Tesi sul tema "Interface phenomenon"
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Ramos, Roberto Luiz da Cunha Barroso. "Aeroservoelastic analysis of the blade-sailing phenomenon in the helicopter-ship dynamic interface". Instituto Tecnológico de Aeronáutica, 2007. http://www.bd.bibl.ita.br/tde_busca/arquivo.php?codArquivo=368.
Testo completoBunting, I. "An ethnographic study of the development interface : knowledge, power, culture and the phenomenon of the development community". Thesis, Swansea University, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.636175.
Testo completoSeth, Umesh Kumar. "Message Passing Interface parallelization of a multi-block structured numerical solver. Application to the numerical simulation of various typical Electro-Hydro-Dynamic flows". Thesis, Poitiers, 2019. http://www.theses.fr/2019POIT2264/document.
Testo completoSeveral intricately coupled applications of modern industries fall under the multi-disciplinary domain of Electrohydrodynamics (EHD), where the interactions among charged and neutral particles are studied in context of both fluid dynamics and electrostatics together. The charge particles in fluids are generated with various physical mechanisms, and they move under the influence of external electric field and the fluid velocity. Generally, with sufficient electric force magnitudes, momentum transfer occurs from the charged species to the neutral particles also. This coupled system is solved with the Maxwell equations, charge transport equations and Navier-Stokes equations simulated sequentially in a common time loop. The charge transport is solved considering convection, diffusion, source terms and other relevant mechanisms for species. Then, the bulk fluid motion is simulated considering the induced electric force as a source term in the Navier-Stokes equations, thus, coupling the electrostatic system with the fluid. In this thesis, we numerically investigated some EHD phenomena like unipolar injection, conduction phenomenon in weakly conducting liquids and flow control with dielectric barrier discharge (DBD) plasma actuators.Solving such complex physical systems numerically requires high-end computing resources and parallel CFD solvers, as these large EHD models are mathematically stiff and highly time consuming due to the range of time and length scales involved. This thesis contributes towards advancing the capability of numerical simulations carried out within the EFD group at Institut Pprime by developing a high performance parallel solver with advanced EHD models. Being the most popular and specific technology, developed for the distributed memory platforms, Message Passing Interface (MPI) was used to parallelize our multi-block structured EHD solver. In the first part the parallelization of our numerical EHD solver with advanced MPI protocols such as Cartesian topology and Inter-Communicators is undertaken. In particular a specific strategy has been designed and detailed to account for the multi-block structured grids feature of the code. The parallel code has been fully validated through several benchmarks, and scalability tests carried out on up to 1200 cores on our local cluster showed excellent parallel speed-ups with our approach. A trustworthy database containing all these validation tests carried out on multiple cores is provided to assist in future developments. The second part of this thesis deals with the numerical simulations of several typical EHD flows. We have examined three-dimensional electroconvection induced by unipolar injection between two planar-parallel electrodes. Unsteady hexagonal cells were observed in our study. 3D flow phenomenon with electro-convective plumes was also studied in the blade-plane electrode configuration considering both autonomous and non-autonomous injection laws. Conduction mechanism based on the dissociation of neutral molecules of a weakly conductive liquid has been successfully simulated. Our results have been validated with some numerical computations undertaken with the commercial code Comsol. Physical implications of Robin boundary condition and Onsager effect on the charge species were highlighted in electro-conduction in a rectangular channel. Finally, flow control using Dielectric Barrier Discharge plasma actuator has been simulated using the Suzen-Huang model. Impacts of dielectric thickness, gap between the electrodes, frequency and waveform of applied voltage etc. were investigated in terms of their effect on the induced maximum ionic wind velocity and average body force. Flow control simulations with backward facing step showed that a laminar flow separation could be drastically controlled by placing the actuator at the tip of the step with both electrodes perpendicular to each other
Li, Hao. "Approche multi-échelle pour les écoulements polyphasiques en présence de phénomènes interfaciaux". Electronic Thesis or Diss., Université de Lorraine, 2024. http://www.theses.fr/2024LORR0081.
Testo completoInterfacial phenomena as a research domain have attracted focus and resources from areas of industrial and fundamental interests: cosmetics, printing, food industries, and glass productions, etc. What charms the defender most is the phenomena with drops and bubbles - their processes of coalescing, spreading, draining, and bursting - involving non-Newtonian fluids. Multiple experimental methods such as ultra-high-speed DC electrical acquisition system, high-speed camera and high-speed micro-PIV were jointly adopted for the investigation. The first part focused on experimental research on initial contact and spreading (coalescing) of a non-Newtonian drop on a solid (liquid) planar surface. The evolution of the electrical conductance in close relation with the drop spreading (coalescing) width was detected at first microseconds. Spreading (coalescing) behaviors of an opaque dispersion of nanoparticles was examined. Regimes and mechanism behind were revealed via dimensionless scaling. The quantification of flow fields inside a spreading (coalescing) drop was performed. The second part comparatively investigated the lifetime and bursting behavior of a single bubble at different liquid surfaces and through particle-laden liquid surfaces. Bubble cap thickness was quantitatively compared based on the high-speed imaging results. Velocity fields and profiles around bubble cavity were drafted and analyzed. The role of particle layer, together with fluids’ viscoelasticity, was confirmed in the shift for a bubble from a quick rupture death to a slow shrinking disappearance. The last part studied the coalescence of a non-Newtonian drop with its bulk phase through particle-laden air-liquid surfaces. A characteristic evaluation of speed fields within the drop and the bulk was conducted. An electrical signal analysis was carried out to highlight the difference with the coalescence of a drop with particle-free surfaces. The complicate role of particle layer as a barrier and bridge at the same time was confirmed and its relationship with fluid’s viscoelasticity was demonstrated
Bao, Qinye. "Interface Phenomena in Organic Electronics". Doctoral thesis, Linköpings universitet, Ytors Fysik och Kemi, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-118922.
Testo completoVillanueva, Walter. "Diffuse-Interface Simulations of Capillary Phenomena". Doctoral thesis, Stockholm : Kungl. tekniska högskolan, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-4402.
Testo completoZahedi, Sara. "Numerical Modeling of Fluid Interface Phenomena". Licentiate thesis, Stockholm : Skolan för datavetenskap och kommunikation, Kungliga Tekniska högskolan, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-10507.
Testo completoWheale, Samantha Hilary. "Physicochemical phenomena at the plasma-polymer interface". Thesis, Durham University, 1997. http://etheses.dur.ac.uk/4977/.
Testo completoQuinn, Amy May. "The study of contact phenomena using ultrasound". Thesis, University of Bristol, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.271847.
Testo completoChiu, Patrick Y. "Computational modeling of atomistic phenomena at the interface". [Gainesville, Fla.] : University of Florida, 2009. http://purl.fcla.edu/fcla/etd/UFE0024892.
Testo completoLegrand, Frédéric. "Glissement aux parois des polymères fondus enchevêtrés". Université Joseph Fourier (Grenoble), 1997. http://www.theses.fr/1997GRE10288.
Testo completoHernandez, Medina Santiago. "Turbulent interface phenomena in a temporally developing boundary layer". Master's thesis, Alma Mater Studiorum - Università di Bologna, 2017. http://amslaurea.unibo.it/14721/.
Testo completoHerescu, Alexandru. "Two-Phase Flow In Microchannels| Morphology And Interface Phenomena". Thesis, Michigan Technological University, 2013. http://pqdtopen.proquest.com/#viewpdf?dispub=3565323.
Testo completoThe existence and morphology, as well as the dynamics of micro-scale gas-liquid interfaces is investigated numerically and experimentally. These studies can be used to assess liquid management issues in microsystems such as PEMFC gas flow channels, and are meant to open new research perspectives in two-phase flow, particularly in film deposition on non-wetting surfaces. For example the critical plug volume data can be used to deliver desired length plugs, or to determine the plug formation frequency. The dynamics of gas-liquid interfaces, of interest for applications involving small passages (e.g. heat exchangers, phase separators and filtration systems), was investigated using high-speed microscopy - a method that also proved useful for the study of film deposition processes.
The existence limit for a liquid plug forming in a mixed wetting channel is determined by numerical simulations using Surface Evolver. The plug model simulate actual conditions in the gas flow channels of PEM fuel cells, the wetting of the gas diffusion layer (GDL) side of the channel being different from the wetting of the bipolar plate walls. The minimum plug volume, denoted as critical volume is computed for a series of GDL and bipolar plate wetting properties. Critical volume data is meant to assist in the water management of PEMFC, when corroborated with experimental data. The effect of cross section geometry is assessed by computing the critical volume in square and trapezoidal channels. Droplet simulations show that water can be passively removed from the GDL surface towards the bipolar plate if we take advantage on differing wetting properties between the two surfaces, to possibly avoid the gas transport blockage through the GDL.
High speed microscopy was employed in two-phase and film deposition experiments with water in round and square capillary tubes. Periodic interface destabilization was observed and the existence of compression waves in the gas phase is discussed by taking into consideration a naturally occurring convergent-divergent nozzle formed by the flowing liquid phase. The effect of channel geometry and wetting properties was investigated through two-phase water-air flow in square and round microchannels, having three static contact angles of 20, 80 and 105 degrees. Four different flow regimes are observed for a fixed flow rate, this being thought to be caused by the wetting behavior of liquid flowing in the corners as well as the liquid film stability. Film deposition experiments in wetting and non-wetting round microchannels show that a thicker film is deposited for wetting conditions departing from the ideal 0 degrees contact angle. A film thickness dependence with the contact angle theta as well as the Capillary number, in the form hR ≈ Ca(2/3 )/cos(&thetas;) is inferred from scaling arguments, for contact angles smaller than 36 degrees. Non-wetting film deposition experiments reveal that a film significantly thicker than the wetting Bretherton film is deposited. A hydraulic jump occurs if critical conditions are met, as given by a proposed nondimensional parameter similar to the Froude number. Film thickness correlations are also found by matching the measured and the proposed velocity derived in the shock theory. The surface wetting as well as the presence of the shock cause morphological changes in the Taylor bubble flow.
Haidou, Konstantina. "The syntax-pragmatics interface of focus phenomena in Greek". Thesis, SOAS, University of London, 2012. http://eprints.soas.ac.uk/13635/.
Testo completoTaleb, Mandana. "PHENOMENES AUX INTERFACES DES ISOLANTS : MESURE ET SIMULATION". Phd thesis, Université Paul Sabatier - Toulouse III, 2011. http://tel.archives-ouvertes.fr/tel-00670594.
Testo completoSirisathitkul, C. "Studies of transport phenomena at ferromagnet/semiconductor interfaces". Thesis, University of Oxford, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.325445.
Testo completoVlachos, Georgios. "Adhesion and dewetting phenomena of surfaces and interfaces". Thesis, University of Sheffield, 2004. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.414622.
Testo completoGraham, John Samuel. "Electrical phenomena at interfaces in liquid phase reprographics". Thesis, University of Exeter, 1991. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.261192.
Testo completoHens, Philip [Verfasser]. "Interface-Phenomena in 3C-SiC Heteroepitaxy on Silicon / Philip Hens". Aachen : Shaker, 2011. http://d-nb.info/1071529080/34.
Testo completoWormald, Mark R. "An investigation of some interface phenomena using nuclear magnetic resonance". Thesis, University of Oxford, 1989. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.237990.
Testo completoJamie, Elizabeth A. G. "Colloidal interfaces in confinement". Thesis, University of Oxford, 2011. http://ora.ox.ac.uk/objects/uuid:26b47a79-7198-4983-9109-174ac2d3e01d.
Testo completoBlack, M. J. "Electrical phenomena observed at Nb-Si superconductor-semiconductor interfaces". Thesis, University of Cambridge, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.596675.
Testo completoFábIán, Balázs. "Molecular Modeling of Interfacial Phenomena". Thesis, Bourgogne Franche-Comté, 2018. http://www.theses.fr/2018UBFCD041.
Testo completoThe tools of numerical simulation enable the analysis of interfaces at themolecular scale, both in terms of their structure and their dynamic behavior.Thus, in my thesis work, I developed the PYTIM software that includes the mostpopular procedures for interfacial analysis at the molecular level, providing asolid foundation for research work on surfaces and interfaces.Using these methods, I investigated the dynamic behavior of molecules at theinterfaces of different biological and atmospheric systems of interest. Indoing so, I studied the correlation between the dynamics of molecules on thesurface and the corresponding intermolecular interactions. In addition, Iworked on the calculation of pressure profiles in simulated systems. Inparticular, the localization of an inherently non-local quantity, the pressure,represents a considerable technical difficulty. I have shown that the pressureprofiles can be calculated in systems containing point charges via the Harasimacontour with mesh Ewald methods (PME). Moreover, I showed how the rigidconstraints often used in simulations introduce a coupling between thetranslational degrees of freedom and the rotational degrees of freedom. Theconsequence of this coupling is that the kinetic energy tensor is no longerconstant, even in equilibrium systems, which -- if neglected -- can introducesignificant errors in the calculation of the surface tension.The methods developed during my thesis work provided means to study variousproblems, such as the distribution of the surface tension near the interface,the relation between the spinodal pressure and the minimum of the lateralpressure profile. They also enabled the investigation of the possible linksbetween the lateral pressure profiles and the mechanism of action of anestheticmolecules, thus providing a molecular basis for the hypothesis ofCantor.Finally, I also studied gas/solid equilibrium characterizing, by Monte Carlosimulation in the grand canonical ensemble, the trapping of ammonia moleculesin a clathrate under conditions of pressure and temperature representative ofextraterrestrial environments
Dedinaite, Andra. "Surface force studies of association phenomena at solid-liquid interfaces". Doctoral thesis, KTH, Chemistry, 1999. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-2849.
Testo completoThe main topics of this thesis, association phenomena inbulk and at solid-liquid interfaces in polar and non-polarmedia, were studied by a range of methods. Direct forcemeasurements employing the interferometric surface forceapparatus (SFA) was the chief technique. In addition, atomicforce microscopy (AFM), X-ray photoelectron spectroscopy (XPS),small angle neutron scattering (SANS), dynamic light scattering(DLS), turbidimetric and electrophoretic mobility measurementswere also applied. These techniques give complementaryinformation, and together they can provide a rather detailedpicture of the fairly complex systems studied.
The first system studied was designed to explore particleinteractions in non-polar media. It consisted of polar or,alternatively, non-polar surfaces immersed in a non-polarmedium, triolein, in some cases containing additives such asphospholipids, polyglycerol polyricinoleate (PGPR), and traceamounts of water. It was investigated how triolein mediates thesurface interactions and how these interactions are affected bythe presence of additives. Triolein adsorbs onto mica surfacesthus producing a barrier against flocculation of the particles.The additives mentioned interact with the surfaces and witheach other, thus altering the surface interactions. Water, forinstance, being strongly polar, preferentially adsorbs ontomica and disturbs the triolein ordering at the mica surfacescausing the barrier against flocculation to vanish. Owing tocapillary condensation of water, a strong adhesion between thesurfaces is instead developed. On the other hand, it could beshown that in the presence of phospholipids, the effect ofwater was opposite: long-range repulsive forces develop due toweakly adsorbed reversed phospholipid aggregates.
The second type of system studied contained cationicpolyelectrolytes and oppositely charged surfactants. Suchsystems occur in numerous technological processes: wastewatertreatment and ore recovery as well as laundry and body care.Polyelectrolytes and surfactants associate in bulk solution,and they also adsorb on surfaces. Thus, the relation betweenthe bulk properties of polyelectrolyte-surfactant mixtures andtheir properties at the solid-liquid interface is of greatscientific and industrial interest. The bulk properties ofpolyelectrolyte-surfactant aggregates were characterised byDLS, SANS, turbidimetry and electrophoretic mobilitymeasurements. It was concluded that to a certain extent theinterfacial properties of polyelectrolyte-surfactant aggregatescan be rationalised by considering their bulk properties.However, it was also shown that the presence of a surfaceaffects the association between polyelectrolytes andsurfactants. The chemical composition of adsorbed aggregates isdifferent from that of aggregates in solution, and, moreover,the structure of surface-bound polyelectrolyte-surfactantaggregates changes slowly with time.
Keywords:Triolein, phosphatidiylethanolamine,phospholipid, lecithin, capillary condensation, polyglycerolpolyricinoleate, aggregation, adsorption, surface forces,structural forces, mica, polar surface, non-polar surface,polyelectrolyte, surfactant, sodium dodecyl sulphate,polyelectrolyte-surfactant association, turbidity,electrophoretic mobility, AFM, SANS, DLS, SFA.
Zhang, Zhiming. "Modélisation mécanique des interfaces multi-contacts dans une pile à combustible". Thesis, Evry-Val d'Essonne, 2010. http://www.theses.fr/2010EVRY0035/document.
Testo completoThe fuel cell transforms chemical energy to electrical power sources through a stack of different planar structures. Mechanical phenomena presented on the multi-contact interface acts more or less the fuel cell's performance and lifetime. We have shown that the pre-load by stacking bolts, the deformation of the gas diffusion layer (GDL), the contact and the configuration of the bipolar plate (BPP) had influences on the contact resistance, the porosity and the permeability of the fuel cell. The contact resistance is determined by the contact area and contact pressure. The porosity and permeability are related to the interfacial deformation. The contact between the different structures has a major role in the fuel cell operation. This problem is solved by the finite element method. Various parameters of the fuel cell as the pre-load, the geometric structure of teeth of BPP as well as the porosity of the GDL were studied and allowed to know the contact behavior and the deformation. The influence of some parameters on the mechanical results of fuel cell stack was then tackled. The purpose of this study is to provide optimum values of these parameters to obtain the best performance of fuel cells
Pongsaksawad, Wanida. "Numerical modeling of interface dynamics and transport phenomena in transport-limited electrolysis processes". Thesis, Massachusetts Institute of Technology, 2006. http://hdl.handle.net/1721.1/36209.
Testo completoThis electronic version was submitted by the student author. The certified thesis is available in the Institute Archives and Special Collections.
Includes bibliographical references (p. 111-117).
Electrochemical reactions in materials and processes induce morphological instability on the cathode, which can lead to porous deposits or system failure. The growth of the protrusion is a complex phenomenon which involves chemical, electrical, and momentum driving forces in the system. Thus, it is important to understand the effect of electrochemistry in phase boundary evolution in order to optimize the performance of such processes. This thesis contributes to predicting and controlling such interface instability phenomena by developing a computational model that captures them. Successful application of the model to emerging metal extraction processes demonstrates its usefulness. A phase field model of electrochemical interface is developed for transport-limited electrolysis with rapid charge redistribution. This new Cahn-Hillard phase field formulation includes a model electrostatic free energy term, which captures the behavior of the diffuse interface under the applied electric field, in addition to transport by free energy gradient and convection. The model agrees with published stability criterion for a solid cathode. When the electrodes and electrolyte are low-viscosity fluids, flow stabilizes the interface.
(cont.) A new stability criterion for metal reduction in a liquid-liquid system is derived and agrees well with the model results. Next, the phase field model is extended for a ternary system to model titanium reduction in a supported electrolyte system. The model can simulate phase boundaries migration depending on the composition of the electrolyte and also electronically mediated reactions. Finally, Solid Oxide Membrane Electrolytic Smelting with Rotating Cathode (SOMERC), an emerging technology to electrolytically reduce titanium oxide from molten salt, is investigated. In the SOMERC process, rotational flow is introduced to create shear force that is expected to stabilize the interface. Computational fluid dynamics models of rotational flow are carried out to estimate the relationship between cathode rotational speed, shear strain rate, and boundary layer thicknesses. The phase field model presented in this thesis can be applied to any electrochemical reduction processes that are in the mass-transport controlled regime. Stability criteria and detailed morphology in two and three dimensions can be explored.
by Wanida Pongsaksawad.
Ph.D.
Dhopatkar, Nishad. "UNDERSTANDING THE ADSORPTION AT SOLID-LIQUID INTERFACE AND ITS CONSEQUENCES ON INTERFACIAL PHENOMENA". University of Akron / OhioLINK, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=akron149944490923674.
Testo completoMathew, Anoop. "Study of interfacial phenomena in thin films using photoelectron spectroscopy". Access to citation, abstract and download form provided by ProQuest Information and Learning Company; downloadable PDF file 2.05 Mb., 74 p, 2006. http://wwwlib.umi.com/dissertations/fullcit/1435840.
Testo completoCLOITRE, MICHEL. "Phenomenes d'agregation de particules sur une interface, induits par interaction capillaire, a deux dimensions". Paris 6, 1989. http://www.theses.fr/1989PA066108.
Testo completoRhamdhani, Muhammad Akbar Brooks Geoffrey. "Reaction kinetics and dynamic interfacial phenomena in liquid metal-slag systems". *McMaster only, 2005.
Cerca il testo completoCosta, Marcelo Henrique de Araújo Santos. "Fenômenos de Transporte em Meios Porosos e Interfaces Fractais". reponame:Repositório Institucional da UFC, 2006. http://www.repositorio.ufc.br/handle/riufc/12377.
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In this work, we investigate different transport phenomena through irregular media by means of numerical simulations. Initially, we study the effect of the critical percolation disorder on pore networks under diffusion-reaction conditions. Our results indicate the existence of three distinct regimes of reactivity, determined by the dimensionless parameter E=D/(Kl^2), where D is the molecular diffusivity of the reagent, K is its chemical reaction coefficient, and l is the length scale of the pore. At low values of E, the flux of the reacting species penetrating the network follows the classical scaling behavior, namely F~LE^(1/2). At intermediate values of E, the influence of the fractal morphology of the percolating cluster results in an anomalous behavior, F~L^(A/2)E^B, with an exponent B=0.34. At high values of E, the flux of the reagent reaches a saturation limit, F_SAT, that scales with the system size as F_SAT=L^A, with an exponent A=1.89, corresponding to the fractal dimension of the sample-spanning cluster. In the second part of this work, we study how the irregularity of the geometry influences the sequential deactivation of an interface accessed by diffusion. By using the notion of active zone, we propose a conjecture which constitutes an extension of Makarov theorem. In the third part, we investigate the steady-state heat transport in a fluid flowing through a two-dimensional channel whose walls are irregular interfaces. Once more, we apply the notion of active zone to investigate the effect of the interface geometry on the heat exchange efficiency of the system for different conductive-convective conditions. Compared with the behavior of a channel with smooth interfaces and under conditions in which the mechanism of heat conduction dominates, the results indicate that the effect of roughness is almost negligible on the efficiency of the heat transport system. On the other hand, when the convection becomes dominant, the role of the interface roughness is to generally increase both the heat flux across the wall as well as the active length of heat exchange, when compared with the smooth channel. Finally, we show that this last behavior is closely related with the presence of recirculation zones in the reentrant regions of the fractal geometry.
Neste trabalho investigamos diversos fenômenos de transporte tendo lugar através de meios irregulares por meio de simulação computacional. Inicialmente, tratamos do efeito da desordem crítica em redes percolantes de poros sujeitas à difusão e reação química. Verificamos a existência de três regimes distintos, determinados pelo parâmetro adimensional E=D/(Kl^2), onde D é a difusão molecular, K o coeficiente de reação química e l um comprimento característico. Para valores baixos de E, o fluxo de reagente que penetra a rede obedece à relação de escala clássica, F~LE^(1/2). Para valores intermediários de E, a influência da morfologia fractal do agregado de percolação resulta em um regime anômalo, F~L^(A/2)E^B, com um expoente B=0.34. Para valores altos de E, o fluxo de reagente atinge um limite de saturação, F_SAT, e escala com o tamanho do sistema na forma F_SAT=L^A, onde A=1.89 corresponde à dimensão fractal do agregado incipiente de percolação. Em uma segunda etapa do trabalho, analisamos o efeito da geometria irregular na desativação seqüencial de uma interface acessada por difusão. Aplicando o conceito de zona ativa, propomos uma conjectura que se constitui numa extensão do teorema de Makarov. Na terceira parte deste trabalho, investigamos o transporte estacionário de calor no escoamento de um fluido através de um tubo bidimensional, cujas paredes são interfaces irregulares. Mais uma vez, utilizando o conceito de zona ativa, investigamos o efeito da geometria da interface na eficiência de troca térmica do sistema em diferentes condições difusivo-convectivas. Em condições nas quais o mecanismo de transporte dominante é a condução, a comparação entre os resultados dos tubos liso e rugosos indica que o efeito da rugosidade é quase desprezível sobre a eficiência de dispositivos de transporte de calor. Por outro lado, quando a convecção torna-se dominante, a rugosidade passa a ter um papel importante e, em geral, o fluxo de calor e o comprimento da zona ativa aumentam com a rugosidade da interface de troca. Finalmente, mostramos que esse último comportamento está relacionado com as zonas de recirculação, presentes nas reentrâncias da geometria fractal.
Ledyastuti, Mia. "First Principles and Classical Molecular Dynamics of Oil-Quartz Interfacial Phenomena in Nanogeoscience". 京都大学 (Kyoto University), 2012. http://hdl.handle.net/2433/157547.
Testo completoFatourechi, Mehrdad. "Design of a self-paced brain computer interface system using features extracted from three neurological phenomena". Thesis, University of British Columbia, 2008. http://hdl.handle.net/2429/302.
Testo completoShih, Grace Hwei-Pyng. "Nanostructure and Optoelectronic Phenomena in Germanium-Transparent Conductive Oxide (Ge:TCO) Composites". Diss., The University of Arizona, 2012. http://hdl.handle.net/10150/228175.
Testo completoSchumacher, Daniel [Verfasser]. "Interplay between magnetic and dielectric phenomena at tranistion metal oxide interfaces / Daniel Schumacher". Aachen : Hochschulbibliothek der Rheinisch-Westfälischen Technischen Hochschule Aachen, 2013. http://d-nb.info/1036292681/34.
Testo completoNoever, Simon J. [Verfasser], e Bert [Akademischer Betreuer] Nickel. "Surface and interface phenomena in organic thin film transistors / Simon J. Noever ; Betreuer: Bert Nickel". München : Universitätsbibliothek der Ludwig-Maximilians-Universität, 2016. http://d-nb.info/1135136203/34.
Testo completoStadig, Degerman Mari, Caroline Larsson e Jan Anward. "When metaphors come to life : at the interface of external representations, molecular processes and student learning". Linköpings universitet, Institutionen för teknik och naturvetenskap, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-76140.
Testo completoCosta, Marcelo Henrique de AraÃjo Santos. "FenÃmenos de Transporte em Meios Porosos e Interfaces Fractais". Universidade Federal do CearÃ, 2006. http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=155.
Testo completoNeste trabalho investigamos diversos fenÃmenos de transporte tendo lugar atravÃs de meios irregulares por meio de simulaÃÃo computacional. Inicialmente, tratamos do efeito da desordem crÃtica em redes percolantes de poros sujeitas à difusÃo e reaÃÃo quÃmica. Verificamos a existÃncia de trÃs regimes distintos, determinados pelo parÃmetro adimensional E=D/(Kl^2), onde D à a difusÃo molecular, K o coeficiente de reaÃÃo quÃmica e l um comprimento caracterÃstico. Para valores baixos de E, o fluxo de reagente que penetra a rede obedece à relaÃÃo de escala clÃssica, F~LE^(1/2). Para valores intermediÃrios de E, a influÃncia da morfologia fractal do agregado de percolaÃÃo resulta em um regime anÃmalo, F~L^(A/2)E^B, com um expoente B=0.34. Para valores altos de E, o fluxo de reagente atinge um limite de saturaÃÃo, F_SAT, e escala com o tamanho do sistema na forma F_SAT=L^A, onde A=1.89 corresponde à dimensÃo fractal do agregado incipiente de percolaÃÃo. Em uma segunda etapa do trabalho, analisamos o efeito da geometria irregular na desativaÃÃo seqÃencial de uma interface acessada por difusÃo. Aplicando o conceito de zona ativa, propomos uma conjectura que se constitui numa extensÃo do teorema de Makarov. Na terceira parte deste trabalho, investigamos o transporte estacionÃrio de calor no escoamento de um fluido atravÃs de um tubo bidimensional, cujas paredes sÃo interfaces irregulares. Mais uma vez, utilizando o conceito de zona ativa, investigamos o efeito da geometria da interface na eficiÃncia de troca tÃrmica do sistema em diferentes condiÃÃes difusivo-convectivas. Em condiÃÃes nas quais o mecanismo de transporte dominante à a conduÃÃo, a comparaÃÃo entre os resultados dos tubos liso e rugosos indica que o efeito da rugosidade à quase desprezÃvel sobre a eficiÃncia de dispositivos de transporte de calor. Por outro lado, quando a convecÃÃo torna-se dominante, a rugosidade passa a ter um papel importante e, em geral, o fluxo de calor e o comprimento da zona ativa aumentam com a rugosidade da interface de troca. Finalmente, mostramos que esse Ãltimo comportamento està relacionado com as zonas de recirculaÃÃo, presentes nas reentrÃncias da geometria fractal.
In this work, we investigate different transport phenomena through irregular media by means of numerical simulations. Initially, we study the effect of the critical percolation disorder on pore networks under diffusion-reaction conditions. Our results indicate the existence of three distinct regimes of reactivity, determined by the dimensionless parameter E=D/(Kl^2), where D is the molecular diffusivity of the reagent, K is its chemical reaction coefficient, and l is the length scale of the pore. At low values of E, the flux of the reacting species penetrating the network follows the classical scaling behavior, namely F~LE^(1/2). At intermediate values of E, the influence of the fractal morphology of the percolating cluster results in an anomalous behavior, F~L^(A/2)E^B, with an exponent B=0.34. At high values of E, the flux of the reagent reaches a saturation limit, F_SAT, that scales with the system size as F_SAT=L^A, with an exponent A=1.89, corresponding to the fractal dimension of the sample-spanning cluster. In the second part of this work, we study how the irregularity of the geometry influences the sequential deactivation of an interface accessed by diffusion. By using the notion of active zone, we propose a conjecture which constitutes an extension of Makarov theorem. In the third part, we investigate the steady-state heat transport in a fluid flowing through a two-dimensional channel whose walls are irregular interfaces. Once more, we apply the notion of active zone to investigate the effect of the interface geometry on the heat exchange efficiency of the system for different conductive-convective conditions. Compared with the behavior of a channel with smooth interfaces and under conditions in which the mechanism of heat conduction dominates, the results indicate that the effect of roughness is almost negligible on the efficiency of the heat transport system. On the other hand, when the convection becomes dominant, the role of the interface roughness is to generally increase both the heat flux across the wall as well as the active length of heat exchange, when compared with the smooth channel. Finally, we show that this last behavior is closely related with the presence of recirculation zones in the reentrant regions of the fractal geometry.
Chu, Yeou-Li. "Investigation of the interface phenomena and its effect on erosion and corrosion in aluminum die casting /". The Ohio State University, 1997. http://rave.ohiolink.edu/etdc/view?acc_num=osu1487944660930011.
Testo completoSilvestri, Lorenzo. "Numerical study of wind-wave interfacial phenomena". Master's thesis, Alma Mater Studiorum - Università di Bologna, 2017. http://amslaurea.unibo.it/14643/.
Testo completoCoronado, Hernández Óscar Enrique. "Transient phenomena during the emptying process of water in pressurized pipelines". Doctoral thesis, Universitat Politècnica de València, 2020. http://hdl.handle.net/10251/120024.
Testo completo[CAT] L'anàlisi dels fenòmens transitoris durant les operacions d'ompliment en conduccions d'aigua ha sigut estudiat de manera detallada comparat amb les maniobres de buidatge. En este últim es va trobar que no hi ha models matemàtics capaços de predir el fenomen. Esta investigació inicia estudiant el fenomen transitori generat durant el buidatge en una canonada simple, com a pas previ per a entendre el comportament de les variables hidràuliques i termodinàmiques durant el buidatge d'aigua en conduccions pressuritzades de perfil irregular. Les anàlisis són realitzats considerant dos situacions: (i) la situació No. 1 correspon al cas on no hi ha vàlvules d'aire instal·lades o quan estes han fallat per problemes operacionals o de manteniment, que representa la condició més desfavorable respecte a la depressió màxima aconseguida; i (ii) la situació No. 2 correspon al cas on s'han instal·lat vàlvules d'aire en els punts més elevats de la conducció per a donar fiabilitat per mitjà de l'aire introduït al sistema prevenint d'esta manera la depressió màxima. En esta tesi doctoral s'ha desenrotllat un model matemàtic per a predir el comportament de les operacions de buidatge. El model matemàtic és proposat per a les dos situacions mencionades anteriorment. La fase líquida (aigua) és simulada amb un model de columna rígida, en el qual es desprecia l'elasticitat de l'aigua i de la canonada pel fet que l'elasticitat de l'aire és molt major que estes; i la interfície aire-aigua és modelada amb un model de flux pistó, el qual assumix que la columna d'aigua és perpendicular a la direcció principal del flux. La fase d'aire és modelada usant tres equacions: (a) un model politròpic basat en el comportament energètic, que considera l'expansió de les bosses d'aire; (b) la formulació de les vàlvules d'aire per a quantificar la magnitud del cabal d'aire admés; i (c) l'equació de continuïtat de la bossa d'aire. Un sistema ordinari d'equacions diferencials és solucionat utilitzant la ferramenta de Simulink de Matlab. El model matemàtic és validat emprant bancs experimentals localitzats en els laboratoris d'hidràulica de la Universitat Politècnica de València (València, Espanya) i en l'Institut Superior Tècnic de la Universitat de Lisboa (Lisboa, Portugal). Els resultats mostren que el model matemàtic prediu adequadament les dades experimentals de les pressions de les bosses d'aire, les velocitats de l'aigua i les longituds de les columnes d'aigua. Finalment, el model matemàtic és aplicat a un cas d'estudi per a mostrar la seua aplicabilitat a situacions pràctiques, a fi de poder ser empleat per enginyers per a estudiar el fenomen en conduccions reals i així prendre decisions sobre la planificació d'esta operació.
[EN] The analysis of transient phenomena during water filling operations in pipelines of irregular profiles has been studied much more compared to emptying maneuvers. In the literature, there is a lack of knowledge about mathematical models of emptying operations. This research starts with the analysis of a transient phenomenon during emptying maneuvers in single pipelines, which is a previous stage to understand the emptying operation in pipelines of irregular profiles. Analysis are conducted under two typical situations: (i) one corresponding to either the situation where there are no air valves installed or when they have failed due to operational and maintenance problems which represents the worse condition due to causing the lowest troughs of subatmospheric pressure, and (ii) the other one corresponding to the situation where air valves have been installed at the highest point of hydraulic installations to give reliability by admitting air into the pipelines for preventing troughs of subatmospheric pressure. Particularly, this research developed a mathematical model to predict the behavior of the emptying operations. The mathematical model is proposed for the two aforementioned situations. The liquid phase (water) is simulated using a rigid water column model (RWCM), which neglects the pipe and water elasticity given that the elasticity of the entrapped air pockets is much higher than the one from the pipe and the water. The air-water interface is simulated with a piston flow model assuming that the water column is perpendicular with the main direction of the flow. Gas phase is modeled using three formulations: (a) a polytropic model based on its energetic behavior, which considers an expansion of air pockets; (b) an air valve characterization to quantify the magnitude of admitted air flow; and (c) a continuity equation of the air. An ordinary differential equations system is solved using the Simulink tool of Matlab. The proposed model has been validated using experimental facilities at the hydraulic laboratories of the Universitat Politècnica de València, Valencia, Spain, and the Instituto Superior Técnico, University of Lisbon, Lisbon, Portugal. The results show how the mathematical model adequately predicts the experimental data, including the pressure oscillation patterns, the water velocities, and the lengths of the water columns. Finally, the mathematical model is applied to a case study to show a practical application, which can be used for engineers to study the phenomenon in real pipelines to make decisions about performing of the emptying operation.
Coronado Hernández, ÓE. (2019). Transient phenomena during the emptying process of water in pressurized pipelines [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/120024
TESIS
Shin, Yun Kyung. "The water-amorphous silica interface: electrokinetic phenomena in a complex geometry, and treatment of interactions with biomolecules". The Ohio State University, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=osu1299587783.
Testo completoPhimphivong, Samrane. "Applications of Total Internal Reflection Fluorescence Microscopy for Studies of Chemical Phenomena at the Substrate-Liquid Interface". Diss., The University of Arizona, 2008. http://hdl.handle.net/10150/194335.
Testo completoSchönhals, Alexander [Verfasser], Rainer [Akademischer Betreuer] Waser e Tobias G. [Akademischer Betreuer] Noll. "Non-standard switching phenomena and interface effects in resistive switching devices / Alexander Schönhals ; Rainer Waser, Tobias G. Noll". Aachen : Universitätsbibliothek der RWTH Aachen, 2018. http://d-nb.info/1211345912/34.
Testo completoSchönhals, Alexander Verfasser], Rainer [Akademischer Betreuer] [Waser e Tobias G. [Akademischer Betreuer] Noll. "Non-standard switching phenomena and interface effects in resistive switching devices / Alexander Schönhals ; Rainer Waser, Tobias G. Noll". Aachen : Universitätsbibliothek der RWTH Aachen, 2018. http://d-nb.info/1211345912/34.
Testo completoCharlier, Quentin. "Adhesion phenomena in thermoplastic composites based on acrylic matrices obtained by free radical polymerization". Thesis, Lyon, 2016. http://www.theses.fr/2016LYSEI140.
Testo completoThese PhD research works focus on adhesion phenomena involved in thermoplastic composites based on acrylic matrices obtained by free radical polymerization. After a short bibliographic section introducing some basics on adhesion phenomena and practical adhesion measurements, properties of elementary constituents are assessed to discuss their relevancy for composite applications. Special attention is paid to acrylic reactive systems and properties of acrylic resins at liquid state. Then, the reaction mechanisms involved in free radical polymerization are detailed. The changes in acrylic system properties during polymerization are investigated to anticipate further processing-related issues. At last, a study is dedicated to the assessment of interfacial adhesion between glass fiber and acrylic matrices in fiber reinforced composites. Interfacial properties are characterized at microscale in model systems and at macroscale in real-sized composites, i.e. integrating process-induced defects. From overall results, the relevancy of acrylic thermoplastic solutions for structural composite applications is discussed
明, 北山, e Akira Kitayama. "Molecular aspect of interfacial phenomena affecting particle characteristics of drug substances". Thesis, https://doors.doshisha.ac.jp/opac/opac_link/bibid/BB13155961/?lang=0, 2020. https://doors.doshisha.ac.jp/opac/opac_link/bibid/BB13155961/?lang=0.
Testo completoThe mechanisms of interfacial phenomena affecting the particle morphology of small-molecule drugs were investigated using experimental, theoretical and numerical simulations as well as data science (statistical analysis). The mechanisms of mutual diffusion and crystal nucleation in systems with liquid-liquid interface were studied by molecular dynamics simulations, and amorphization at the solid-solid interface between co-milled materials during milling process was simulated by a combination of discrete element method and statistical methods.
博士(工学)
Doctor of Philosophy in Engineering
同志社大学
Doshisha University
Li, Linjun. "Systems Driven out of Equilibrium with Energy Input at Interfaces or Boundaries". Diss., Virginia Tech, 2015. http://hdl.handle.net/10919/77884.
Testo completoPh. D.
TAOUD, SOULMA. "Role du soufre sur la stabilite des interfaces argent-nickel en relation avec les phenomenes de segregation". Nantes, 1989. http://www.theses.fr/1989NANT2038.
Testo completoNigam, Poonam. "Interaction of water-soluble surfactants with self-assembled lipid monolayers at the vapor-liquid interface equilibrium and dynamic phenomena /". Columbus, Ohio : Ohio State University, 2006. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1157987838.
Testo completo