Finance Implications of the Great Recession

Zwick, Eric Meinberg

06 June 2014

Macroeconomic events in the United States during the last ten years—the housing bubble, the financial crisis and the subsequent, deep recession—brought several puzzles to the attention of economists and policymakers. Why were there such large price booms and busts in places like Las Vegas and Phoenix, where land was readily available and construction markets were very active? Why are economies so slow to recover from recessions that coincide with financial crises? Can policymakers use fiscal stimulus to increase output and accelerate economic recovery after a recession?

Economics

Finance

Business

Financial Frictions

Fiscal Policy

Housing Bubble

Recession

Stimulus

Gyvenamojo būsto statybų kainų pokyčių įvertinimas / Evaluation of construction price variation of residential real estate

Banys, Raimondas

08 September 2009

Darbo tikslas – išanalizuoti gyvenamojo nekilnojamojo turto rinką ir įvertinti pagrindinius veiksnius veikiančius statybų kainas ir ištirti kokią įtaką daro atskiro regiono vystymasis. Tyrimo objektas - nekilnojamojo turto rinka Vilniuje, Kaune, Klaipėdoje ir Šiauliuose, tiksliau daugiabučių namų rinką. Darbas susideda iš trijų dalių: teorinės, analitinės ir empirinės. Pirmiausia pateikiama teorinė informacija apie nekilnojamojo turto rinką – nekilnojamojo turto rinkos charakteristikos ir samprata. Antrame skyriuje analizuojami demografiniai, socialiniai ir ekonominiai veiksniai Lietuvoje, ir kokią įtaką daro nekilnojamojo turto rinkai. Paskutinėje dalyje analizuojami tie patys rodikliai Vilniuje, Kaune, Klaipėdoje ir Šiauliuose, ir jų įtaka gyvenamojo nekilnojamojo turto rinkai (ar butų kainos nėra per aukštos, ar situacija rinkoje nejuda link kainų burbulo). / The objective of this paper is to analyze residential real estate market and to evaluate the main factors influencing construction prices of residential real estate, and also to investigate are prices depend on individual region economic growth tendencies. Research subject is the real estate market of Vilnius, Kaunas, Klaipeda and Siauliai cities, especially the tenement house market. The paper consists mainly of three parts: theoretical, analytical and empirical. Firstly, is provided theoretical information about real estate market - analysis and conception of real estate market and its characteristics. Then, in the second chapter, there is the analysis of demographical, social and economical factors in Lithuania, how they vary and influence the real estate market. Next is the study of main economic and social environment factors in Vilnius, Kaunas, Klaipeda and Siauliai cities, and how they influence residential real estate market in these cities (are prices not too high or they are next to residential real estate price bubble). The research contains 52 pages. There are 13 tables and 11 diagrams.

Vilnius

Kaunas

Klaipėda

Šiauliai

Kainų burbulas/price bubble

Bubble dynamics and boiling heat transfer : a study in the absence and in the presence of electric fields

Siedel, Samuel

13 April 2012

Since boiling heat transfer affords a very effective means to transfer heat, it is implemented in numerous technologies and industries ranging from large power generation plants to micro-electronic thermal management. Although having been a subject of research for several decades, an accurate prediction of boiling heat transfer is still challenging due to the complexity of the coupled mechanisms involved. It appears that the boiling heat transfer coefficient is intimately related to bubble dynamics (i.e. bubble nucleation, growth and detachment) as well as factors such as nucleation site density and interaction between neighbouring and successive bubbles. In order to contribute to the understanding of the boiling phenomenon, an experimental investigation of saturated pool boiling from a single or two neighbouring artificial nucleation sites on a polished copper surface has been performed. The bubble growth dynamics has been characterized for different wall superheats and a experimental growth law has been established. The interaction between successive bubbles from the same nucleation site has been studied, showing the bubble shape oscillations that can be caused by these interactions. The forces acting on a growing bubble has been reviewed, and a complete momentum balance has been made for all stages of bubble growth. The curvature along the interface has been measured, and indications concerning the mechanism of bubble detachment have been suggested. The rise of bubble after detachment has been investigated, and the maximum velocity reached before a change of direction has been estimated and compared to existing models from the literature. The interaction between bubbles growing side by side has been studied: the generation and propagation of a wave front during the coalescence of two bubbles has been highlighted. As boiling heat transfer enhancement techniques are being imagined and developed, this study also focuses on the electrohydrodynamic enhancement technique. Boiling experiments have been performed in the presence of electric fields, and their effects on heat transfer and bubble dynamics have been characterized. Although the volume of the bubbles at detachment and the relationship between the bubble frequency and the wall superheat were not affected, the bubble growth curve was modified. The bubbles were elongated in the direction of the electric field, and this elongation was estimated and compared to other studies from the literature. The rising velocity of the bubble was reduced in the presence of electric field, and the behaviour of bubbles growing side by side was modified, the electric field causing the bubbles to repeal each other. These results, obtained in a fully controlled environment, provide compelling evidence that electric fields can be implemented to alter the bubble dynamics and subsequently heat transfer rates during boiling of dielectric fluids.

Pool boiling

Bubble dynamics

Ehd

Electrohydrodynamics

Thermodynamics

Bubble Formation in a Horizontal Channel at Subcooled Flow Condition

Shaban Nejad, Saman

27 November 2013

Bubble nucleation at subcooled flow boiling condition in a horizontal annular channel with a square cross section by the use of high-speed camera is investigated. The channel represents a scaled-down version of a single rod of CANDU reactor core. The experiments were performed by the use of water at pressures between 1-3 atm, constant heat flux of 0.124 MW/m2, liquid bulk subcooling of 32-1oC and mean flow velocities of 0.3-0.4 m/s. Bubble lift-off diameters were obtained from direct high speed videography. The developed model for the bubble lift-off diameter was obtained by analyzing the forces acting on a bubble. Furthermore, a model for the bubble growth rate constant was suggested. The proposed model was then compared to experimental data and it has shown a good agreement with the experimental data. Additionally, the effects of liquid bulk subcooling, liquid pressure and mean flow velocity on bubble lift-off diameter were investigated.

Subcooled two phase flow

Bubble nucleation

Critical Heat Flux

Heat transfer

0548

Scaling of effervescent atomization and industrial two-phase flow

Rahman, Mohammad

Unknown Date

No description available.

Multiphase

Atomization

Scaling

Phase Doppler Particle Anemometer

Nozzle

Photonics

Bubble

Droplet

Investigation of Effervescent Atomization Using Laser-Based Measurement Techniques

Ghaemi, Sina

Unknown Date

No description available.

Effervescent atomization

Shadowgraph particle analyzer

Particle Image Velocimetry

Droplet shape

Discretization error

Bubble formation

Experimental Testing of Low Reynolds Number Airfoils for Unmanned Aerial Vehicles

Li, Leon

04 December 2013

This work is focused on the aerodynamics for a proprietary laminar flow airfoil for Unmanned Aerial Vehicle (UAV) applications. The two main focuses are (1) aerodynamic performance at Reynolds number on the order of 10,000, (2) the effect of a conventional hot-wire probe on laminar separation bubbles. For aerodynamic performance, pressure and wake velocity distributions were measured at Re = 40,000 and 60,000 for a range of angles of attack. The airfoil performed poorly for these Reynolds numbers due to laminar boundary layer separation. 2-D boundary layer trips significantly improved the lift-to-drag ratio. For probe effects, three Reynolds numbers were investigated (Re = 100,000, 150,000, and 200,000), with three angles of attack for each. Pressure and surface shear distributions were measured. Flow upstream of the probe tip was not affected. Transition was promoted downstream due to the additional disturbances in the separated shear layer.

low Reynolds number airfoil

laminar separation bubble

oil film interferometry

0538

Experimental Testing of Low Reynolds Number Airfoils for Unmanned Aerial Vehicles

Li, Leon

04 December 2013

This work is focused on the aerodynamics for a proprietary laminar flow airfoil for Unmanned Aerial Vehicle (UAV) applications. The two main focuses are (1) aerodynamic performance at Reynolds number on the order of 10,000, (2) the effect of a conventional hot-wire probe on laminar separation bubbles. For aerodynamic performance, pressure and wake velocity distributions were measured at Re = 40,000 and 60,000 for a range of angles of attack. The airfoil performed poorly for these Reynolds numbers due to laminar boundary layer separation. 2-D boundary layer trips significantly improved the lift-to-drag ratio. For probe effects, three Reynolds numbers were investigated (Re = 100,000, 150,000, and 200,000), with three angles of attack for each. Pressure and surface shear distributions were measured. Flow upstream of the probe tip was not affected. Transition was promoted downstream due to the additional disturbances in the separated shear layer.

low Reynolds number airfoil

laminar separation bubble

oil film interferometry

0538

Bubble Formation in a Horizontal Channel at Subcooled Flow Condition

Shaban Nejad, Saman

27 November 2013

Bubble nucleation at subcooled flow boiling condition in a horizontal annular channel with a square cross section by the use of high-speed camera is investigated. The channel represents a scaled-down version of a single rod of CANDU reactor core. The experiments were performed by the use of water at pressures between 1-3 atm, constant heat flux of 0.124 MW/m2, liquid bulk subcooling of 32-1oC and mean flow velocities of 0.3-0.4 m/s. Bubble lift-off diameters were obtained from direct high speed videography. The developed model for the bubble lift-off diameter was obtained by analyzing the forces acting on a bubble. Furthermore, a model for the bubble growth rate constant was suggested. The proposed model was then compared to experimental data and it has shown a good agreement with the experimental data. Additionally, the effects of liquid bulk subcooling, liquid pressure and mean flow velocity on bubble lift-off diameter were investigated.

Subcooled two phase flow

Bubble nucleation

Critical Heat Flux

Heat transfer

0548

Contribution à la prévision de l'érosion de cavitation à partir de simulations numériques : proposition d'un modèle à deux échelles pour l'estimation du chargement imposé en paroi par le fluide / Contribution to the prediction of cavitation erosion from numerical simulations : proposition of a two scales model to estimate the charge imposed by the fluid

Krumenacker, Laurent

29 January 2015

Lors du fonctionnement d'une installation hydraulique, l'apparition de zone de cavitation dans l'écoulement peut entraîner un endommagement important sur la surface des matériaux. La quantification de l'intensité de cavitation sur les composants hydrauliques serait utile à la fois pour mieux concevoir les nouveaux équipements en projet, mais aussi pour améliorer la conduite et optimiser la maintenance des matériels existants. Au vu du grand nombre de paramètres régissant les écoulements cavitants, l'élaboration de lois de similitudes universelles à partir d'expériences est délicate. Avec l'augmentation des moyens de calculs, la simulation numérique est un outil pour étudier ce phénomène sur des géométries variées. La principale difficulté de cette démarche réside dans la différence d'échelles existant entre les simulations numériques U-RANS servant à simuler l'écoulement cavitant et les mécanismes d'implosion de bulles jugés responsables de l'endommagement sur le solide. La méthode proposée dans ce manuscrit s'appuie sur un post-traitement des simulations U-RANS afin de caractériser une distribution de bulles et de simuler leurs comportements à de plus petites échelles spatiales et temporelles. Dans un premier temps, notre travail consiste à expliciter les équations locales de conservation de masse, de quantité de mouvement et d'énergie pour un écoulement liquide/gaz comprenant deux espèces eau/air. Ce travail mène à l'élaboration de grandeurs de mélange prenant notamment en compte la présence de gaz incondensables au sein du fluide. Des hypothèses permettent de rendre ce système équivalent à ceux, utilisant une approche homogène, implémentés dans les codes de simulations d'écoulements cavitants instationnaires développés précédemment au laboratoire. La caractérisation des populations de bulles effectuée par le post-traitement prend ainsi en considération à la fois la tension superficielle et la présence de gaz incondensables. Dans un deuxième temps, l'élaboration d'un code de calcul permettant la simulation de la dynamique d'un nuage de bulles est débutée. Ce dernier a pour ambition de tenir compte à la fois des interactions entre les bulles et des déformations non sphériques que celles-ci peuvent subir à l'aide d'une méthode potentielle. Des premiers résultats de simulations sont présentés dans ce manuscrit et permettent de tenir compte de faibles déformations des bulles. La dernière étape de ce travail consiste à proposer une méthode de chaînage entre ces deux échelles en initialisant le calcul de dynamique de bulles à l'aide des résultats du calcul U-RANS. L'énergie émise lors de l'implosion des bulles et impactant la surface solide est ainsi calculée, caractérisant de ce fait le chargement imposé par l'écoulement sur le matériau. Cette méthode est par la suite appliquée sur différentes géométries en comparant à chaque fois les résultats obtenus à des expériences. Nous comparons également nos résultats à des méthodes précédemment établies au sein du laboratoire afin d'évaluer la pertinence de cette approche. / During the life's cycle of a hydraulic installation, the occurrence of cavitation can cause significant damages on the material's surface. The quantification of the cavitation intensity in different geometry can be useful to get better designs for new installations, but also to improve the operating and to optimize maintenance of existing equipments. The development of universal laws of similarity from experiments is difficult due to the large number of parameters governing cavitating flows. With the increase of computational performance, numerical simulations offer the opportunity to study this phenomenon in various geometries. The main difficulty of this approach is the scale's difference existing between the numerical simulations U-RANS used to calculate the cavitating flow and mechanisms of bubble's collapse held responsible for damages on the solid. The proposed method in this thesis is based on a textbf{post-treatment} of the textbf{U-RANS} simulations to characterize a distribution of bubbles and to simulate their behavior at lower spatial and temporal scales. Our first objective is to make explicit a system of equations corresponding to phenomena occurring locally in the two-phase flow. This work leads to the development of mixture variables taking into account the presence of non-condensable gases in the fluid. Assumptions are taken to make the system, after using the Reynolds averaging procedure, equivalent to those, using a homogeneous approach, implemented in the unsteady cavitating flows solvers previously developed in the laboratory. The characterization of bubbles made by this post-treatment takes into account both the surface tension and the presence of non-condensable gases. The development of a solver for the simulation of the dynamic of a bubble cloud is started. It aims to take into account both the interactions between bubbles and non-spherical deformations with a potential method. First results of these simulations are presented and small non-spherical deformations occurring during the collapse can be observed. Finally, we propose a chained method between these two systems initializing the bubble dynamic solver with results of U-RANS simulations. The energy emitted during the implosion of bubbles impacting the solid surface is calculated. So the aggressiveness of the flow on the material can be characterized. We apply this method on different flows to compare numerical and experimental results.

Erosion de cavitation

Simulations numérique

Dynamique de bulles

Cavitation erosion

Numerical simulations

Bubble dynamic

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