962 resultados para Processus de coalescence
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Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal
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Le fichiers qui accompagnent mon document ont été réalisés avec le logiciel Mathematica
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Le fichiers qui accompagnent mon document ont été réalisés avec le logiciel Mathematica
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Thèse diffusée initialement dans le cadre d'un projet pilote des Presses de l'Université de Montréal/Centre d'édition numérique UdeM (1997-2008) avec l'autorisation de l'auteur.
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Lake Purrumbete maar is located in the intraplate, monogenetic Newer Volcanics Province in southeastern Australia. The extremely large crater of 3000. m in diameter formed on an intersection of two fault lines and comprises at least three coalesced vents. The evolution of these vents is controlled by the interaction of the tectonic setting and the properties of both hard and soft rock aquifers. Lithics in the maar deposits originate from country rock formations less than 300. m deep, indicating that the large size of the crater cannot only be the result of the downwards migration of the explosion foci in a single vent. Vertical crater walls and primary inward dipping beds evidence that the original size of the crater has been largely preserved. Detailed mapping of the facies distributions, the direction of transport of base surges and pyroclastic flows, and the distribution of ballistic block fields, form the basis for the reconstruction of the complex eruption history,which is characterised by alternations of the eruption style between relatively dry and wet phreatomagmatic conditions, and migration of the vent location along tectonic structures. Three temporally separated eruption phases are recognised, each starting at the same crater located directly at the intersection of two local fault lines. Activity then moved quickly to different locations. A significant volcanic hiatus between two of the three phases shows that the magmatic system was reactivated. The enlargement of especially the main crater by both lateral and vertical growth led to the interception of the individual craters and the formation of the large circular crater. Lake Purrumbete maar is an excellent example of how complicated the evolution of large, seemingly simple, circular maar volcanoes can be, and raises the question if these systems are actually monogenetic.
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Pro gradu -tutkielman aiheena on kirjeenvaihtajan työprosessi. Tutkielma kuuluu kääntämisen sosiologian piiriin. Tutkimuksen kohteena oli Helsingin Sanomien Pariisin-kirjeenvaihtaja Minna Nalbantoglu, jonka työskentelyä tutkielman tekijä havainnoi Pariisissa viiden päivän ajan syyskuussa 2006. Tutkimuksen päämetodina oli tapaustutkimus, jonka lisäksi tutkimuksessa käytettiin metodina haastattelua ja havainnointia sekä dokumenttien, tallenteiden ja työnäytteiden analysointia. Tutkimuksen aineisto muodostui havaintomuistiinpanoista, kirjeenvaihtajan haastattelusta, ääneenajatteluprotokollista, haastattelunauhoista, kirjeenvaihtajan tuottamista artikkeleista, kirjeenvaihtajan käyttämistä lähteistä ja juttupäiväkirjoista. Tutkielman tarkoituksena oli muodostaa kokonaiskuva kirjeenvaihtajan työprosessista. Tavoitteena oli vastata seuraavin kysymyksiin: 1) Miten ja millä kriteereillä kirjeenvaihtaja valitsee Helsingin Sanomien lukijoille välitettävät uutiset? 2) Miten uutinen tuotetaan? 3) Minkälaista kääntämistä tai käännöseditointia (transediting) kirjeenvaihtajan työssä esiintyy? Tutkimustulokset on analysoitu viiden käsitteen avulla, jotka ovat uutiskriteerit, uutisen tuottamisprosessi, kääntäminen, käännöseditointi ja portinvartiointi (gatekeeping). Ensimmäiseen tutkimuskysymykseen vastattiin analysoimalla kirjeenvaihtajan tutkimusviikon aikana tuottamia artikkeleita Johan Galtungin ja Mari Holmboe Rugen (1965) klassisten uutiskriteerien avulla, joita täydennettiin Judy McGregorin (2002) päivitetyillä uutiskriteereillä. Toiseen tutkimuskysymykseen vastattiin kuvailemalla uutisten tuottamisprosessia. Samalla selvitettiin, mitä lähteitä kirjeenvaihtaja oli käyttänyt jutuissansa. Kolmatta tutkimuskysymystä varten artikkelit analysoitiin Teun A. van Dijkin (1988) uutisen tuottamisprosessin tutkimista varten kehittämällä mallilla. Van Dijkin mallin avulla määriteltiin, mikä tekstinkäsittelystrategia on kääntämistä ja mitkä käännöseditointia. Analyysin perusteella todettiin, että tekstin tuottamisprosessissa esiintyy myös uuden tekstin luomista ja tuotantoa yksikielisen materiaalin pohjalta. Kääntäminen ja käännöseditointi (Karen Stetting 1989) -käsitteitä pohdittiin ennen analyysia työn teoriaosuudessa. Uutisaiheiden analyysin perusteella todettiin, että mitä enemmän tapahtuma täyttää uutiskriteereitä, sitä todennäköisemmin se valitaan uutiseksi. Niin ikään mitä enemmän tapahtuma täyttää McGregorin päivittämiä uutiskriteereitä, sitä todennäköisemmin se valitaan uutiseksi. Analysoitujen uutisten määrä oli kuitenkin pieni, eikä tuloksia voida pitää kuin suuntaa-antavina. Artikkeleiden lähteenä oli käytetty lähinnä haastatteluita, lehtiartikkeleita ja uutistoimistojen sähkeitä. Muiden lähteiden käyttö oli satunnaista. Lähteiden ja käännösstrategioiden välillä ei havaittu korrelaatiota. Eniten käytetty tekstinkäsittelystrategia oli tiivistäminen. Käännöseditoinnin osuus oli yli puolet artikkeleiden tekstistä (keskiarvo 62 %) ja kääntämisen osuus vain kahdeksan prosenttia. Tutkimuksen perusteella käännöseditointi-käsitteen käyttö on perusteltua puhuttaessa kyseisen kirjeenvaihtajan työstä. Tutkimuksen perusteella on kehitetty uusi portinvartiointimalli, joka pohjautuu van Dijkin uutisen tuottamisprosessimalliin. Mallin avulla voidaan analysoida uutisen tuottamisprosessia ja päätellä, minkä verran kääntämistä ja käännöseditointia työssä esiintyy. Mallia ehdotetaan sovellettavaksi paitsi muiden kirjeenvaihtajien niin myös monikielisen materiaalin parissa työskentelevien toimittajien työn sekä uutiskääntämisen analysointiin.
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Coalescence between two droplets in a turbulent liquid-liquid dispersion is generally viewed as a consequence of forces exerted on the drop-pair squeezing out the intervening continuous phase to a critical thickness. A new synthesis is proposed herein which models the film drainage as a stochastic process driven by a suitably idealized random process for the fluctuating force. While the true test of the model lies in detailed parameter estimations with measurement of drop-size distributions in coalescing dispersions, experimental measurements on average coalescence frequencies lend preliminary support to the model.
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The coalescence of nearly rigid liquid droplets in a turbulent flow field is viewed as the drainage of a thin film of liquid under the action of a stochastic force representing the effect of turbulence. The force squeezing the drop pair is modelled as a correlated random function of time. The drops are assumed to coalesce once the film thickness becomes smaller than a critical thickness while they are regarded as separated if their distance of separation is larger than a prescribed distance. A semi-analytical solution is derived to determine the coalescence efficiency. The veracity of the solution procedure is established via a Monte-Carlo solution scheme. The model predicts a reversing trend of the dependence of the coalescence efficiency on the drop radii, the film liquid viscosity and the turbulence energy dissipation per unit mass, as the relative fluctuation increases. However, the dependence on physical parameters is weak (especially at high relative fluctuation) so that for the smallest droplets (which are nearly rigid) the coalescence efficiency may be treated as an empirical constant. The predictions of this model are compared with those of a white-noise force model. The results of this paper and those in Muralidhar and Ramkrishna (1986, Ind. Engng Chem. Fundam. 25, 554-56) suggest that dynamic drop deformation is the key factor that influences the coalescence efficiency.
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We study the problem of the coalescence of twisted flux tubes by assuming that the azimuthal field lines reconnect at a current sheet during the coalescence process and everywhere else the magnetic field is frozen in the fluid. We derive relations connecting the topology of the coalesced flux tube with the topologies of the initial flux tubes, and then obtain a structure equation for calculating the field configuration of the coalesced flux tube from the given topology. Some solutions for the two extreme cases of low-β plasma and high-β plasma are discussed. The coalesced flux tube has less twist than the initial flux tube. Magnetic helicity is found to be exactly conserved during the coalescence, but the assumptions in the model put a constraint on the energy dissipation so that we do not get a relaxation to the minimum-energy Taylor state in the low-β case. It is pointed out that the structure equation connecting the topology and the equilibrium configuration is quite general and can be of use in many two-dimensional flux tube problems.
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The various existing models for predicting the maximum stable drop diameterd max in turbulent stirred dispersions have been reviewed. Variations in the basic framework dictated by additional complexities such as the presence of drag reducing agents in the continuous phase, or viscoelasticity of the dispersed phase have been outlined. Drop breakage in the presence of surfactants in the continuous phase has also been analysed. Finally, the various approaches to obtaining expressions for the breakage and coalescence frequencies, needed to solve the population balance equation for the number density function of the dispersed phase droplets, have been discussed.
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A model for coalescence efficiency of two drops embedded in an eddy has been developed. Unlike the other models which consider only head-on collisions, the model considers the droplets to approach at an arbitrary angle. The drop pair is permitted to undergo rotation while they approach each other. For coalescence to occur, the drops are assumed to approach each other under a squeezing force acting over the life time of eddy but which can vary with time depending upon the angle of approach. The model accounts for the deformation of tip regions of the approaching drops and, describes the rupture of the intervening film, based on stability considerations while film drainage is continuing under the combined influence of the hydrodynamic and van der Waals forces. The coalescence efficiency is defined as the ratio of the range of angles resulting in coalescence to the total range of all possible approach angles. The model not only reconciles the contradictory predictions made by the earlier models based on similar framework but also brings out the important role of dispersed-phase viscosity. It further predicts that the dispersions involving pure phases can be stabilized at high rps values. Apart from explaining the hitherto unexplained experimental data of Konno et al. qualitatively, the model also offers an alternate explanation for the interesting observations of Shinnar.
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In order to depict the mechanism of coalescence in fibrous bed coalescers, a model coalescer was fabricated. Both water/oil and oil/water dispersions were run through this model coalescer to check for coalescence on PTFE and glass surfaces. The equilibrium contact angle and the dynamic contact angle of the dispersed drops were measured on these surfaces in the presence of the continuous phase. Coalescence was monitored using a microscope. Based on these observations a mechanism of coalescence in the model coalescer is proposed. Different modes of coalescence are correlated to the equilibrium contact angle and the dynamic contact angle. Deposition of dirt on the coalescing surface is observed to result in change of wettability, leading to redispersion of the already coalesced dispersed phase into larger droplets.
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We report on the synthesis of CdSe magic-sized clusters (MSCs) and their evolution into 1D rod and wires retaining the diameter of the order of MSCs. At the beginning of the reaction, different classes of stable MSCs with band gaps of 3.02 eV and 2.57 eV are formed, which exhibit sharp band edge photoluminescence features with FWHM in the order of similar to 13 nm. Reaction annealing time was carried out in order to monitor the shape evolution of the MSCs. We find that magic sized CdSe evolve into 1D rod and wires retaining the same diameter upon increasing annealing time. We observed the gradual emergence of new red shifted emission peaks during this shape evolution process, which emerge as a result of one dimensional energy transfer within the magic sized clusters during their subsequent transformation into rods and wires. The smallest, the second smallest sized MSC and the wires sequentially act as donors and acceptors during the size evolution from small MSCs to larger ones, and then eventually to wires. Steady-state and time-resolved luminescent spectroscopy revealed Forster resonance energy transfer (FRET) between the MSCs to the rods and wires.