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11	Boiling in Capillary-Fed Porous Evaporators Subject to High Heat Fluxes Srivathsan Sudhakar (11171943) 23 July 2021 (has links) <div>Thermal management in next generation power electronic devices, radar applications and semiconductor packaging architectures is becoming increasingly challenging due to the need to reject localized high heat fluxes as well as large total powers. Air cooling has been considered as a simple and reliable method for thermal management compared to architectures that incorporate liquid cooling. However, air-cooled heat sinks typically require effective heat spreading to provide the requisite level of area enhancement to dissipate high heat fluxes. Compared to solid metallic heat spreaders, advanced heat sinks that incorporate two-phase heat transfer devices such as vapor chambers can significantly enhance the power dissipation capabilities in such configurations. Vapor chambers are devices that utilize evaporation/boiling processes within a sealed cavity to achieve efficient heat spreading. In high-heat-flux applications, boiling can occur within the internal wick structure of the vapor chamber at the location of the heat input (i.e., the evaporator). The maximum dryout heat flux and thermal resistance of the device is dictated by the resulting two-phase flow and heat transfer in the porous evaporator due to boiling. While various works in the literature have introduced new evaporator wick designs to improve the dryout heat flux during boiling, the enhancement is limited to small, millimeter scale hotspots or at a very high thermal resistance. In additixon, the effective design of such evaporator systems requires mechanistic models that can accurately predict the dryout limit and thermal performance. </div><div> This thesis first explores the usage of a novel ‘two-layer’ evaporator wick for passive high heat flux dissipation over large heater areas at a low thermal resistance. Moreover, a new mechanistic (first principles based) model framework is introduced for dryout limit and thermal performance prediction during boiling in capillary fed evaporators, by considering the resulting simultaneous flow of two phases (liquid and vapor) within the microscale porous media.</div><div> The novel two-layer wick concept uses a thick ‘cap’ layer of porous material to feed liquid to a thin ‘base’ layer through an array of vertical liquid-feeding ‘posts’. Vapor ‘vents’ in the cap layer allow for vapor formed during the boiling process (which is constrained to the base layer) to escape out of the wick. This two-layer structure decouples the functions of liquid resupply and capillary-fed boiling heat transfer, making the design realize high heat flux dissipation greater than 500 W/cm2 over large heat input areas of ~1 cm2. A reduced-order model is first developed to demonstrate the performance of a vapor chamber incorporating such a two-layer evaporator wick design. The model comprises simplified hydraulic and thermal resistance networks for predicting the capillary-limited maximum heat flux and the overall thermal resistance, respectively. The reduced-order model is validated against a higher fidelity numerical model and then used to analyze the performance of the vapor chamber with varying two-layer wick geometric feature sizes. The fabrication of the proposed two-layer wick is then presented. The thermal performance of the fabricated wicks is characterized using a boiling test facility that utilizes high speed visualization to identify the characteristic regimes of boiling operation in the wicks. The performance is also benchmarked to conventional single-layer wicks. </div><div> It is observed that single-layer wicks exhibit an unfavorable boiling regime where the center of the heater area dries out locally, leading to a high value of thermal resistance. The two-layer wicks avoid local dryout due to the distributed feeding provided by the posts and enhance the dryout heat flux significantly compared to single-layer wicks. A two-layer design that consists of a 10 × 10 array of liquid feeding posts provided a 400% improvement in the dryout heat flux. Following a parametric analysis of the effect of particle size, two-layer wicks composed of 180 – 212 µm particles and a 15 × 15 array of liquid feeding posts yielded a maximum heat flux dissipation of 485 W/cm2 over a 1 cm2 heat input area while also maintaining a low thermal resistance of only ~0.052 K/W. The effect of vapor venting and liquid-feeding areas is also experimentally studied. By understanding these effects, a parametrically optimized design is fabricated and shown to demonstrate an extremely high dryout limit of 512 W/cm2. We identify that the unique area-scalability of the two-layer wick design allows it to achieve an unprecedented combination of high total power and low-thermal-resistance heat dissipation over larger areas than was previously possible in the literature.</div><div> The results from the characterization of two-layer wicks revealed that the overall performance of the design was limited by the boiling process in the thin base wick layer. A fundamental model-based understanding of the resulting two-phase flow and heat transfer process in such thin capillary-fed porous media was still lacking. This lack of a mechanistic model precluded the accurate prediction of dryout heat flux and thermal performance of the two-layer wick. Moreover, such an understanding is needed for the optimal design of advanced hybrid evaporator wicks that leverage capillary-fed boiling. Despite the existence of various experimental works, there are currently no mechanistic approaches that model this behavior. To fill this unmet need, this thesis presents a new semi-empirical model for prediction of dryout and thermal resistance of capillary-fed evaporator systems. Thermal conduction across the solid and volumetric evaporation within the pores are solved to obtain the temperature distribution in the porous structure. Capillary-driven lateral liquid flow from the outer periphery of the evaporator to its center, with vapor flow across the thickness, is considered to obtain the local liquid and vapor pressures. Experiments are conducted on sintered copper particle evaporators of different particle sizes and heater areas to collect data for model calibration. To demonstrate the wider applicability of the model for other types of porous evaporators, the model is further calibrated against a variety of dryout limit and thermal resistance data collected from the literature. The model is shown to predict the experimentally observed trends in the dryout limit with mean particle/pore size, heater size, and evaporator thicknesses. This physics–based modeling approach is then implemented into a vapor chamber model to predict the thermal performance limits of air-cooled heat sinks with embedded vapor chambers. The governing energy and momentum equations of a low-cost analytical vapor chamber modeling approach is coupled with the evaporator model to capture the effect of boiling in the evaporator wick. An example case study illustrating the usage of the model is demonstrated and compared to a purely evaporation-based modeling approach, for quantifying the differences in dryout limit prediction, signifying the need to account for boiling in the evaporator wick. </div><div> The understanding gained from this thesis can be utilized for the prediction of dryout and thermal performance during boiling in capillary limited evaporator systems. The work also suggests the usage of a universal relative permeability correlation for the two-phase flow configuration studied herein for capillary-fed boiling, based on a wide calibration to experimental data. The modeling framework can also be readily leveraged to find novel and unexplored designs of advanced evaporator wicks. From an application standpoint, the new vapor chamber model developed here can be used for the improved estimation of performance limits specifically when high heat fluxes are encountered by the device. This will enable better and informed design of air-cooled heat sink architectures with embedded vapor chambers for high performance applications. </div><div><br></div> Mechanical Engineering Heat and Mass Transfer Operations Evaporator Boiling Vapor Chamber Heat Pipe Two-layer wick Evaporator wick Capillary-fed boiling Relative Permeability Experiments capillary pressure models Porous media
12	Directed polymers and rough paths Tapia Muñoz, Nikolas Esteban January 2018 (has links) Tesis para optar al grado de Doctor en Ciencias de la Ingeniería, Mención Modelación Matemática / Las Ecuaciones Estocásticas en Derivadas Parciales (SPDEs por su sigla en inglés) son una herramienta esencial para el análisis de los límites de escalamiento de diversos modelos microscópicos provenientes de otras áreas de las ciencias tales como la física y la química. Este tipo de ecuaciones corresponde a una ecuación en derivadas parciales clásica a la cual se le ha agregado un término de forzamiento externo aleatorio el que suele ser muy irregular; el ejemplo más sencillo es tal vez la Ecuación del Calor Estocástica, de la cual una de sus versiones es estudiada en la presente tesis. En cualquier caso, la irregularidad de este potencial hace que el análisis de las soluciones de estos problemas sea mucho más complicado. En efecto, hay casos en que dichas soluciones sólo pueden ser entendidas en el sentido de las distribuciones. Hay casos más críticos como la ecuación de Kardar--Parisi--Zhang (KPZ) en en una dimensión espacial donde, si bien se puede probar que posee soluciones Hölder, estas no son lo suficientemente regulares para permitir definir uno de los términos no lineales que aparecen en ella. Durante los últimos 20 años se han desarrollado varias técnicas para el análsis de este tipo de ecuaciones, entre las que destacan la teoría de rough paths geométricos de T. Lyons (1998), los rough paths ramificadosde M. Gubinelli (2010), y la más reciente teoría de estructuras de regularidad de M. Hairer (2014) por la que este último obtuvo la medalla Fields en 2014. Aunque diferentes, todas estas técnicas tienen como idea central el concepto de renormalización. En particular, la renormalización de Wick juega un rol esencial en la renormalización en el marco de las estructuras de regularidad. En este trabajo se desarrollan los productos y polinomios de Wick desde un punto de vista algebraico inspirado en el cálculo umbral de G.-C. Rota. También se explora la teoría general de losrough paths en general y su versión ramificada en particular, probándose nuevos resultados en la dirección de incorporar un análogo de la renormalización de Wick existente en las estructuras de regularidad. Por último, se estudia el modelo de polímero semidiscreto multicapas introducido por I. Corwin and A. Hammond (2014) para el cual se prueba la convergencia de su función de partición hacia la "solución" de la Ecuación del Calor Estocástica multicapas definida por N. O'Connell y J. Warren (2011) algunos años antes. Cabe destacar que al momento de redacción de esta tesis no existen resultados que permitan interpretar este proceso en el continuo como la solución de una SPDE singular como en el caso de la ecuación de KPZ, lo que ha sido una de las principales fuentes de inspiración para este trabajo. / CONICYT/Doctorado Nacional/2013-21130733 CMM - Conicyt PIA AFB170001 Polinomios de Wick Análisis estocástico Ecuaciones derivadas parciales Ecuaciones de Kardar-Parisi-Zhang Rough paths
13	COMPARISON OF ROPE-WICK AND BROADCAST TREATMENTS FOR CONTROL OF CANADA THISTLE AND TALL IRONWEED Fryman, Daisy M. 01 January 2009 (has links) Tall ironweed (Vernonia altissima) and Canada thistle (Cirsium arvense) control in cool season grass pastures was evaluated in 2007 and 2008. Tall ironweed was evaluated in Fayette and Boone Counties, KY and Canada thistle was evaluated at Spindletop Research Farm. Herbicides applied selectively with a rope-wick were compared to a broadcast foliar spray. Treatments were a broadcast treatment, of aminopyralid + 2, 4-D and six rope-wick treatments: aminopyralid at three concentrations, glyphosate, triclopyr and clopyralid at one concentration each. The Boone County location had five broadcast foliar treatments: aminopyralid at three rates, triclopyr + fluroxpyr, and 2,4-D + triclopyr. The Canada thistle study consisted of the same six rope-wick treatments as the Fayette County tall ironweed study. A broadcast treatment of aminopyralid at 70 g a.e./ha was included in 2008. Studies were evaluated 1, 2, 3, 4, 8 and 52 weeks after treatment. Aminopyralid plus 2,4-D provided 86% control of tall ironweed 52 WAT. Aminopyralid at 20% v/v controlled 65% of tall ironweed. Canada thistle control 52 WAT ranged from 0 to 25% control for the six ropewick treatments. Tall ironweed Canada thistle rope-wick broadcast foliar spray pasture weed control Plant Sciences
14	Water transport due to wick action through concrete Aldred, James M. January 2008 (has links) Wick action is the transport of water through a concrete element from a face in contact with water to a drying face as occurs in basements, tunnels, slabs on grade and hollow offshore structures. Water transport through concrete due to wick action is many times greater due to pressure permeability under typical environmental conditions. Therefore wick action plays an important role in the watertightness and durability of concrete structures. Current models of wick action are based on an equilibrium developing between the rate of water entering concrete by sorptivity and leaving by water vapour diffusion where initial moisture content should not change the steady state rate, only the dominant factor in the early stages. / Wick action tests were conducted on concrete specimens of varying initial moisture condition, thickness, orientation and composition over periods ranging up to 450 days. Some wick action tests were conducted at 50% and 75% relative humidity and using a penetrating solution of reduced surface tension. The rate of wick action was found to be inversely proportional to thickness regardless of the initial moisture content of the specimen. Initial saturation was found to significantly increase wick action and moisture flow in ordinary Portland cement (OPC) and hydrophobic (HI) concretes drying at 75% RH and HI concrete drying at 50% RH. The data are consistent with the well documented hysteresis between sorption/desorption isotherms. Concretes containing silica fume (SF) and ground granulated blast-furnace slag (GGBS) did not exhibit such hysteresis. Reducing the surface tension of the pentrating solution profoundly reduced the sorptivity into dried specimens but not the depth of penetration or the steady state wick action rate. Direct measurements on osmotic flow through vacuum saturated specimens showed that osmotic effects had a limited effect on wick action at salt concentrations expected in most environmental conditions. / The research demonstrates that desorptivity from the drying surface rather than sorptivity into the wetting surface is the dominant factor determining wick action through concrete. The ease with which desorptivity can be measured and the simple empirical model developed provides practicising engineers with a useful tool to estimate water transport due to wick action through concrete in partially immersed conditions.
15	Phenomenology of the N=3 Lee-Wick Standard Model January 2015 (has links) abstract: With the discovery of the Higgs Boson in 2012, particle physics has decidedly moved beyond the Standard Model into a new epoch. Though the Standard Model particle content is now completely accounted for, there remain many theoretical issues about the structure of the theory in need of resolution. Among these is the hierarchy problem: since the renormalized Higgs mass receives quadratic corrections from a higher cutoff scale, what keeps the Higgs boson light? Many possible solutions to this problem have been advanced, such as supersymmetry, Randall-Sundrum models, or sub-millimeter corrections to gravity. One such solution has been advanced by the Lee-Wick Standard Model. In this theory, higher-derivative operators are added to the Lagrangian for each Standard Model field, which result in propagators that possess two physical poles and fall off more rapidly in the ultraviolet regime. It can be shown by an auxiliary field transformation that the higher-derivative theory is identical to positing a second, manifestly renormalizable theory in which new fields with opposite-sign kinetic and mass terms are found. These so-called Lee-Wick fields have opposite-sign propagators, and famously cancel off the quadratic divergences that plague the renormalized Higgs mass. The states in the Hilbert space corresponding to Lee-Wick particles have negative norm, and implications for causality and unitarity are examined. This dissertation explores a variant of the theory called the N = 3 Lee-Wick Standard Model. The Lagrangian of this theory features a yet-higher derivative operator, which produces a propagator with three physical poles and possesses even better high-energy behavior than the minimal Lee-Wick theory. An analogous auxiliary field transformation takes this higher-derivative theory into a renormalizable theory with states of alternating positive, negative, and positive norm. The phenomenology of this theory is examined in detail, with particular emphasis on the collider signatures of Lee-Wick particles, electroweak precision constraints on the masses that the new particles can take on, and scenarios in early-universe cosmology in which Lee-Wick particles can play a significant role. / Dissertation/Thesis / Doctoral Dissertation Physics 2015 Physics Particle physics Theoretical physics finite temperature hierarchy problem Lee-Wick negative norm phenomenology unitarity
16	Needleless Electrospinning Experimental Study and Nanofiber Application in Semiconductor Packaging January 2014 (has links) abstract: ABSTRACT Electronics especially mobile electronics such as smart phones, tablet PCs, notebooks and digital cameras are undergoing rapid development nowadays and have thoroughly changed our lives. With the requirement of more transistors, higher power, smaller size, lighter weight and even bendability, thermal management of these devices became one of the key challenges. Compared to active heat management system, heat pipe, which is a passive fluidic system, is considered promising to solve this problem. However, traditional heat pipes have size, weight and capillary limitation. Thus new type of heat pipe with smaller size, lighter weight and higher capillary pressure is needed. Nanofiber has been proved with superior properties and has been applied in multiple areas. This study discussed the possibility of applying nanofiber in heat pipe as new wick structure. In this study, a needleless electrospinning device with high productivity rate was built onsite to systematically investigate the effect of processing parameters on fiber properties as well as to generate nanofiber mat to evaluate its capability in electronics cooling. Polyethylene oxide (PEO) and Polyvinyl Alcohol (PVA) nanofibers were generated. Tensiometer was used for wettability measurement. The results show that independent parameters including spinneret type, working distance, solution concentration and polymer type are strongly correlated with fiber morphology compared to other parameters. The results also show that the fabricated nanofiber mat has high capillary pressure. / Dissertation/Thesis / M.S. Mechanical Engineering 2014 Mechanical engineering Packaging Materials Science Heat pipe Nanofiber Needleless electrospinning Wick structure
17	Muskler eller kostym? : En analys av den manliga actionhjälten på 1980-talet och idag Andersson, Gustav January 2019 (has links) Syftet med uppsatsen är att analysera två karaktärer i ”Hardbodies” genren och jämföra dem mot en nutida actionkaraktär. John Matrix från Commando (1985), John McClane från Die Hard (1988) och John Wick från John Wick (2014). Uppsatsen fokuserar på att upptäcka skillnader men i synnerlighet likheter mellan de olika filmerna och karaktärerna. Genom ett maskulint genusperspektiv analyseras karaktärerna för att påvisa dessa skillnader och likheter i relation till maskulinitet och mansideal. Karaktärerna analyseras utifrån Jens Eders analysmetod, karaktärsklockan. Resultatet av karaktärsanalysen påvisade att trots karaktärernas skillnader i uppdrag, kropp och kläder finns det ett gemensamt underliggande uppdrag som handlar om manlighetskomplex. Maskulinitet mansideal action hardbodies Commando Die Hard John Wick Visual Arts Bildkonst
18	Communal Hall in Hackney Wick Ebadi, Arshia January 2012 (has links) Located in eastern London and beside the Olympic legacy there is this knotty hood, called Hackney Wick. A public realm has been proposed in the London Borough of Hackney local development masterplan for this neighbourhood. The project is a communal hall settled in the heart of this town context, has been challenged to tie with the dodgy surroundings. Coming from Olympic park, passing over the separating river and going to Victoria Park, is the main walking and cycling path. Also having the bus route on the same side, makes the northern side more exposed to the people. Facing the northern side of the site is the overground which generates views from the train to the project. As a result, in all the studied schemes, it has been tried to have a big opening looking towards this side. Observing the whole hood, you will find out the context is dominated by typical London brick walls, mostly filled with graffiti arts. This creates a special character for the area, and at the same time brings out some dodgy views. So the idea was to get benefit of the existing wall in the boundary of the site, as a tool to block the ugly views and create an inner paradise, and at the same time, with the aim of the brick nature of that wall, relate to the character of the context. However eventually, it ended up to propose to rebuild the wall with reused bricks, and cover the new added parts in white plaster. So finally, there would be this perception as if there is a new object over the existing, and the old brick wall remains at the bottom exposed to graffiti arts and keeps the same nature as it used to have. London Hackney Hackney Wick Brick Plaster Communal Hall Town Context Architecture Arkitektur
19	Proof of Operation in a Planar Loop Heat Pipe (LHP) Based on CPS Wick Suh, Junwoo January 2005 (has links) No description available. Engineering, Mechanical Electronic Cooling Microscale Heat Pipes Loop Heat Pipe Thermosyphon Coherent Porous Silicon Wick
20	Functional formalism for algebraic classical and quantum field theories Moro, Andrea 31 July 2023 (has links) In the first part of this thesis we study the generalization of the recent algebraic approach to classical field theory by proposing a more general setting based on the manifold of smooth sections of a non-trivial fiber bundle. Central is the notion of observables/functionals over such sections, i.e. appropriate smooth functions on them. The kinematic will be further specified by means of Peierls brackets, which in turn are defined via the causal propagators of linearized field equations. In the second part we implement deformation quantization of the algebras obtained previously in the simpler setting of scalar field theory. Wick powers and time ordered products for quantum field theories in curved spacetimes are defined by giving a set of axioms which, when implemented, defines uniquely, up to some classifiable ambiguities, the aforementioned quantities. Those ambiguities are known to be tightly restrained by locality, covariance and other regularity conditions. One of the additional constraints used was to require continuous and analytic dependence on the metric and coupling parameters. It was recently shown that this rather strong requirement could be weakened, in the case of Wick powers, to the so-called parametrized microlocal spectrum condition. We therefore show the existence of Wick powers satisfying the above condition and extend this axiom to time ordered products, while reestablishing the usual uniqueness and existence results in light of the new constraint.

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