Global ETD Search

241	The effect of screw geometry on melt temperature profile in single screw extrusion. Kelly, Adrian L., Brown, Elaine, Coates, Philip D. January 2006 (has links) No / Experimental observations of melt temperature profiles and melting performance of extruder screws are reported. A novel temperature sensor consisting of a grid of thermocouple junctions was used to take multiple temperature readings in real time across melt flow in a single screw extruder. Melt pressure in the die and power consumption were also monitored. Three extruder screws at a range of screw speeds were examined for a commercial grade of low density polyethylene. Results showed melt temperature fields at low throughputs to be relatively independent of screw geometry with a flat-shaped temperature profile dominated by conduction. At high throughputs, melting performance and measured temperature fields were highly dependent upon screw geometry. A barrier-flighted screw with Maddock mixer achieved significantly better melting than single flighted screws. Low temperature "shoulder" regions were observed in the temperature profiles of single-flighted screws at high throughput, due to late melting of the solid bed. Stability of the melt flow was also dependent upon screw geometry and the barrier-flighted screw achieving flow with lower variation in melt pressure and temperature. Dimensionless numbers were used to analyze the relative importance of conduction, convection, and viscous shear to the state of the melt at a range of extrusion conditions. Olefin polymer Performance evaluation Pressure control Molten state Temperature control Process control Extrusion Single screw extruder Low density ethylene polymer Processing equipment Thread(screw)
242	Conceptual design of a breed & burn molten salt reactor Kasam, Alisha January 2019 (has links) A breed-and-burn molten salt reactor (BBMSR) concept is proposed to address the Generation IV fuel cycle sustainability objective in a once-through cycle with low enrichment and no reprocessing. The BBMSR uses separate fuel and coolant molten salts, with the fuel contained in assemblies of individual tubes that can be shuffled and reclad periodically to enable high burnup. In this dual-salt configuration, the BBMSR may overcome several limitations of previous breed-and-burn (B$\&$B) designs to achieve high uranium utilisation with a simple, passively safe design. A central challenge in design of the BBMSR fuel is balancing the neutronic requirement of large fuel volume fraction for B$\&$B mode with the thermal-hydraulic requirements for safe and economically competitive reactor operation. Natural convection of liquid fuel within the tubes aids heat transfer to the coolant, and a systematic approach is developed to efficiently model this complex effect. Computational fluid dynamics modelling is performed to characterise the unique physics of the system and produce a new heat transfer correlation, which is used alongside established correlations in a numerical model. A design framework is built around this numerical model to iteratively search for the limiting power density of a given fuel and channel geometry, applying several defined temperature and operational constraints. It is found that the trade-offs between power density, core pressure drop, and pumping power are lessened by directing the flow of coolant downwards through the channel. Fuel configurations that satisfy both neutronic and thermal-hydraulic objectives are identified for natural, 5$\%$ enriched, and 20$\%$ enriched uranium feed fuel. B$\&$B operation is achievable in the natural and 5$\%$ enriched versions, with power densities of 73 W/cm$^3$ and 86 W/cm$^3$, and theoretical uranium utilisations of 300 $\mathrm{MWd/kgU_{NAT}}$ and 25.5 $\mathrm{MWd/kgU_{NAT}}$, respectively. Using 20$\%$ enriched feed fuel relaxes neutronic constraints so a wider range of fuel configurations can be considered, but there is a strong inverse correlation between power density and uranium utilisation. The fuel design study demonstrates the flexibility of the BBMSR concept to operate along a spectrum of modes ranging from high fuel utilisation at moderate power density using natural uranium feed fuel, to high power density and moderate utilisation using 20$\%$ uranium enrichment.
243	Chemistry of polynuclear transition-metal complexes in ionic liquids Ahmed, Ejaz, Ruck, Michael 02 April 2014 (has links) (PDF) Transition-metal chemistry in ionic liquids (IL) has achieved intrinsic fascination in the last few years. The use of an IL as environmental friendly solvent, offers many advantages over traditional materials synthesis methods. The change from molecular to ionic reaction media leads to new types of materials being accessible. Room-temperature IL have been found to be excellent media for stabilising transition-metal clusters in solution and to crystallise homo- and heteronuclear transition-metal complexes and clusters. Furthermore, the use of IL as solvent provides the option to replace high-temperature routes, such as crystallisation from the melt or gas-phase deposition, by convenient room- or low-temperature syntheses. Inorganic IL composed of alkali metal cations and polynuclear transition-metal cluster anions are also known. Each of these areas will be discussed briefly in this contribution. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. Chlorid Zirkonium Halide Salzschmelze Kristallstruktur spektroskopische Charakterisierung anorganische Stoffe biphasische Katalyse chloride molten-salt zirconium halide clusters crystal-structures spectroscopic characterization ionothermal synthesis inorganic materials biphasic catalysis optical-properties building-blocks coordination ddc:540 rvk:VA 1120
244	A site-directed spin labelling study of the human alpha-lactalbumin molten globule Young, Matthew Alexander January 2013 (has links) The human α-lactalbumin (α-LA) molten globule formed at low pH is a model for the study of protein folding intermediates. The molten globule lacks native-like side-chain interactions, resulting in a fluctuating ensemble of tertiary structures, characterisation of which has been precluded by severe line-broadening in NMR spectra and a lack of long-range NOEs. Paramagnetic relaxation enhancements (PREs) have been measured in a variant of α-LA in which all native cysteines have been mutated to alanine (all-Ala α-LA). Cysteine residues have been mutated into regions of interest and spin labelled with MTSL. These measurements have confirmed that all-Ala α-LA forms a compact molten globule. Transient, long-range interactions that are stabilising the compact fold have also been identified using PREs measured in urea-denatured states. This has identified several interactions formed by hydrophobic residues from both the α- and β-domain, which could be important for initiating and driving folding. The molten globule’s 3D topology has been probed by measuring long-range distances between MTSL pairs using Double Electron-Electron Resonance (DEER). Broad distance distributions have been identified between elements of secondary structure, indicative of a fluctuating but compact fold. By contrast, a narrower distance distribution has been measured within one of the major helices, indicative of native-like secondary structure. The surface accessibility of all-Ala α-LA and that of two other variants ([28-111] α-LA and 4SS α-LA) has been probed using solvent PREs obtained using TEMPOL, a paramagnetic co-solute. This has revealed differences in the solvent-exposure of hydrophobic residues due to the removal of disulphide bonds. This method has also identified buried hydrophobic residues that contribute to forming the molten globule’s stable, native-like core. 572.8
245	Synthèse du LiXFePO4 par voie fondue et l’étude de la couche de carbone sur LiFePO4 Dahéron, Benjamin 03 1900 (has links) Le LiFePO4 est un matériau prometteur pour les cathodes des batteries au lithium. Il possède une bonne stabilité à haute température et les précurseurs utilisés pour la synthèse sont peu couteux. Malheureusement, sa faible conductivité nuit aux performances électrochimiques. Le fait de diminuer la taille des particules ou d’enrober les particules d’une couche de carbone permet d’augmenter la conductivité. Nous avons utilisé une nouvelle méthode appelée « synthèse par voie fondue » pour synthétiser le LiFePO4. Cette synthèse donne des gros cristaux et aucune impureté n’est détectée par analyse Rayon-X. En revanche, la synthèse de LiXFePO4 donne un mélange de LiFePO4 pur et d’impureté à base de lithium ou de fer selon l’excès de fer ou de lithium utilisé. La taille des particules de LiFePO4 est réduite à l’aide d’un broyeur planétaire et plusieurs paramètres de broyage sont étudiés. Une couche de carbone est ensuite déposée sur la surface des particules broyées par un traitement thermique sur le LiFePO4 avec du -lactose. L’influence de plusieurs paramètres comme la température du traitement thermique ou la durée du chauffage sont étudiés. Ces expériences sont réalisées avec un appareil d’analyse thermogravimétrique (ATG) qui donne la quantité de chaleur ainsi que la variation de masse durant le chauffage de l’échantillon. Ce nouveau chauffage pour la couche de carbone donne des échantillons dont les performances électrochimiques sont similaires à celles obtenues précédemment avec la méthode de chauffage pour la couche de carbone utilisant le four tubulaire. / LiFePO4 is a promising cathode material for Lithium-ion batteries. It provides high thermal stability and is synthesized using low cost materials. Unfortunately LiFePO4 suffers from a low electrical conductivity, which is harmful to its electrochemical performance. Decreasing the particle size or coating the particles with carbon increases the conductivity of the material. We have used a new synthetic method called molten synthesis to synthesize LiFePO4. The molten synthesis produces large crystals of LiFePO4 with no impurity detected via X-ray diffraction analysis. Moreover, the synthesis of LiXFePO4 gives a mixture of pure LiFePO4 and Li-based impurities or LiFePO4 and Fe-based impurities whenever there is an excess of lithium or iron used. The particle size of the synthesized material is reduced via a Planetary Mill and numerous milling parameters were investigated. A carbon coating was then deposited on the surface of the milled material by thermally treating LiFePO4 with β-lactose. The influences of several parameters such as heat treatment temperature and/or heating duration were studied. These experiments were performed using a thermogravimetric analysis (TGA), which provides the amount of heat and weight change during the heating of the sample. This new heating method for carbon coating gave rise to samples with similar electrochemical performance data as to the previously established heating method involving a tubular furnace. synthèse par voie fondue broyeur planétaire LiXFePO4 taille de particule couche de carbone Analyse Thermogravimétrique molten synthesis planetary mill LiXFePO4 particle size carbon coating Thermogravimetric Analysis
246	Étude expérimentale d’un procédé de cristallisation en émulsion huile dans eau : application au distéarate d’éthylène glycol / Experimental study of a crystallization in O/W emulsion process : application to ethylene glycol distearate Khalil, Abir 21 December 2011 (has links) L’objectif a été d’étudier le procédé de cristallisation en émulsion d’un ingrédient cosmétique hydrophobe (EGDS) dispersé en phase aqueuse. La première étape consiste à émulsifier à chaud l’EGDS en présence d’un émulsifiant afin d’obtenir une émulsion stable huile dans eau. La cristallisation par refroidissement de l’émulsion est la seconde étape. Deux sondes optiques ont été mises au point pour permettre le suivi vidéo in situ en temps réel du procédé. A partir des séquences vidéo, la mesure de la distribution en taille des gouttes (DTG) a été faite automatiquement, celles des particules par un opérateur. La croissance des cristaux dans les gouttes a été observée au moyen d’une platine thermostatée sous microscope. Par son action sur le mécanisme de brisure la puissance spécifique d’agitation est le paramètre de premier ordre sur la DTG. La concentration en émulsifiant a un impact de second ordre sur la DTG (coalescence et stabilisation). L’emploi d’une hélice à pales minces au lieu d’une turbine Rushton est préférable (DTG étroite et polyvalence du mobile). La mesure in situ a permis de déterminer que le temps d’obtention d’une DTG stable est 3 à 4 fois supérieur aux données de la littérature. La cristallisation des gouttes est progressive, des plus grosses aux plus petites. Une goutte donne naissance à une particule dans les conditions expérimentales choisies. La fréquence de nucléation primaire a été calculée à partir de l’évolution temporelle des DTG, en supposant un mécanisme mononucléaire dans chaque goutte. Le mécanisme est hétérogène. La localisation de la nucléation primaire dans le volume de la goutte ou à sa surface interne n’a pas été possible / The aim was to study the crystallization in emulsion process of a hydrophobic cosmetic ingredient (EGDS). The emulsification of the molten EGDS in a continuous phase with the use of an emulsifier in order to obtain a stable droplet size distribution (DSD) is the first stage. The crystallization upon cooling is the second stage. Two optical probes were developed to allow the in situ video monitoring of each stage of the process in real time. From the video sequences recorded the measurement of the DSD was carried out automatically, and by an operator for the PSD. The growth of crystals in motionless droplets was observed under microscope thanks to a thermostated well. The specific power input of stirring was the main parameter acting on the reduction of DSD owing to its action on the droplet break-up mechanism. The surfactant concentration was a parameter of secondary relevance on the DSD (coalescence and stability). The use of a flat blade propeller instead of a Rushton turbine was preferable for the production of a narrower DSD. Finally the time required to reach equilibrium was found higher by a factor of 3-4 than predicted in the literature. It was shown that the droplets crystallized very progressively during cooling, from the biggest to the smallest droplets. With the experimental conditions, one drop gave birth to one particle. The primary nucleation rate was obtained from the analysis of the temporal evolution of the DSD with the hypothesis of a mononuclear mechanism in each droplet. The nature of the mechanism seems to be heterogeneous. Nevertheless its localization in the droplet volume or at the inner interfacial surface was not possible Génie des procédés Cristallisation Émulsification Réacteur agité Suivi in situ Sonde optique Milieu fondu Nucléation primaire Chemical engineering Crystallization Emulsification Stirred reactor In situ monitoring Optical probe Molten medium Primary nucleation 548.5
247	The anode and the electrolyte in the MCFC Bodén, Andreas January 2007 (has links) A goal of the Swedish government is to increase the usage of renewable fuels and biomass-based fuels. Fuel cells, and especially the MCFC, are useful for these types of fuels. The Swedish market may benefit from the MCFC in two ways: increased efficiency of the biofuels and also utilisation of produced heat in district heating. Most of the commercial MCFC systems today are optimised for use with methane. The possibility to utilise biomass in Sweden makes it important to study how the MCFC may be adapted or optimised for good performance and low degradation with gas produced from biomass or other renewable fuels. This thesis is focused on methods that may be used to investigate and evaluate MCFC electrodes and electrolytes with renewable fuels i.e. CO2-containing gases. The methods and results are both experimental and mathematically modelled. The objectives of this thesis are to better understand how the performance of the anode is dependent on different fuels. Anode kinetics and the water-gas shift reaction have been investigated as well as the possibility to increase cell lifetime by increasing the initial electrolyte amount by having the anode as a reservoir. The effect of segregation of cations in the electrolyte during operation has also been studied. It was found that if the gas composition at the current collector inlet is in equilibrium according to the water gas-shift reaction the gas composition inside the electrode is almost uniform. However, if the gas is not in equilibrium then the concentration gradients inside the current collector have a large effect on the gas composition inside the electrode. The conversion of the gas in the gas flow channels according to the water-gas shift reaction depends on the gas flow rate. For an anode used in a gas mixture of humidified hydrogen and carbon dioxide that are not in equilibrium some solubility of Ni in a (Li/Na)2CO3 mixture was found. To have the anode act as an electrolyte reservoir to prolong cell lifetime the anode pore size should be carefully matched with that of the cathode and a bimodal pore-size distribution for the anode is preferable to have as good performance as possible for as large electrolyte filling degree interval as possible. Modelling results of segregation of cations in the electrolyte during operation indicate that the electrolyte composition changes during operation and that the lithium ions are enriched at the anode for both types of electrolyte used for the MCFC. The electrolyte composition changes are small but might have to be considered in long-time operation. The results from this thesis may be used to better understand how the MCFC may be used for operation with renewable fuels and how electrodes may be designed to prolong cell lifetime. / Ett av den svenska regeringens mål är att öka användandet av förnyelsebara bränslen och bränslen från biomassa. Bränsleceller och framförallt MCFC är användbara för dessa typer av bränslen. Den svenska marknaden kan dra fördelar av MCFC på två sätt; ökad bränsleutnyttjandegrad och utnyttjande av producerad värme för fjärrvärme. De flesta kommersiella MCFC-systemen idag är optimerade för användning av metan. Möjligheten att använda biomassa på den svenska marknaden gör det viktigt att studera hur MCFC kan anpassas eller optimeras för bra prestanda och låg degradering för användning med gas från biomassa eller andra förnyelsebara bränslen. Fokus i denna avhandling är på metoder som kan användas för att undersöka och utvärdera MCFC-elektroder och -elektrolyter med förnyelsebara bränslen, dvs. gaser innehållande CO2. Metoderna och resultaten är både experimentella och matematiskt modellerade. Målet med denna avhandling är att bättre förstå hur anodens prestanda beror på användningen av olika bränslen. Anodens kinetik och vattengasskiftreaktionen har studerats liksom möjligheten att förlänga cellens livstid genom att öka den initiala mängden elektrolyt medelst användning av anoden som reservoar. Effekten av segregation av katjoner i elektrolyten under last har också undersökts. Om gassammansättningen är i jämvikt enligt vattengasskiftreaktionen vid inloppet till strömtilledaren kommer gassammansättningen att vara nära uniform inuti elektroden. Om ingående gas inte är i jämvikt kommer stora koncentrationsgradienter uppkomma i strömtilledaren och påverka gassammansättningen i elektroden. Omsättningen med avseende på vattenskiftreaktionen av gasen i flödeskanalen verkar vara beroende av gasens flödeshastighet. För en anod som används i en uppfuktad blandning av vätgas och koldioxid som inte är i jämvikt befanns det att Ni har en viss löslighet i (Li/Na)2CO3. För att kunna använda anoden som reservoar för elektrolyt för att förlänga livstiden för MCFC skall anodens porstorleksfördelning överensstämma med katodens och ha en bimodal porstorleksfördelning för att ge en tillräckligt god prestanda i ett så stort elektrolytfyllnadsgradsintervall som möjligt. Modelleringsresultat för segregering av katjoner i elektrolyten under drift visar att litiumjoner anrikas i anoden för båda typerna av elektrolyt som används i MCFC. Elektrolytkoncentrationsförändringarna är små men kan behövas tas i beaktande vid långa driftstider. Denna avhandlings resultat kan användas för att bättre förstå hur MCFC skall anpassas för drift med förnyelsebara bränslen och hur elektroder kan utformas för att förlänga livstiden. / QC 20100630 composite electrolytes electrode kinetics nickel solubility porous electrode reformate water-gas shift reaction electrolyte electrolyte distribution hydrogen oxidation reaction ion segregation mass transport mathematical modelling MCFC molten carbonate fuel cell Chemical engineering Kemiteknik
248	Molten-salt Synthesis Of Nanocrystalline Strontium Antimony Manganese Oxide (Sr2SbMnO6) : A Gaint Dielectric Constant Material Baral, Antara 07 1900 (has links) High dielectric constant materials are of technological importance as they lead to the miniaturization of the electronic devices. For instance, in the case of memory devices based on capacitive components, such as static and dynamic random access memories, the dielectric constant will ultimately decide the level of miniaturization. In this context, the observation of anomalously high dielectric constant (>10) in the double perovskite Sr2SbMnO6 (SSM) over wide frequency (100 Hz1 MHz) and (190373 K) temperature range has attracted a great deal of attention. However, unfortunately their dielectric losses were also high which limit their use for possible capacitor and related applications. The dielectric loss however was known to decrease with decreasing crystallite size in electroceramics. Therefore, the present work has been focused on the synthesis of nanocrystalline SSM powders by moltensalt route. The characterization of the ceramics fabricated from these powders for their microstructural and dielectric properties. A cubic phase of SSM powder was obtained by calcining the as synthesized powders at 900°C/10h by using sulphate flux. The crystallite size was ~ 60 nm. The activation energy associated with the particle growth was found to be 95 ± 5 kJmol-1 . The ceramic sintered at 1075°C/16h exhibited high dielectric constant (>10at 1 kHz) with low loss (0.72 at 1 kHz) at room temperature. The results are interpreted in terms of a twolayer model with conducting grains partitioned from each other by poorly conducting grain boundaries. Using this model, we attributed the two electrical responses in impedance and modulus formalisms to the grain and grain boundary effects, respectively, while the detected Debyelike relaxation and large dielectric constant were explained in terms of MaxwellWagner relaxation. Strontium Antimony Sr2SbMnO6 Dielectric Materials Molten-salt Synthesis High Dielectric Constants High Dielectric Constant Materials Strontium Antimony Manganese Oxide Material Fabrication Technique Dielectric Constant Material Nanocrystalline SSM Materials Science
249	Purificación, disociación de subunidades e interacción con el anticuerpo AE-1 de la acetilcolinesterasa de suero fetal bovino. Ensayos con proteína quinasa A. Flores Flores, César 14 May 1998 (has links) La acetilcolinesterasa (AChE) hidroliza el neurotransmisor acetilcolina. La enzima se presenta en distintas formas moleculares. Tetrámeros hidrofílicos de AChE de suero fetal bovino se purificaron, sometieron a un tratamiento químico desnaturalizante o reductor, y estudiaron mediante análisis de sedimentación, cromatografía, fluorescencia intrínseca y unión de sondas hidrofóbicas. La transformación de los tetrámeros hidrofílicos en dímeros y monómeros anfifílicos demostró la alta flexibilidad conformacional de las subunidades de AChE, lo que podría ser crucial en la síntesis del conjunto completo de sus formas moleculares, y aportó una explicación de cómo algunas de sus formas interaccionan con las membranas. Para entender la heterogeneidad molecular de la AChE, también se empleó el anticuerpo AE-1, que interaccionó de forma desigual con oligómeros y monómeros de AChE de distintas fuentes. Experimentos de Western blot demostraron que el epítopo de AE-1 es de naturaleza confor macional. Finalmente, los datos experimentales descartaron la fosforilación de la AChE con proteína quinasa A. / Acetylcholinesterase (AChE) hydrolyzes the neurotransmitter acetylcholine. The enzyme exists in several molecular forms. AChE hydrophilic tetramers from fetal bovine serum were purified, chemically denatured or reduced, and studied by sedimentation analysis, hydrophobic chromatography, intrinsic fluorescence spectra and binding of amphiphilic probes. Conversion of the hydrophilic tetramers into amphiphilic dimers and monomers showed that AChE subunits possess a flexible conformation, which may be important for generating a full set of molecular forms, and gave an explanation of the interaction of certain AChE forms with membranes. Another approach to determine the molecular basis for the structural heterogeneity of AChE was to use the antibody AE-1, which distinctly reacted with AChE oligomers and monomers from different sources. The results of Western blot revealed that the determinant for AE-1 consisted of a conformational domain, not a primary sequence region. Finally, the experimental data rejected the phosphorylation of AChE at non-consensus protein kinase A sites. Protein structure and conformation Molecular forms Acetylcholinesterase Proteína quinasa A Anticuerpos monoclonales Glóbulo fundido Estructura y conformación de proteínas Formas moleculares Acetilcolinesterasa Molten globule Monoclonal antibodies Protein kinase A Bioquímica y Biología Molecular 577
250	Pfropfcopolymere definierter Architektur mittels multifunktioneller Kopplungsreagenzien Zhang, Haiping 01 October 2015 (has links) (PDF) Pfropfcopolymere definierter Architektur wurden auf Basis von drei neu synthetisierten multifunktionellen Kopplungsreagenzien mit N-Acyllactam- und Benzoxazinongruppen über zweistufige selektive Schmelzereaktionen erfolgreich synthetisiert. Dabei wurde die Selektivität der Schmelzereaktionen durch die Reihenfolge der Zugabe der funktionellen Ausgangsoligomere und die Temperatur kontrolliert. Die erhaltenen Pfropfcopolymere stellen thermoplastische Elastomere mit hoher Zugfestigkeit und zugleich hoher Dehnung dar. Pfropfcopolymere definierte Architektur thermoplastische Elastomere Multifunktionelle Kopplungsreagenzien selektive Schmelzereaktionen N-Acyllactamgruppe Benzoxazinongruppe graft copolymers defined structure thermoplastic elastomer multifunctional coupling agents selective reaction in molten state N-Acyllactam group Benzoxazinon group ddc:540 rvk:VK 8007

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