Global ETD Search

181	Avaliação da espectrometria de absorção atômica com atomização eletrotérmica em filamento de tungstênio para determinação de arsênio em águas / Evaluation of eletrothermal atomic absorption spectrometry with tungsten coil for the direct determination of arsenic in waters Antonio, Rosana Fernandes 19 September 2008 (has links) A determinação direta de arsênio total em águas por espectrometria de absorção atômica com filamentos de tungstênio (150 W) modificados quimicamente com irídio ou ródio, representa uma alternativa para a atomização eletrotérmica de arsênio, que foi avaliada na presente dissertação. A utilização do revestimento com Ir como modificador químico proporcionou um aumento da massa característica de arsênio de 3,5 vezes. As medidas foram feitas com altura de observação selecionada para proporcionar a melhor razão sinal/ruído sem diminuir a sensibilidade do sinal analítico. Avaliaram-se dois programas de aquecimento: com temperatura de secagem constante (com diminuição gradativa da tensão aplicada) e com temperatura de secagem variável (com tensão aplicada de maneira constante). Não houve diferença na sensibilidade entre os dois programas estudados, indicando que a modificação química leva à formação de um precursor atômico com estabilidade térmica elevada. De fato, utilizando-se a modificação química permanente com 1000 müg Ir, e adotando-se programa de aquecimento com temperatura de secagem variável, a temperatura máxima de pirólise foi de aproximadamente 1700 °C ( temperatura de atomização de 2700 °C). Avaliou-se o comportamento eletrotérmico do As na presença dos concomitantes Na, K, Ca e Mg em 0,1% v/v HNO3. Interferências mais severas foram observadas na presença de cálcio acima de 10 \'mü\'g l-1, e acima de 100 \'mü\'g l-1 para os demais concomitantes. As interferências podem estar relacionadas com o elevado gradiente de temperatura entre a superfície do filamento e a fase gasosa do volume de observação, ou mesmo devido à formação de compostos refratários, particularmente para Ca e Mg, na fase condensada, ou seja, na superfície do atomizador. O emprego do método das médias móveis no tratamento dos sinais transientes gerados na atomização do arsênio também foi avaliada. Com o filamento posicionado na altura de observação 2 mm, foram utilizados os fatores 0, 3, 5, 7 e 9, observando-se melhora considerável nos limites de detecção instrumental e do método,utilizando-se média móvel com fator 7. Nestas condições, e depositando-se 20 \'mü\'l de amostra sobre o filamento, o limite de detecção foi de 3,2 \'mü\'g l-1 As e a massa característica de 37,0 pg As. A exatidão foi avaliada analisando-se diferentes amostras de águas provenientes da região do Quadrilátero Ferrífero do Estado de Minas Gerais, por espectrometria de fluorescência atômica com geração de hidretos e por espectrometria de absorção atômica com o filamento de tungstênio modificado com Ir. A comparação dos resultados mostrou que o método proposto pode ser utilizado para o controle de qualidade de águas desta região. Aproximadamente 150 queimas podem ser feitas com um único filamento de tungstênio / The direct determination of arsenic in waters by atomic absorption spectrometry with 150 W tungsten coils, treated with Ir or Rh, was evaluated as a possible alternative for the eletrothermal atomization of As. The use of iridium as a permanent chemical modifier did improve the characteristic mass of arsenic by 3.5 fold. Measurements were made by choosing an appropriate observation height in order to get the best signal to noise ratio. Two heating programs were tested, either by keeping the applied voltage constant or by using an inverted voltage ramp during the drying step. There were no significant differences in the sensitivities between both heating programs, indicating that the permanent modification lead to the formation of an atomic precursor of high thermal stability. Indeed, with the permanent chemical modification with 1000 \'mü\'g Ir, the maximum pyrolysis temperature was approximately 1700 °C (atomization temperature 2700 °C), allowing a heating program with temperature variation during the drying step. Method selectivity was carried out by evaluating the eletrothermal behavior of As in the presence of up to 1000 \'mü\'g l-1 Na, K, Ca and/or Mg in 0,1% v/v HNO3. The most serious interferences were observed with Ca in concentrations higher than 10 \'mü\'g l-1 and when the concentrations were higher than 100 \'mü\'g l-1 for Na, K or Mg, which can be attributed either to the gradient of temperature between the surface of the atomizer and the observation volume or to the formation of refractory compounds in the condensed phase, particularly with Ca and Mg. The absorbance transient signals treatment by the method of moving averages up to factor 9 was also evaluated, with a remarkable improvement in the instrumental and method detection limits. With the center of the observation volume 2 mm above the tungsten coil surface, and a moving average of factor 7, the limit of detection was 3,2 \'müg\' l-1 As and the characteristic mass 37,0 pg As. Accuracy was evaluate by analysing water samples collected in a contaminated area from the Quadrilátero Ferrífero, Minas Gerais State, by hydride generation atomic fluorescence spectrometry and by tungsten coil eletrothermal atomic absorption spectrometry. Results showed that the proposed method fits for the purpose of CONAMA 357 regulation for drinking water quality in the aforementioned contaminated area. Approximately 150 firings can be done with a single tungsten coil atomizer by using 20 \'mü\'l sample volume Aguas Arsenic Arsênio Atomic absorption spectrometry Atomização eletrotérmica Electrothermal atomization Espectrometria de absorção atômica Filamento de tungstênio Modificação permanente Permanent modifiers Tungsten coil Waters
182	Application of Computational Thermodynamic and Solidification Kinetics to Cold Sprayable Powder Alloy Design Belsito, Danielle L 14 January 2014 (has links) Military aircraft that require high maneuverability, durability, ballistic protection, reparability, and energy efficiency require structural alloys with low density, high toughness, and high strength. Also, repairs to these aircraft demand a production process that has the flexibility to be relatively in-situ with the same high-performance output. Materials produced by the cold spray process, a thermo-mechanical powder consolidation technique, meet many of the requirements. In accordance with President Obamaâ€™s 2011 Materials Genome Initiative, the focus of this effort is to design customized aluminum alloy powders which exploit the unique behavior and properties of the materials created by the cold spray process. Analytical and computational models are used to customize microchemistry, thermal conditioning, and solidification behavior of the powders by predicting equilibrium and non-equilibrium microstructure and resulting materials properties and performance. Thermodynamic, kinetic, and solidification models are used, including commercial software packages Thermo-Calc, Pandatâ„¢, and JMatProÂ®, and TC-PRISMA. Predicted powder properties can be used as input into a cold spray process impact model to determine the consolidated materialsâ€™ properties. Mechanical properties of powder particles are predicted as a function of powder particle diameter and are compared to experimental results. through process modeling CCT diagram elemental impact factor thermodynamics kinetics solidification modeling powder mechanical properties newtonian heat flow cold spray TTT diagram powder production atomization equilibrium calculations
183	CHARACTERIZATION OF SECONDARY ATOMIZATION AT HIGH OHNESORGE NUMBERS Vishnu Radhakrishna (5930801) 16 January 2019 (has links) <p>A droplet subjected to external aerodynamic disturbances disintegrates into smaller droplets and is known as secondary atomization. Droplet breakup has been studied for low Ohnesorge (<b><i>Oh < </i></b>0.1) numbers and good agreement has been seen amongst researchers. However, when it comes to cases with high the <b><i>Oh</i></b> number, i.e. atomization where the influence of viscosity is significant, very little data is available in the literature and poor agreement is seen amongst researchers. </p> <p> </p> <p>This thesis presents a complete analysis of the modes of deformation and breakup exhibited by a droplet subjected to continuous air flow. New modes of breakup have been introduced and an intermediate case with no droplet fragmentation has been discovered. Further, results are presented for droplet size-velocity distributions. In addition, Digital in-line holography (DIH) was utilized to quantify the size-velocity pdfs using a hybrid algorithm. Finally, particle image velocimetry (PIV) was employed to characterize the air flow in the unique cases where drops exhibited no breakup and cases with multiple bag formation. </p> <p> </p> <p>A droplet subjected to external aerodynamic disturbances disintegrates into smaller droplets and is known as secondary atomization. Secondary breakup finds relevance is almost every industry that utilizes sprays for their application. </p> <p> </p> Aerospace Engineering Mechanical Engineering Medical Devices Fluidisation and Fluid Mechanics Secondary Atomization Ohnesorge Number Weber Number Digital In-line Holography Particle Image Velocimetry (PIV)
184	Análise teórico-experimental do escoamento bifásico no interior de bocais nebulizadores do tipo \"Y - JET\". / Experimental and theoretical analysis of the two-phase flow inside Y-jet atomizers. Antonio Luiz Pacifico 04 May 2000 (has links) Neste trabalho de pesquisa foram estudados os efeitos dos parâmetros geométricos e de processo nas características do escoamento bifásico no interior de oito bocais nebulizadores do tipo \"Y-Jet\" através de uma bancada de análise experimental utilizando-se como fluidos de trabalho ar comprimido e água. Os resultados indicaram que as vazões mássicas são altamente dependentes da pressão de suprimento de ar e da relação entre os diâmetros do duto de mistura e do bocal de alimentação de ar. Em muitas situações de operação, esses dispositivos nebulizadores operavam com o escoamento de ar blocado à saída do seu bocal de alimentação. Outro aspecto importante é que, devido a fortes irreversibilidades inerentes ao padrão de escoamento, a expansão do fluxo de ar do seu bocal de alimentação para o duto de mistura aproxima-se muito mais de uma expansão isoentálpica que isoentrópica. Para fluxos mássicos de água superiores a 6000 kg/m2.s a distribuição de pressão no interior do duto de mistura é praticamente linear, independentemente do valor da pressão de alimentação de ar. Uma correlação para a previsão do valor da pressão no ponto de mistura entre os fluxos de ar e água dentro do duto de mistura foi desenvolvida e mostrou-se adequada para valores dentro da faixa de variação de cada parâmetro no experimento. Através de um aparato óptico buscou-se a medição da espessura média local de filme de líquido e da velocidade das perturbações na interface ar/água. Os resultados para a medição da espessura de filme mostraram-se sensivelmente dispersos, apontando para um melhor desenvolvimento dessas técnicas ópticas em futuros trabalhos. Quanto às velocidades das perturbações os resultados indicaram um razoável aumento destas conforme o escoamento se aproxima da saída do duto de mistura. Para todos os oito bocais ensaiados o valor médio destas velocidades, à saída do duto de mistura, situou-se em torno de 60 a 65 m/s. Um modelo teórico-experimental, baseado na medição da queda de pressão no interior do duto de mistura desses bocais, foi desenvolvido. Através desse modelo foi possível prever, localmente, a espessura e a velocidade médias de filme de líquido, a fração de entranhamento, a tensão de cisalhamento na interface ar/água, a fração de vazio e a velocidade média do ar no núcleo do escoamento. / In this research work the effects of the process and geometrical parameters on the characteristics of the internal two-phase flow inside eight Y-Jet atomizers were studied using an apparatus working with air and water. The results show that the flow rates are very dependent on the air supply pressure and the diameter ratio of the mixing duct and the air port. It was also verified that, in many operational conditions, these atomizers worked in the critical condition at the exit of the air port. Due to the strong irreversibilities present in the flow, the expansion from the air port to the mixing duct is closer to an isoenthalpic process than to an isoentropic process. For water mass flux greater than 6000 kg/m2.s, the pressure distribution into the mixing duct is most of the time linear, independently on the air supply pressure. A correlation to predict the mixing point pressure was developed and showed a good agreement with the experimental data. Using an optical apparatus it was measured the local liquid film thickness and the perturbations velocities on the air/water interface. The results for the liquid film showed a reasonable data dispersion. Concerning the perturbation velocities the results indicated that they increase along the mixing duct. For the eight atomizers tested the mean values of these velocities, near the mixing duct exit, were around 60 to 65 m/s. A theoretical-experimental model which uses the pressure drop measured inside the mixing duct was developed to predict locally the mean liquid film velocity and thickness, the entrainment fraction, the shear stress on the air/water interface, the void fraction and the mean air velocity in the flow core. atomização bocais nebulizadores ´y-jet´ escoamento bifásico anular medição por técnicas ópticas atomization measurements using optical techniques two-phase annular flow y-jet atomizers
185	Avaliação da espectrometria de absorção atômica com atomização eletrotérmica em filamento de tungstênio para determinação de arsênio em águas / Evaluation of eletrothermal atomic absorption spectrometry with tungsten coil for the direct determination of arsenic in waters Rosana Fernandes Antonio 19 September 2008 (has links) A determinação direta de arsênio total em águas por espectrometria de absorção atômica com filamentos de tungstênio (150 W) modificados quimicamente com irídio ou ródio, representa uma alternativa para a atomização eletrotérmica de arsênio, que foi avaliada na presente dissertação. A utilização do revestimento com Ir como modificador químico proporcionou um aumento da massa característica de arsênio de 3,5 vezes. As medidas foram feitas com altura de observação selecionada para proporcionar a melhor razão sinal/ruído sem diminuir a sensibilidade do sinal analítico. Avaliaram-se dois programas de aquecimento: com temperatura de secagem constante (com diminuição gradativa da tensão aplicada) e com temperatura de secagem variável (com tensão aplicada de maneira constante). Não houve diferença na sensibilidade entre os dois programas estudados, indicando que a modificação química leva à formação de um precursor atômico com estabilidade térmica elevada. De fato, utilizando-se a modificação química permanente com 1000 müg Ir, e adotando-se programa de aquecimento com temperatura de secagem variável, a temperatura máxima de pirólise foi de aproximadamente 1700 °C ( temperatura de atomização de 2700 °C). Avaliou-se o comportamento eletrotérmico do As na presença dos concomitantes Na, K, Ca e Mg em 0,1% v/v HNO3. Interferências mais severas foram observadas na presença de cálcio acima de 10 \'mü\'g l-1, e acima de 100 \'mü\'g l-1 para os demais concomitantes. As interferências podem estar relacionadas com o elevado gradiente de temperatura entre a superfície do filamento e a fase gasosa do volume de observação, ou mesmo devido à formação de compostos refratários, particularmente para Ca e Mg, na fase condensada, ou seja, na superfície do atomizador. O emprego do método das médias móveis no tratamento dos sinais transientes gerados na atomização do arsênio também foi avaliada. Com o filamento posicionado na altura de observação 2 mm, foram utilizados os fatores 0, 3, 5, 7 e 9, observando-se melhora considerável nos limites de detecção instrumental e do método,utilizando-se média móvel com fator 7. Nestas condições, e depositando-se 20 \'mü\'l de amostra sobre o filamento, o limite de detecção foi de 3,2 \'mü\'g l-1 As e a massa característica de 37,0 pg As. A exatidão foi avaliada analisando-se diferentes amostras de águas provenientes da região do Quadrilátero Ferrífero do Estado de Minas Gerais, por espectrometria de fluorescência atômica com geração de hidretos e por espectrometria de absorção atômica com o filamento de tungstênio modificado com Ir. A comparação dos resultados mostrou que o método proposto pode ser utilizado para o controle de qualidade de águas desta região. Aproximadamente 150 queimas podem ser feitas com um único filamento de tungstênio / The direct determination of arsenic in waters by atomic absorption spectrometry with 150 W tungsten coils, treated with Ir or Rh, was evaluated as a possible alternative for the eletrothermal atomization of As. The use of iridium as a permanent chemical modifier did improve the characteristic mass of arsenic by 3.5 fold. Measurements were made by choosing an appropriate observation height in order to get the best signal to noise ratio. Two heating programs were tested, either by keeping the applied voltage constant or by using an inverted voltage ramp during the drying step. There were no significant differences in the sensitivities between both heating programs, indicating that the permanent modification lead to the formation of an atomic precursor of high thermal stability. Indeed, with the permanent chemical modification with 1000 \'mü\'g Ir, the maximum pyrolysis temperature was approximately 1700 °C (atomization temperature 2700 °C), allowing a heating program with temperature variation during the drying step. Method selectivity was carried out by evaluating the eletrothermal behavior of As in the presence of up to 1000 \'mü\'g l-1 Na, K, Ca and/or Mg in 0,1% v/v HNO3. The most serious interferences were observed with Ca in concentrations higher than 10 \'mü\'g l-1 and when the concentrations were higher than 100 \'mü\'g l-1 for Na, K or Mg, which can be attributed either to the gradient of temperature between the surface of the atomizer and the observation volume or to the formation of refractory compounds in the condensed phase, particularly with Ca and Mg. The absorbance transient signals treatment by the method of moving averages up to factor 9 was also evaluated, with a remarkable improvement in the instrumental and method detection limits. With the center of the observation volume 2 mm above the tungsten coil surface, and a moving average of factor 7, the limit of detection was 3,2 \'müg\' l-1 As and the characteristic mass 37,0 pg As. Accuracy was evaluate by analysing water samples collected in a contaminated area from the Quadrilátero Ferrífero, Minas Gerais State, by hydride generation atomic fluorescence spectrometry and by tungsten coil eletrothermal atomic absorption spectrometry. Results showed that the proposed method fits for the purpose of CONAMA 357 regulation for drinking water quality in the aforementioned contaminated area. Approximately 150 firings can be done with a single tungsten coil atomizer by using 20 \'mü\'l sample volume Aguas Arsênio Atomização eletrotérmica Espectrometria de absorção atômica Filamento de tungstênio Modificação permanente Arsenic Atomic absorption spectrometry Electrothermal atomization Permanent modifiers Tungsten coil Waters
186	Estudo da melhoria do desempenho de sistemas de resfriamento evaporativo por micro aspersão de água / Study of improvement the evaporative cooling system performance by water misting systems Zapaterra, Cássio Luiz Ianni 29 September 2016 (has links) Disponibilidade dos recursos energéticos junto com o despertar da consciência ambiental criaram um interesse por uma condição climática sensível compatível com os recursos disponíveis. Dentro desse cenário o trabalho se volta à necessidade de se criarem e manterem ambientes industriais termicamente adequados aos processos de produção para minimizar as interferências que as condições ambientais exercem sobre os custos dos processos de produtivos e sobre o consumo energético. Os sistemas de resfriamento evaporativo, por sua vez, têm sido a ferramenta de maior potencial de aplicação na criação de ambientes termicamente adequados aos processos. Este modelo revisto de conforto térmico nos coloca um passo à frente para o aumento eficiência energética na construção de projeto de climatização vinculados a temperaturas interiores que atendam conjuntamente tanto aos ocupantes como às atividades que desenvolvem no interior da área climatizada. Apesar de esse sistema apresentar vantagens operacionais, quando comparado a outros sistemas convencionais, existem certas limitações no seu desempenho. Uma das maiores dificuldades das instalações destes sistemas reside na existência de incertezas em qualquer resultado. Possibilitar um controle dos parâmetros, minimizando os erros de aplicação, evitando criar no ambiente um desconforto de tal grau que inviabilize sua aplicação, é o fundamento deste trabalho. A busca passa a ser pela garantia da aceitabilidade dos resultados do sistema projetado e seus limites de aplicabilidade. O estudo das variáveis que interferem no processo do resfriamento por micro aspersão permitiu desenvolver um processo que alterara esses parâmetros durante o funcionamento do sistema, interferindo, conforme a necessidade no seu desempenho, garantindo a completa evaporação da água micro aspergida. / Energy resources along with an environmental conscience awakening has created an interest in sensitive climate together with a more understanding regarding the use of available resources. Inside this scenario our work focus on the needs of creating and maintaining industrial environments thermally suited to these production processes that seeking to minimize interference that environmental conditions have on the costs of production processes and energy consumption. Evaporative cooling systems, in turn, has been a interesting tool to be used in the creation of thermally suitable environments to these processes. This new revised thermal comfort model puts us a step forward to increase energy efficiency in elaborating air treatment projects linked to indoor temperatures that meet both the occupants and the activities that develop inside the controlled area. Although this system has operational advantages when compared to other conventional systems, there are some limitations in their performance. A major difficulty of the installation envolving these systems is about the existence of uncertainty in any results. To allow the control of these parameters in order to minimize the errors in this kind of application and to avoid creating environmental discomfort to such a degree that prevent the implementation, it is the foundation of this work. The search is to ensure the acceptability of the results of the system designed and their limits of applicability. The study of the variables that affect the cooling process by misting allowed us to develop a process that altered these parameters during operation of the system, interfering, as required in its performance, ensuring complete evaporation of water applied by misting in the area. Adiabatic cooling Air treatment Atomização Atomization Climatização Conforto térmico Evaporative cooling Heat and mass transfer Micro aspersão Mist system Resfriamento adiabático Resfriamento evaporativo Thermal comfort Transferência de calor e massa
187	Contribution à la compréhension et à la maîtrise du procédé d'atomisation de jets métalliques liquides / Contribution to the understanding and control of the process of liquid metal atomization jets Khatim, Othmane 22 July 2011 (has links) La demande croissante de poudres d‟alliages métalliques aux propriétés spécifiques utilisées en particulier en projection thermique et fabrication rapide pousse les chercheurs à améliorer et à optimiser sans cesse les procédés de production de ces poudres. L‟objectif affiché sur ces procédés est de maîtriser à la fois morphologie/ distribution de taille des particules produites et coût de fabrication. Actuellement, la majorité de ces poudres est produite par des procédés d‟atomisation par fluide et essentiellement par le procédé d‟atomisation gazeuse. Parmi ces procédés, le procédé Nanoval utilisant une buse «De Laval» est l‟un des plus performants en termes de distribution granulométrique et de rendement.L‟objectif principal de ce travail de thèse vise à améliorer la compréhension des phénomènes physiques mis en jeu par le procédé Nanoval afin d‟en optimiser le fonctionnement. Deux approches composent ce travail :- une partie numérique de modélisation sous Fluent. Deux modèles ont été étudiés, un modèle monophasique relatif à l‟écoulement gazeux dans l‟unité d‟atomisation (passage de l‟autoclave à la chambre d‟atomisation) et un modèle diphasique relatif à la constriction du filament de métal liquide en sortie de buse de coulée. Cette étude numérique a permis de mettre en évidence l‟effet des paramètres opératoires tels que la pression d‟atomisation et le diamètre de la buse de coulée sur la dynamique du jet de gaz, sur la striction du filament de métal liquide ainsi que les zones de forte pression et de haute vitesse avant, pendant et après la désintégration du filament métallique.- une partie expérimentale pour laquelle la mise en place d‟outils de diagnostic in–situ a été nécessaire pour la caractérisation du procédé en cours de fonctionnement. Trois analyses ont été conduites. La première renseigne de la dynamique du jet d‟atomisation évaluée à partir de mesures de Vélocimétrie par Images de Particules (PIV) à proximité de la sortie de la buse De Laval. La deuxième concerne les caractéristiques à l‟écrasement des particules sur un substrat placé dans la chambre d‟atomisation. La troisième et dernière analyse porte sur les propriétés des particules produites et la comparaison avec la matière récupérée après refroidissement dans l‟autoclave. Différents paramètres opératoires ont été explorés (pression d‟atomisation, diamètre de la buse de coulée, pression dans la chambre d‟atomisation, nature du métal) et reliés à leur influence sur la vitesse et le diamètre des particules. Des relations directes entre les résultats de ces trois analyses ont pu être démontrées ainsi qu‟une bonne adéquation entre résultats expérimentaux et résultats issus de la modélisation. / The growing demand for metal alloy powders with specific properties used in thermal spray application and rapid manufacturing encourages researchers to improve and optimize their manufacturing processes. The aim of these processes is to master both morphology/particle size distribution and manufacturing cost. Today the vast majority of powders are produced by fluid atomization and mainly gas atomization process. Among them, the Nanoval process, consisting of a De Laval nozzle is one of the most outstanding process in terms of granulometric distribution and output.The main objective of this thesis is to improve the understanding of the physical phenomena occurring in the Nanoval process to optimize the way it operates. Two approaches will be developed:- A numerical study using Fluent. The two following models were studied, one monophasic concerning gas flow in the atomization unit form autoclave to atomization chamber and the other, a diphasic model concerning the finest part of the filament in the exit of the melt nozzle. This numerical study has highlighted the effect of parameters such as atomization pressure, nozzle diameter on the gas dynamics, fine filament, high-pressure and high speed areas before, during the process and after the disintegration of the metallic filament.- And an experimental study which required the implementation of the in-situ diagnosticTools to characterize the process under working conditions. Three analyses were carried out. The first concerns the dynamics of the atomization jet from Velocimetry measures by Particle Image Velocimetry (PIV) close to De Laval nozzle exit. The second deals with the characteristics obtained when particles impact the substrate in the atomization chamber. The third describes the particle properties and deals with the comparison with the matter in the autoclave after cooling process. Different operating parameters were explored (atomization pressure, melt nozzle diameter, pressure in the atomization chamber, nature of metal) and linked to their influence on the particle velocity and diameter. Narrow links between the analysis results were demonstrated as well as a good adequacy between experimental and modeling results. Atomisation gazeuse Procédé Nanoval® Modélisation Ecrasements Poudres d’alliages métalliques Gas atomization Nanoval process ® Velocimetry measures Particle Image Velocimetry (PIV) Splats Metal alloy powders
188	Production And Characterization Of High Performance Al &amp / #8211 / Fe &amp / #8211 / V &amp / #8211 / Si Alloys For Elevated Temperature Applications Sayilgan, Seda 01 June 2009 (has links) (PDF) In the present study, the powder metallurgy was evaluated as a technique to produce high performance Al &amp / #8211 / 8Fe &amp / #8211 / 1.7V &amp / #8211 / 7.9Si (wt%) alloys for elevated temperature applications and the role of powder particle size range and extrusion ratio in the microstructural and mechanical properties of the extruded alloys was investigated. For this purpose, an air atomization method was employed to produce powders of the high temperature alloy and after that the produced powders were sieved and cold compacted. The compacted billets were subsequently hot extruded at 450 &amp / #8211 / 480 &deg / C. Five selected ranges of powders which were different in particle size (&amp / #8722 / 2000+212 &amp / #956 / m, &amp / #8722 / 212+150 &amp / #956 / m, &amp / #8722 / 150+106 &amp / #956 / m, &amp / #8722 / 106+90 &amp / #956 / m, and &amp / #8722 / 90 &amp / #956 / m) and three different extrusion ratios (144:1, 81:1, and 26:1) were used in this study. In the first part of the thesis, microstructure and thermal stability of as &amp / #8211 / air atomized powders were described. &amp / #945 / &amp / #8211 / Al matrix and &amp / #945 / &amp / #8211 / Al13(Fe, V)3Si phases were characterized in all rapidly solidified powders by XRD. The fraction of the intermetallic phases was reduced as the powder particle size increased. DTA analysis revealed an exothermic reaction at 581 &deg / C in all alloy powders of different size fractions. In the second part of the study, the effect of powder particle size and extrusion ratio on microstructural and mechanical properties (at different temperatures) of the extruded alloys was investigated. The results showed that decrease in powder particle size and increase in extrusion ratio refined the microstructure and improved the mechanical properties. It was revealed that the effect of powder size was more evident than that of extrusion ratio. Remarkable increases in mechanical properties (e.g. 60.7% increase in ultimate tensile strength at 250 &deg / C) were observed as a result of rapid solidification process (atomization) and hot extrusion. TN Metallurgy 600-799 Al &amp #8211 Fe &amp #8211 V &amp #8211
189	Studies On Impinging-Jet Atomizers Gadgil, Hrishikesh Prabhakar 01 1900 (has links) Characteristics of impinging-jet atomizers in the context of application in liquid propulsion systems are studied in this thesis. A review of past studies on impinging jets revealed the necessity of a correlation in terms of injector parameters for predicting Sauter Mean Diameter (SMD) of a spray. So, an experimental study of atomization in doublet and triplet impinging jet injectors is conducted using water as the stimulant? The major injector parameters considered are orifice diameter, impingement angle and jet velocity. Relative influences of these parameters are explained in terms of a single parameter, specific normal momentum. SMD of the spray reduces as specific normal momentum is increased. A universal expression between non-dimensional SMD and specific normal momentum is obtained, which satisfactorily predicts SMD in doublets as well as triplets. Noting that practical impinging injectors are likely to have skewness (partial impingement), the study is extended to understand the behavior of such jets. In perfectly impinging doublet, a high aspect ratio ellipse-like mass distribution pattern is obtained with major axis normal to the plane of two jets whereas in skewed jets the major axis turns from its normal position. A simple correlation is obtained, which shows that this angle of turn is a function of skewness fraction and impingement angle only and is independent of injection velocity. Experimental data from both mass distribution and photographic technique validate this prediction. SMD is found to decrease as skewness is increased. This may be the combined effect of shearing of liquid sheet at the point of impingement and more sheet elongation. Hence, skewness turns out to be an important parameter in controlling drop size. Jet Engines Liquid Propulsion Combustion Liquid Propellant Rockets - Atomization Skewed Jets Impinging Jets Jet Atomizers Sauter Mean Diameter (SMD) Heat Engineering
190	Schwingungsspektroskopie nah- und überkritischer Lösungsmittel / Vibrational spectroscopy of near- and supercritical solvents Abraham, Sascha 27 June 2013 (has links) Expansionen komprimierter Fluide finden breite Anwendung und werden hier mit Hilfe der Schwingungsspektroskopie untersucht. Dabei ist der Aggregatzustand der bei der Zerstäubung entstehenden Partikel von besonderem Interesse. In Abhängigkeit von Stagnationsdruck, Düsentemperatur, und Düsenabstand werden neben Lachgas tert-Butylalkohol und n-Pentan hinsichtlich ihrer Partikelbildung charakterisiert. Die Ergebnisse bilden eine Grundlage für die Expansion nahkritischer Lösungen. 540 Schwingungsspektroskopie Zerstäubte Flüssigkeitsstrahlen Lösungsmittel tert-Butylalkohol n-Pentan vibrational spectroscopy flash atomization sprays solvents tert-butyl alcohol n-pentane Chemie (PPN62138352X)

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