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Transient & steady-state thermodynamic modeling of modular data centersKhalid, Rehan 27 May 2016 (has links)
The data center industry currently focuses on initiatives to reduce its enormous energy consumption and minimize its adverse environmental impact. Modular data centers provide considerable operational flexibility in that they are mobile, and are manufactured using standard containers. This thesis aims at developing steady-state energy and exergy destruction models for modular data centers using four different cooling approaches: direct expansion cooling, direct and indirect evaporative cooling, and free air cooling. Furthermore, transient thermal response of these data centers to dynamic loads, such as varying server load through change in user requirement over the cloud, and/or to changes in outside weather conditions has been studied. The effect of server thermal mass has also been accounted for in developing the transient regime. The change in performance of the data center is reported through changes in the Power Usage Effectiveness (PUE) metric, and through change in the exergy destruction in the individual hot and cold aisles. The core simulation software used for this work is EnergyPlus, an open source software from the U.S. Department of Energy. Moreover, EnergyPlus is used as the simulation engine within the in-house developed software package Data Center EnergyPlus (DCE+).
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Thermal analysis and design improvement of light module fixtureLindén, Ronja, Samuelsson, Henrik January 2016 (has links)
Introduction One of the products made by SAAB Avionics Systems in Jönköping was in need of a better cooling solution. The product, a Head-Up Display, holds a LED that was overheating when run at desired input power. The purpose of this thesis was to identify the design weaknesses in the current solution regarding heat dissipation and produce new design proposals that fulfill the requirements. The parts analyzed consist of a LED light source, adjustment plates and a heat sink. The adjustment plates and heat sink where covered in a surface treatment. Theoretical framework A simulation of a finite element model was set up of the current solution in order to identify the influence of the different parts and their thermal properties. The simulation was set up as a steady state thermal model. The FEM and steady state equations used during this are mentioned and shortly explained. The state of modern research was found in order to find new innovative ways of solving the heat problem. Method In order to understand the current solution, experimentswere carried out. Interviews were used in order to get the correct information easily. A literature study was preformed to understand the different theories. Reverse engineering was applied to get a detailed understanding of the functionality both mechanically and thermally. Brainstorming was used to generate new solutions, which was followed by a feasibility evaluation and Pugh’s method to sort out the best concepts. Implementation and Result Based on the simulations it can be concluded that some of the developed solutions pass the requirements and can be implemented right away. Some need some more work in order to fully pass the demands. Conclusions The thermal flow was greatly affected by the properties of the aluminum in the adjustment plates and heat sink, though there was not much room for thickness reduction. However, the oxide layer and the surface roughness also had a great impact on the high junction temperature. The requirements where therefore met when adjustment plates and interfaces were removed, to lower the amount of oxide and air between the LED and the heat sink. But the oxide layers needed to be thinner and the surface roughness needed to be reduced in order to meet requirements. If the oxide layers need to stay at current thickness or the surface roughness cannot be changed, the heat sink needs to be redesigned. The recommended concepts were smaller than the current solution. If this space is utilized with a bigger heat sink, the goals can be met with greater ease. There is also room for improvement when it comes to heat sink heat spreader pattern. Discussion The discussion covers what knowledge which was needed to write this thesis and how different problems that occurred along its path were solved. Sustainability in different ways was also discussed.
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Contribution to the developments of rapid acquisition schemes in Magnetic Resonance ImagingAbsil, Julie GMC 22 November 2006 (has links)
L’Imagerie par Résonance Magnétique (IRM) est une belle application de la physique et constitue sans aucun doute l’une des techniques les plus performantes d’imagerie médicale. Basée sur le phénomène de la Résonance Magnétique Nucléaire (RMN) du proton contenu dans les molécules d’eau, l’IRM permet d’investiguer en coupes les tissus mous du corps, sur base de contrastes différents. La méthode est non-invasive et n’utilise pas de radiations ionisantes. En plus des données morphologiques, l’IRM permet également d’obtenir des informations fonctionnelles et physiologiques.
De nos jours, plus de 10 000 unités IRM existent dans le monde et des millions d’examens sont réalisés chaque année. La technique est en constant développement et le domaine de recherches est multidisciplinaire. Il concerne aussi bien les développements méthodologiques (imagerie rapide, imagerie de diffusion, etc.) que technologiques (imagerie à haut champ, systèmes de gradients à commutation rapide, etc.), le point central des recherches étant l’amélioration de la qualité des images et la diminution du temps d’acquisition. Ceci implique l'optimisation des différentes séquences IRM (séries d'impulsions radiofréquence et de gradients de champ magnétique) tenant compte des contraintes imposées par le matériel, ainsi que le développement et l'optimisation du matériel lui-même. Cette thèse est consacrée au design avancé des séquences d’impulsions et contribue donc à l'optimisation des schémas d’acquisition en IRM.
En particulier, le présent travail est focalisé sur la compréhension et l’amélioration d’un certain type de séquences rapides, employant des échos de gradients : les séquences Steady-State Free Precession (SSFP) et plus précisément les séquences dites balanced-SSFP. Dans ce genre de schéma d’acquisition, le système est excité rapidement et périodiquement, conduisant à l’établissement d’un état stationnaire de l’aimantation.
La première partie de la thèse est consacrée à une analyse approfondie des propriétés du signal dans une séquence balanced-SSFP, à la fois à l’état stationnaire et à l’état transitoire. Ensuite, de nouveaux schémas d’acquisition sont développés sur base de calculs analytiques et de simulations numériques et sont ensuite testés expérimentalement. D’une part, une manipulation de l’état stationnaire est présentée en vue de supprimer le signal de la graisse sur les images (qui peut être gênant pour le diagnostic de certaines lésions ou maladies). D’autre part, l’application d’une phase de préparation en vue d’obtenir un contraste basé sur le degré de diffusion des molécules d’eau dans les tissus est analysée en détails, afin d’améliorer la qualité d’image produite par des séquences de diffusion existantes.
La présente thèse constitue donc un travail de recherches théoriques et expérimentales, allant de la conception de nouveaux schémas d’acquisition à leur expérimentation sur volontaires, en passant par leur implémentation sur un imageur IRM. Ce travail a été réalisé au sein de l’Unité d’IRM – Radiologie de l’Hôpital Erasme, sous la direction de Thierry Metens, Docteur en Sciences et Physicien IRM.
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Transient and Steady-state Performance of A Liquid-to-Air Membrane Energy Exchanger (LAMEE)2012 September 1900 (has links)
The main objective of this thesis is to investigate the transient response and steady-state performance of a counter-cross flow liquid-to-air membrane energy exchanger (LAMEE). The LAMEE is constructed from several semi-permeable membranes which separate the air and liquid streams. In addition to heat transfer, moisture transfer occurs between the air and liquid streams since the membranes are permeable to water vapor. The LAMEE performance is assessed experimentally and the results are used to verify a numerical model. The verified numerical model is also used to extrapolate the transient and steady-state performance parameters to other test conditions.
The transient response of the LAMEE is important since there are times when the LAMEE operates under transient conditions due to daily start-up or changing operating conditions such as flow rates, temperatures or humidities. The transient response of the LAMEE is investigated experimentally and numerically. The number of heat transfer units (NTU), and the ratio of solution and air heat capacity rates (Cr*) are two important parameters that affect the LAMEE performance. The results show that the transient sensible, latent and total effectivenesses increases with time after a step change in the conditions of the inlet liquid desiccant. The experimental and numerical transient effectiveness values and trends are compared for different NTU and Cr* values under summer and winter test conditions and the results show satisfactory agreement.
In addition to the transient effectiveness, the time constant of the LAMEE is assessed as an important transient parameter. The time constant represents the time it takes for the LAMEE to reach 63.2% of the steady-state conditions after a step change in inlet conditions. The transient response of the outdoor air temperature and humidity ratio are normalized and used to determine the sensible and latent time constants. It is found that time constant depends on NTU, Cr* and thermal mass capacity of the LAMEE. The experimental and numerical results show that time constant increases as Cr* decreases or NTU increases. Furthermore, the verified numerical model is used to study the effect of outdoor air conditions on the LAMEE time constant. The numerical results reveal that the latent time constant is influenced by outdoor air conditions and the time constant decreases as H* increases, but the sensible time constant is almost constant for various outdoor air conditions. However, the outdoor air conditions affect the transient response of the LAMEE considerably since the total transient response of the LAMEE is closer to the latent transient response for the conditions studied.
The steady-state performance of the LAMEE is studied for different NTU and Cr* values under summer test conditions. The experimental data are compared to numerical and analytical results and acceptable agreement is achieved. It is found that the steady-state effectiveness of the LAMEE increases with NTU and Cr*. The maximum total effectiveness reaches 88% for NTU=10 and Cr*=6.3. The verified numerical model is also used to investigate the effect of outdoor air conditions on the steady-state sensible and latent effectiveness of the LAMEE. The sensible effectiveness is significantly influenced by outdoor air conditions variation while the latent effectiveness is only slightly influenced by these variations. The sensible effectiveness decreases as the operating condition factor (H*) increases, but the latent effectiveness increases with H*.
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Evoked and Induced Activity in 40 Hz Auditory ResponsesPresacco, Alessandro 01 January 2008 (has links)
This study aims to investigate the evoked and the induced activity in 40 Hz auditory responses. The 40 Hz activity, also called Pb or P50 or P1 component, has a latency of 50ms and belongs to the category of MLRs (Middle latency responses), which occur right after Auditory Brainstem Responses (ABRs) between 15 and 80ms. Its importance is related to possible clinical applications such as anesthesia, schizophrenia and auditory development. In addition to this, evoked and induced activities at 40 Hz might play an important role in cognitive processing. Trains of right ear rarefaction clicks at the mean rate of 39.1 Hz, intensity of 50dB and duration of 100 were used to elicit the above mentioned activities. Three different sequences have been used: steady state, low jittered and medium jittered. Low jittered sequence has been the main sequence used to study the 40 Hz activity. The advantage of using this sequence is the fact that a deconvolution analysis can be performed and also the fact that it does not differ too much from the standard 40Hz steady-state sequence and this means that a resonance at 40 Hz can still be obtained. Ten healthy subjects (8 males and 2 females; ages ranging from 25 to 47), with no history of audiological or neurological hearing impairment were recorded. Informed consent was signed according to approved IRB protocols. All recordings were done in a sound-proof chamber (Acoustic Systems, Inc.) with subjects lying on a bed comfortably. The subjects were not asked to perform any tasks, but just to passively listen to the acoustical stimuli. Evoked and induced activities were recorded in response to the above mentioned acoustic stimuli. The deconvolution analysis showed that the peak of activity occurs around 152ms. Wavelets analysis has confirmed this observation and has also unveiled and induced activity in the low beta range. This induced activity seems to be strictly related to the evoked activity, as it seems to occur around 390ms, which corresponds to the situation where the 40 Hz evoked activity enters a steady state condition, which lasts until the last acoustic stimulus has been applied. The latter observation is again in accordance with the literature, where it is reported that the 40Hz evoked activity could reflect the initial coactivation of neural assemblies representing specific stimulus features. A change in such stimulus features could be reflected as induced oscillations occurring in the middle beta range (16-22 Hz).
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Hydrodynamic Stability of Free Convection from an Inclined Elliptic CylinderFinlay, Leslie January 2006 (has links)
The steady problem of free convective heat transfer from an isothermal inclined elliptic cylinder and its stability is investigated. The cylinder is inclined at an arbitrary angle with the horizontal and immersed in an unbounded, viscous, incompressible fluid. It is assumed that the flow is laminar and two-dimensional and that the Boussinesq approximation is valid. The full steady Navier-Stokes and thermal energy equations are transformed to elliptical co-ordinates and an asymptotic analysis is used to find appropriate far-field conditions. A numerical scheme based on finite differences is then used to obtain numerical solutions. Results are found for small to moderate Grashof and Prandtl numbers, and varying ellipse inclinations and aspect ratios. <br /><br /> A linear stability analysis is performed to determine the critical Grashof number at which the flow loses stability. Comparisons are made with long-time unsteady solutions.
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Undersökning av steady state och utvärdering av valskraft och friktion vid kallvalsning av aluminiumWaltersson, Erik, Eriksson, Göran January 2011 (has links)
The purpose with this thesis was to examine the cold rolling mill located at Högskolan Dalarna and to stabilize the rolling process, to achieve steady state. Experiments with cold rolling of an aluminium strip have given results for rolling force, friction, reduction, strip tension and strain hardening. Results show that steady state has been found for the experiments with roll force and strain hardening, and not been found for the experiments with friction and reduction. Results show that increased strip tension gives lower roll forces. The roll force equation of Stone shows comparable results with reality for dry contact with reductions up to 30 %, but starts being incomparable with higher reductions. The roll force equation of Stone shows a bit higher roll forces than reality gave, but was comparable within reductions from 13 to 50 %. Experiments have shown that the aluminium strip has gone through strain hardening. Experiments show how the set roll gap did not yield the desired thickness reduction, there for the elastic spring constant for the rolling mill was examined and determined to be 417 N / mm for the specific alloy band. The influence of tension strip for roll force was examined and Results confirm the theory about how the roll force is decreased by increasing tension strip. The work rolls started to slip against the alumina strip as high tension strip; 70 N/mm2, gave low roll force; < 15kN.
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Sustainable Economies: The Case of Turkish Economy within Steady-State EconomiesDemirel, Evrim January 2012 (has links)
The main aim of this paper is to reveal if development and current state of the Turkish Economy are sustainable. Instead of the research tools offered in environmental economics, the holistic approach of ecological economics is used to answer this question. Within that context, the Turkish Economy is assessed within the concept of steady-state economics. Having assessed the data related to the three institutional changes suggested within the concept, this study shows the obstacles and advantages of the Turkish Economy to move towards the steady-state, in other words, sustainability.
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Hydrodynamic Stability of Free Convection from an Inclined Elliptic CylinderFinlay, Leslie January 2006 (has links)
The steady problem of free convective heat transfer from an isothermal inclined elliptic cylinder and its stability is investigated. The cylinder is inclined at an arbitrary angle with the horizontal and immersed in an unbounded, viscous, incompressible fluid. It is assumed that the flow is laminar and two-dimensional and that the Boussinesq approximation is valid. The full steady Navier-Stokes and thermal energy equations are transformed to elliptical co-ordinates and an asymptotic analysis is used to find appropriate far-field conditions. A numerical scheme based on finite differences is then used to obtain numerical solutions. Results are found for small to moderate Grashof and Prandtl numbers, and varying ellipse inclinations and aspect ratios. <br /><br /> A linear stability analysis is performed to determine the critical Grashof number at which the flow loses stability. Comparisons are made with long-time unsteady solutions.
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Modeling of nano-particle motion: subjected to press of two moving bodiesChang, Shao-Heng 05 September 2012 (has links)
This dissertation aims to establish a mathematical model to predict the steady-state (stationary) motion of
a nano-particle that is suppressed between two parallel moving objects. The main purpose of this study
intends to find an appropriate means to reduce surface damage caused by moving nano-paricle. This study
will show that, via the molecular dynamics (MD) analysis, the surface will result in different sizes of
damaged layer and surface roughness when a nano-particle moves in a distinct way on it. Therefore, it has
a significant value in the applications of high precision polishing and surface cleaning to identify the
dominant factors in affecting the motion of nano-particle.
The proposed model is to find the steady-state motion by meeting the conditions of force and torque
balances on a moving nano-particle. Several hypotheses are suggested to derive the interaction force
occurred at the interface between particle and each object. The hypothesis starts from the energy point of
view. It is claimed that the potential and kinetic energies of object atoms will increase when nano-particle
moves relative to the object. Because of the relative motion, some of the object atoms will be pushed or
driven away, depending on the manner of motion. The increment of potential or kinetic energies is
assumed to be proportional to the number of pushed or driven atoms. The increase of energy is supplied
from the works done by the normal stress and shear stress at the interface of particle. The interaction at
the front end of particle is very different from that at the rear end when particle rolls on object surface.
There is a pushing action at the front end while a pulling action occurs at the rear end. The magnitudes of
both actions are dominated and proportional to the adhesive strength between particle and object.
The computer simulations show that the particle motion is mainly affected by the relative adhesive
strength among particle and two objects. If the adhesive strength between particle and one object increase,
the particle will increase the sliding speed relative to another object. On the other hand, if the adhesive
strength between particle and one object is close to that of another object, the particle tends to have
significant rolling motion relative to two objects. The suppressed loading between particle and objects has
little effect on the qualitative trend of particle motion. The validity of proposed model is evaluated by the
molecular dynamics simulation. It indicates that the predicted behaviors of proposed model are consistent
with that from the analysis of molecular dynamics simulations.
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