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61	Možnosti zlepšení agregace a separace suspenze při úpravě pitné vody / Methods of improvement of particle formation and separation processes in drinking water treatment Kubalík, David January 2013 (has links) This work is focused on improvement of particle formation and separation processes in drinking water. These include the comparison of the dynamics of different coagulation reagents (aluminum sulphate and ferric sulphate) to find the optimal dose of coagulant. During centrifugation test is important to find such a setting centrifuge where we get the best results. In this work we studied the influence of the total mineralization at the optimum dose of coagulant.
62	Anorganische Kolloide im Wasser der Elbe Opel, Karsten, Hüttig, Gudrun, Zänker, Harald January 2004 (has links) Das Wasser der Elbe auf der Höhe von Dresden enthält anorganische Kolloidpartikel, deren Partikelgrößenverteilung nahezu den gesamten kolloidalen Definitionsbereich (1 nm bis 1 µm) überstreicht und die vor allem aus sekundär ausgeschiedener amorpher Kieselsäure sowie aus Oxyhydroxiden des Fe, Al und Mn bestehen. Als wichtigstes Schwermetall führen sie Zn. Ihre Konzentration liegt unter 5×10-1 mg/l, um etwa Faktor 30 unter der Konzentration der Schwebstoffe des Elbwassers (Partikel >1 µm). Wegen ihrer hohen spezifischen Oberfläche sind die Kolloidpartikel als potentielle Träger für Schadstoffe trotz dieser geringeren Massekonzentration nicht gegenüber den Schwebstoffen zu vernachlässigen. Die in der Elbe gemessene Partikelgrößenverteilung ähnelt derjenigen, die zu einem früheren Zeitpunkt im Rhein gefunden worden war. Auch die chemische Zusammensetzung der Kolloidpartikel in der Elbe ist der der Partikel des Rheins ähnlich. Die Konzentration der Kolloidpartikel in der Elbe war aber um Faktor 5 bis 10 höher als im Rhein. Grund für letzteres ist wahrscheinlich der höhere Gehalt des Elbwassers an gelöstem Kohlenstoff (DOC). Im "Bulk" eines Flusses sind kolloidgetragene Schadstoffe - anders als schwebstoffgetragene - vermutlich fast genauso mobil wie echt gelöste. Unterschiede zwischen den Transportgeschwindigkeiten der kolloidgetragenen und der echt gelösten Spurenstoffe treten in bestimmten Situationen auf, in denen das Wasser den "Bulk" eines Flusses verlässt (Sickerbereich unter dem Fluss, Ästuar). Es werden Schlussfolgerungen über die Rolle von Kolloidpartikeln im Ökosystem eines Flusses gezogen und noch bestehende Forschungsdesiderate benannt.
63	Densification and cyclic triaxial testing of Leighton-Buzzard 120/200 sand Bucknam, Mark David January 1982 (has links) Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Civil Engineering, 1982. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND ENGINEERING. / Bibliography: leaves 160-167. / by Mark David Bucknam. / M.S. Civil Engineering. Soil consolidation test Soil liquefaction Centrifugation Sandy soils Offshore structures Dynamics
64	Separation of Nanoporous Silica Particles / Separation av Nanoporösa Kiselpartiklar Preuss, Frida, Asp, Julia, Larsson, Sofia, Kylington, Stephanie January 2020 (has links) In this study a sample of particles in a size region of 0.05-10 μm were run through a centrifugation process with the ambition to make it monodisperse. The product requirements were stated as follows, particles within the size range of 2 to 3.8 μm should be isolated and separated from the sample with a D90/D10 < 1.4 where the D90/D50/D10 values should be approximately 3.8 μm/2.5 μm/2 μm. It was found that two layers of sucrose with a 50/50 volume distribution of 45w% sucrose solution and 60w% sucrose solution respectively, was the most efficient density gradient arrangement for separation of this particular sample. The optimal time and RPM combination was found to be 5 min 3000 RPM with a fast acceleration and slower deceleration, ratio 9:6. Two centrifugation rounds on the same sample improved D90/D10 drastically. The effect of centrifugation rounds on D90/D10 was not investigated further than 3 rounds, however this would be a good starting point for further studies. The upscaled test runs indicated a positive result, i.e. the yields with respect to both mass and purity were reproducible. It is worth mentioning that the upscale was only in the volume, sample load volume and surface area factors. The gradient height or particle travel distance remained the same. Monodispersity particle size distribution density gradient centrifugation silica Materials Chemistry Materialkemi
65	Centrifugation and Rheology as Indicators of Long Term Stability of an Acidified Protein Matrix Wearly, Douglas J. 08 September 2009 (has links) No description available. Food Science pectin whey protein steady state rheology dynamic rheology centrifugation
66	Development of Gold Nanocluster-Based Biosensors Zhou, Xinzhe 01 October 2015 (has links) Gold nanoclusters possess both theoretical and practical importance in the development of ultrasensitive biosensors based on surface-enhanced Raman spectroscopy (SERS). Manipulation of gold nanoclusters in a predictable and reproducible manner for the application of refined biochemical analysis still remains challenging. In this study, high-purity gold nanoclusters are isolated via a simple method based on density gradient centrifugation. Three distinct bands including monomers, small aggregates (2-4 nanospheres), and large aggregates (>5 nanospheres) can be separated via density gradient centrifugation. The isolated gold nanoclusters greatly enhance the Raman intensity of the trapped dye molecules such that single nanocluster detection is feasible. To develop a gold nanoparticle-based biosensor for influenza virus, effort was also made to modify recognition moieties such as aptamers to gold nanoparticles via distinct approaches. The increase of hydraulic diameter and the shift of optical absorbance spectrum indicate the success of surface modification to gold nanoparticles. / Master of Science Gold Nanoclusters Density Gradient Centrifugation Surface-Enhanced Raman Scattering Influenza Virus Aptamer Biosensor
67	De l'analyse du pilotage d'un décanteur centrifuge à son instrumentation Moatamri, Nader 22 July 2003 (has links) (PDF) Le travail mené dans cette thèse concerne la maîtrise des décanteurs centrifuges. L'instrumentation étant limitante, nous proposons, sur la base de l'analyse des modes de pilotage de l'opération la définition de l'instrumentation et la réalisation et la validation des capteurs nécessaires. La recherche a été effectuée en trois volets distincts. • L'analyse bibliographique a permis de caractériser les différents mécanismes qui permettent la déshydratation mécanique des boues urbaines par les centrifugeuses. Les boues présentent une grande variabilité et leur caractérisation n'est pas toujours facile. Il ressort de cette étude que l'empirisme l'emporte sur les travaux de compréhension du procédé : aucun modèle de génie des procédés ne donne entière satisfaction. Une nouvelle approche d'étude est indispensable. • L'analyse du pilotage des centrifugeuses est ensuite proposée. Cette analyse, effectuée par entretiens avec des experts, amène une réponse à la question « Que mesurer ? ». Ainsi, nous avons déterminé le nombre minimal et la nature des paramètres à connaître pour piloter la machine. La synthèse de la connaissance des experts a permis de fournir et valider un outil simple d'aide à la décision. Afin de pouvoir implanter ce module en ligne pour le pilotage automatique, nous avons étudié l'instrumentation possible du procédé. • Plusieurs instruments présents sur le marché ont été testés pour déterminer leurs caractéristiques métrologiques. Ces capteurs servent à déterminer la concentration du centrat et la siccité des boues déshydratées. Plus spécifiquement, un capteur de mesure de la concentration des matières en suspension du centrat, reposant sur l'analyse des données spectrophotométriques, a été développé. Ce capteur présente l'avantage, par la mise en œuvre que nous avons réalisé, d'être sans contact avec le produit. Ceci évite les problèmes de colmatage, fréquents dans les stations d'épuration. Le signal de mesure est traité de plusieurs manières et des corrélations sont obtenues. Une validation sur site industriel est discutée. [SPI] Engineering Sciences [SDV] Life Sciences [SDV:IDA] Life Sciences/Food engineering Centrifugation Décantation Boues d'épuration Recueil d'expertise Instrumentation Mesure
68	Aférese x centrifugação do sangue total: análise de custo-efetividade entre os distintos procedimentos para produção do concentrado de plaquetas / Apheresis x total blood centrifugation: cost-effectiveness analysis between the different procedures for the production of platelet concentrates Rodrigues, Vanessa de Oliveira 04 December 2017 (has links) A centrifugação é o principal método utilizado para fracionar o Sangue Total (ST) nos componentes sanguíneos: Concentrados de Hemácias (CH), Concentrados Plaquetas (CP), Plasma e Crioprecipitado, (também chamados de Hemocomponentes). Com intuito de prevenir ou controlar hemorragias, os CP obtidos por centrifugação tornaram-se o padrão no atendimento inicial aos pacientes com baixas contagens de plaquetas. Porém, para obter uma unidade terapêutica (UT), no Hemocentro RP, é necessário agregar seis CP, formando o Pool de CPST (PCP), o que leva a exposição do receptor a vários doadores diferentes. O CP obtido por aférese (CPAF), advindo de equipamento que permite a seleção já na coleta, fornece a dose necessária em apenas uma doação. Baseado no levantamento de dados internos do Hemocentro de RP o presente estudo analisou, através da metodologia de Custeio Baseado em Atividade (ABC), os custos atribuídos às distintas metodologias para a produção dos CP, sabendo que no Hemocentro RP, os CP são dispensados como UT independente da forma de obtenção. Os resultados obtidos foram utilizados na Análise de Custo-Efetividade, evidenciando que a coleta por Centrifugação de ST com a produção de PCP foi mais custo efetiva em 2015 do que a coleta de aférese, porém, por uma diferença relativamente pequena, devido ao grande percentual de obtenção de dupla Unidade Terapêutica (CPAF2). / Centrifugation is the main method used for fractionating Total Blood (TB) to blood components: Red Cells Concentrate (CR), Platelet Concentrates (PC), Plasma and Cryoprecipitate (also called Hemocomponents). In order to prevent or control bleeding, CPs obtained by centrifugation became the standard treatment of patients with low platelet counts. However, to obtain a therapeutic unit (TU), at Hemocentro RP, it is necessary to get together six PCs, forming a Pool of TBPC (PCP), exposing the receptor to several different donors. PC obtained by apheresis (CPAF), which is provided by a equipment that allows selective collection, achieve the dose necessary for the selection in just one donation. Based on the collection of internal data from the Hemocentro RP, the present study analyzed, through the methodology of ActivityBased Costing (ABC), the costs attributed to the different methodologies for the production of PCs knowing that in the Hemocenter RP PCs are dispensed as TU independent of the way of obtaining. The results obtained were used in the CostEffectiveness Analysis, showing collecting by TB Centrifugation producing PC is more cost-effective, however CPAF was almost as effective as in 2015, a great achievement of Dual Therapeutic Unit in a single donation (CPAF2). Aférese Análise de custo-efetividade Apheresis Centrifugação sangue total Concentrado de plaquetas Cost-effectiveness analysis Platelet concentrate Total blood centrifugation
69	Structural Sorting and Oxygen Doping of Semiconducting Single-Walled Carbon Nanotubes January 2012 (has links) Existing growth methods produce single-walled carbon nanotubes (SWCNTs) with a range of structures and electronic properties, but many potential applications require pure nanotube samples. Density gradient ultracentrifugation (DGU) has recently emerged as a technique for sorting as-grown mixtures of single-walled nanotubes into their distinct ( n,m ) structural forms, but this approach has been limited to samples containing only a small number of nanotube structures, and has often required repeated DGU processing. For the first time, it has been shown that the use of tailored nonlinear density gradient ultracentrifugation (NDGU) can significantly improve DGU separations. This new sorting process readily separated highly polydisperse samples of SWCNTs grown by the HiPco method in a single step to give fractions enriched in any of ten different ( n,m ) species. In addition, minor variants of the method allowed separation of the minor-image isomers (enantiomers) of seven ( n,m ) species. Optimization of this new approach was aided by the development of instrumentation that spectroscopically mapped nanotube contents inside undisturbed centrifuge tubes. Besides, sorted nanotube samples enabled the discovery of novel oxygen-doped SWCNTs with remarkable photophysical properties. Modified nanotube samples were produced using mild oxidation of SWCNTs with ozone followed by a photochemical conversion step that induced well-defined changes in emissive properties. As demonstrated for a set of ten separated SWCNT ( n,m ) structures, chemically altered nanotubes possess slightly lower band gap energies with correspondingly longer photoluminescence wavelengths. Treated samples showed distinct, structure-specific near-infrared fluorescence at wavelengths 10 to 15% longer than the pristine semiconducting SWCNTs. Quantum chemical modeling suggests that dopant sites harvest light energy absorbed in undoped nanotube regions by trapping mobile excitons. The oxygen-doped SWCNTs are much easier to detect and image in biological specimen than pristine SWCNTs because they give stronger near-IR emission and do not absorb at the shifted emission wavelength. This novel modification of SWCNT properties may lead to new optical and electronic applications, as it provides a way to change optical band gaps in whole nanotubes or in selected sections. Pure sciences Oxygen doping of nanotubes Semiconducting nanotubes Single-walled carbon nanotubes Ultra-centrifugation Inorganic chemistry Physical chemistry
70	HUMAN CARDIOVASCULAR RESPONSES TO ARTIFICIAL GRAVITY VARIABLES: GROUND-BASED EXPERIMENTATION FOR SPACEFLIGHT IMPLEMENTATION Howarth, Mark 01 January 2014 (has links) One countermeasure to cardiovascular spaceflight deconditioning being tested is the application of intermittent artificial gravity provided by centripetal acceleration of a human via centrifuge. However, artificial gravity protocols have not been optimized for the cardiovascular system, or any other physiological system for that matter. Before artificial gravity protocols can be optimized for the cardiovascular system, cardiovascular responses to the variables of artificial gravity need to be quantified. The research presented in this document is intended to determine how the artificial gravity variables, radius (gravity gradient) and lower limb exercise, affect cardiovascular responses during centrifugation. Net fluid (blood) shifts between body segments (thorax, abdomen, upper leg, lower leg) will be analyzed to assess the cardiovascular responses to these variables of artificial gravity, as well as to begin to understand potential mechanism(s) underlying the beneficial orthostatic tolerance response resulting from artificial gravity training. Methods: Twelve healthy males experienced the following centrifuge protocols. Protocol A: After 10 minutes of supine control, the subjects were exposed to rotational 1 Gz at radius of rotation 8.36 ft (2.54 m) for 2 minutes followed by 20 minutes alternating between 1 and 1.25 Gz. Protocol B: Same as A, but lower limb exercise (70% V02max) preceded ramps to 1.25 Gz. Protocol C: Same as A but radius of rotation 27.36 ft (8.33 m). Results: While long radius without exercise presented an increased challenge for the cardiovascular system compared to short radius without exercise, it is likely at the expense of more blood “pooling” in the abdominal region. Whereas short radius with exercise provided a significant response compared to short radius without exercise. More fluid loss occurred from the thorax and with the increased fluid loss from the thorax blood did not “pool” in the abdominal region but instead was essentially “mobilized” to the upper and lower leg. The exercise fluid shift profile presented in this document is applicable to not only artificial gravity protocol design but also proposes a mechanistic reason as to why certain artificial gravity protocols are more effective than others in increasing orthostatic tolerance. Artificial Gravity Spaceflight Countermeasures Centrifugation Cardiovascular Regulation Electrical Impedance Plethysmography Biomedical devices and instrumentation

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