scan rate studies performed on the novel cathode material showed a quasi-reversible electron transfer process. The novel cathode material demonstrated superior electrochemical performance over the pristine material. Charge/discharge capacity values calculated from the cyclic voltammograms of the novel and pristine cathode materials showed a higher charge and discharge capacity of 209 mAh/g and 107 mAh/g for the novel cathode material compared to 159 mAh/g and 68 mAh/g for the pristine material. The diffusion coefficient was one order of magnitude higher for the novel cathode material (3.06 x10⁻⁶ cm2s⁻¹) than that of the pristine material (6.79 x 10⁻⁷ cm2s⁻¹), with a charge transfer resistance of 1389 Ω and time constant (τ) of 1414.4 s rad⁻¹ for the novel cathode material compared to 1549 Ω and 1584.4 s rad-1 for the pristine material. The higher electrochemical performance of the novel Li₂MnSiO₄/All₂O₃ cathode material over the pristine Li₂MnSiO₄ material can be attributed to the alumina nanoparticle surface coating which considerably reduced the structural instability intrinsic to the pristine Li₂MnSiO₄ cathode material and improved the charge transfer kinetics.
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Etude expérimentale et simulation des micro-plasmas générés dans des micro-cathodes creuses / Experimental characterization and simulation of micro hollow cathode dischargesDufour, Thierry 27 November 2009 (has links)
Les micro-plasmas constituent une technologie d'avenir pour des applications aussi nombreuses que diverses : dépollution, traitement de surface, applications bio-médicales, accélération aérodynamique... Nous avons étudié ces micro-plasmas dans des gaz inertes (hélium ou argon), en les alimentant en courant continu dans des structures de type micro-cathode creuse. Afin de comprendre les mécanismes physiques régissant leur comportement, nous les avons caractérisés par plusieurs diagnostics, notamment par caméra ICCD et par spectrométrie d'émission optique. Ce dernier diagnostic nous a permis de déterminer la température du gaz des micro-plasmas, par l’analyse de la structure rovibrationnelle des raies du second système positif de l’azote (présent à l’état de traces), mais aussi d’effectuer des mesures de densité électronique, en analysant l’élargissement Stark de la raie H béta. Ces paramètres physiques obtenus expérimentalement, ont été comparés à leurs équivalents obtenus par simulation (logiciel GdSIM du laboratoire Laplace). Ce travail de thèse a également permis de montrer la possibilité d’atteindre le régime luminescent anormal d’un micro-plasma, en réduisant l’aire de la surface cathodique extérieure de la micro-cathode creuse. Ce régime de fonctionnement s’accompagne d’une hausse rapide de la température du gaz, ainsi que d’un phénomène d’hystérésis qui apparaît sur une courbe I-V, pour une rampe d’alimentation en courant linéairement croissante puis décroissante. Dans le cas de plusieurs micro-plasmas fonctionnant en parallèle, nous avons mis à jour un nouveau mécanisme, expliquant l’allumage des cavités de proche en proche. / The micro-plasmas are a promising technology for a lot of applications: environmental remediation, surface treatment, bio-medical applications, aerodynamic acceleration ... Our micro-plasmas are generated in microhollow cathode (M.H.C) structures, supplied by direct current and studied in rare gases (helium or argon). To understand the physical mechanisms ruling their behaviour, they have been characterized by several diagnostics, especially ICCD camera and optical emission spectroscopy. This last diagnostic has been used to determine the micro-plasma gas tempe rature , by analysing the bands 1.3 and 0.2 (from the second . positive system of nitrogen). but also to measure the electron density by analyzing the Stark broadening of the H beta line. We have also carried out simulations with a fully fluid model to obtain the spatial profiles of the electric field, the charge species densities and the gas temperature. Thus, we have studied the breakdown, the self-pulsing regime and the normal glow regime of our micro-plasmas. We have also demonstrated that a micro-plasma can work in the ab normal glow regime, at the condition to limit the cathode surface of the micro-device. For increasing values of curre nt. this abnormal glow regime is accompanied by a fast increase of the gas temperature. Moreove r, when the micro-plasma is supplied by a linear increasing-decreasing DC voltage ramp, this regime is accompanied by the formation of a hysteresis phenome non. At last, in the case of a micro-devi ce with severa 1micro-ho 1I0wcathodes in parallel, we exp lain how the cathode limitation favours the parallel ignition and is an alternative issue to the individual ballasting.
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Analysis of Crystal and Electronic Structures of Next Generation Cathode Materials / 次世代正極材料の結晶構造及び電子構造の解析Watanabe, Aruto 23 March 2020 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(人間・環境学) / 甲第22549号 / 人博第952号 / 新制||人||226(附属図書館) / 2019||人博||952(吉田南総合図書館) / 京都大学大学院人間・環境学研究科相関環境学専攻 / (主査)教授 内本 喜晴, 教授 吉田 寿雄, 准教授 戸﨑 充男 / 学位規則第4条第1項該当 / Doctor of Human and Environmental Studies / Kyoto University / DFAM
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Nízkoteplotní palivový článek pro ultralehký letoun / Low temperature fuel cell for ultra-light-planeHladiš, Lukáš January 2013 (has links)
This thesis deals with the concept of propulsion for ultralight plane with using fuel cells technology. Here are described the individual kinds of fuel cells and possible fuel. Furthermore it is listed the calculation of low-temperature fuel cell H2 - O2 with polymeric membrane (PEM). The thesis includes also a part with the design drawings of the proposed solutions.
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Studie stability elektrolytů a elektrod pomocí elektrochemických metod / Study of stability of electrolytes and electrodes by electrochemical methodsBukáčková, Ivana January 2016 (has links)
This master´s thesis deals with stability of electrolytes and electrodes using electrochemical methods of Li-ion batteries. The first part of the project is devoted to the characteristics of Li-ion batteries, electrochemical reactions and characteristics of electrode materials. Consenquetial part is concentrated on preparation and measurement of elektrolyte EC : DMC with 1M LiPF6. The elektrolyte was investigated using galvanostatic method, cyclic voltammetry and impedance spectroscopy.
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Diagnostika technologického plazmatu / Diagnostics of plasmas for technological applicationsTurek, Zdeněk January 2020 (has links)
The subject of the master thesis is the extension of the measurement of plasma para- meters by the Langmuir probe in a system with a planar magnetron and a hollow cathode operating in pulse mode. The main tasks are to modify the measuring circuit to increase the maximum probe current and to put the USB oscilloscope into operation for data collection with higher resolution and higher sampling rate. Furthermore, the function of the entire device will be verified using test circuits and also by measuring the probe characteristics in discharges in a system with a magnetron and a hollow cathode in both continuous and pulse mode. 1
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Deburring and Edge Shaping by Electrochemical Machining with Differentially Switched CurrentsPetzold, Tom, Hackert-Oschätzchen, Matthias, Martin, André, Schubert, Andreas 27 October 2020 (has links)
Manufacturing of components with complex internal features, e.g. for medical applications, aeronautics or automobile industry, is challenging. Those components are often machined in temporarily and locally separated production stages. As results of these separated stages form deviations and positioning errors increase, which lead to additional efforts for the quality assurance.
The technology aimed within the project SwitchECM is expected to allow the machining of different complex features of one workpiece in one single production stage and shall simultaneously allow a high precision. For this purpose, a multi-cathode system will be developed, in which separated cathodes can be switched with specific parameters, depending on the requirements of the pre-defined features.
This study will show the capability to machine the workpiece with different parameter sets but the same cathode and device as fundamental work for the machining with a multi-cathode system. Therefore the surface and dissolution characteristics for the material 1.4301 were used to design the process. The machining tasks were determined to deburring and edge shaping. In the experiments, the parameters voltage and working time were selected depending on the final geometry. It will be shown that the deburring task can be handled with nearly no edge shaping and the edge shaping task is suitable to adjust different edge geometries.
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