Modelling of turbulent gas-particle flow

Strömgren, Tobias

January 2008

<p>An Eulerian-Eulerian model for dilute gas-particle turbulent flows is</p><p>developed for engineering applications. The aim is to understand the effect of particles on turbulent flows. The model is implemented in a finite element code which is used to perform numerical simulations. The feedback from the particles on the turbulence and the mean flow of the gas in a vertical channel flow is studied. In particular, the influence of the particle response time and particle volume fraction on the preferential concentration of the particles near the walls, caused by the turbophoretic effect is explored. The study shows that the particle feedback decreases the accumulation of particles on the walls. It is also found that even a low particle volume fraction can have a significant impact on the turbulence and the mean flow of the gas. A model for the particle fluctuating velocity in turbulent gas-particle flow is derived using a set of stochastic differential</p><p>equations. Particle-particle collisions were taken into account. The model shows that the particle fluctuating velocity increases with increasing particle-particle collisions and that increasing particle response times decrease the fluctuating velocity.</p>

turbulent gas-particle flows

modelling

turbophoresis

two-way coupling

Fluid mechanics

Strömningsmekanik

Quantitative measurements of ablation-products transport in supersonic turbulent flows using planar laser-induced fluorescence

Combs, Christopher Stanley

17 September 2015

A recently-developed experimental technique based on the sublimation of naphthalene, which enables imaging of the dispersion of a passive scalar using planar laser-induced fluorescence (PLIF), is applied to a Mach 5 turbulent boundary layer and a NASA Orion capsule flowfield. To enable the quantification of naphthalene PLIF images, quantitative fluorescence and quenching measurements were made in a temperature- and pressure-regulated test cell. The test cell measurements were of the naphthalene fluorescence lifetime and integrated fluorescence signal over the temperature range of 100 K to 525 K and pressure range of 1 kPa to 40 kPa in air. These data enabled the calculation of naphthalene fluorescence yield and absorption cross section over the range of temperatures and pressures tested, which were then fit to simple functional forms for use in the calibration of the PLIF images. Quantitative naphthalene PLIF images in the Mach 5 boundary layer revealed large-scale naphthalene vapor structures that were regularly ejected out to wall distances of approximately y/δ = 0.6 for a field of view that spanned 3δ to 5δ downstream of the trailing edge of the naphthalene insert. The magnitude of the calculated naphthalene mole fraction in these structures at y/δ = 0.2 ranged from approximately 1-6% of the saturation mole fraction at the wind tunnel recovery temperature and static pressure. An uncertainty analysis showed that the uncertainty in the inferred naphthalene mole fraction measurements was ± 20%. Mean mole fraction profiles collected at different streamwise locations were normalized by the mole fraction measured at the wall and a characteristic height of the scalar boundary layer, causing the profiles to collapse into one “universal” mole fraction profile. Two-dimensional fields of naphthalene mole fraction were also obtained simultaneously with velocity by using particle image velocimetry (PIV) and PLIF. The images show large-scale naphthalene vapor structures that coincide with regions of relatively low streamwise velocity. The covariance of naphthalene mole fraction with velocity indicates that an ejection mechanism is transporting low-momentum, high-scalar-concentration fluid away from the wall, resulting in the protrusions of naphthalene vapor evident in the instantaneous PLIF images. Lastly, naphthalene PLIF was used to visualize the dispersion of gas-phase ablation products on a scaled Orion capsule model at four different angles of attack at Mach 5. High concentrations of scalar were imaged in the capsule recirculation region. Additionally, intermittent turbulent structures were visualized on the heat shield surface, particularly for the 12° and 52° AoA cases.

PLIF

PIV

Scalar transport

Supersonic flows

Ablation

Reentry

Orion capsule

Turbulence

Naphthalene

Fluorescence

Laser diagnostics

Explaining Institutional Diversity in Emerging Markets for Environmental Flows: A Transaction Costs Approach to Comparative Policy Evaluation in the Columbia Basin

Garrick, Dustin E.

January 2010

ABSTRACT NOT AVAILABLE

Columbia Basin

Environmental Flows

Transaction Costs

Water Institutions

Water Markets

Water Rights Reform

Bankers and Bolsheviks: International Finance and the Russian Revolution, 1892-1922

Malik, Hassan

January 2013

This dissertation describes and analyzes the financial boom that made Russia the largest net international debtor in the world by 1914, as well as the Bolshevik default of 1918 -- one of the biggest in international financial history. For the Bolsheviks the default was a highly significant attack on "finance capital." Yet few historians have paid much attention to the financial history of the Russian Revolution. This study focuses in particular on the decision-making of the small but influential group of financiers and government officials who acted as the "gatekeepers" of international finance, channeling international capital to Russia in the late nineteenth and early twentieth centuries. / History

History

Economic history

World history

Banking history

Capital flows

Financial history

Globalization

Russian Revolution

Diffuse emissions from goods - influences on some societal end products

Amneklev, Jennie

January 2015

End products of society (e.g. sewage sludge and incineration ashes) can be used as indicators of the use of chemicals in consumer goods. Through upstream work the sources of substances released from goods may be identified before the emissions reach the end products. This thesis is a result of five studies, of which four were conducted using substance flow analyses (SFA) for silver (Ag), bismuth (Bi) and copper (Cu) reaching sewage sludge. The fifth is an SFA that explores the implications of the presence of As (from CCA-treated wood) in ashes. These studies helped fulfil the specific and overall aims of the thesis; to contribute to the general knowledge on diffuse emissions reflected in end products, by examining emissions of some heavy metals from various societal goods and the implications for end products, in this case sewage sludge and, to some extent, ashes. The results from the studies, of which four had Stockholm as a study object, show the urban flows and accumulated amounts (stocks) of the heavy metals. The largest sources of the metals Ag, Bi and Cu in sewage sludge were identified to be textiles (Ag), cosmetics (Bi) and brake linings (Cu). For As (in CCA-treated wood) and Cu updated SFAs were performed and compared with earlier studies in order to follow the development and changes in flows over time. The current use of the heavy metals studied can also be seen as a loss of resources, and as the metals should ideally be recovered as a part of a circular economy, urban and landfill mining as well as recycling are alternatives that need further exploring. The legislation of chemicals in consumer goods was identified as an important step in handling corresponding diffuse emissions.

Arsenic

bismuth

CCA-treated wood

copper

material flow analysis

silver

substance flow analysis

urban flows

Late Holocene Fire and Climate History of the Western San Juan Mountains, Colorado: Results from Alluvial Stratigraphy and Tree-Ring Methods

Bigio, Erica Renee

January 2013

In the past few decades, wildfires have increased in size and severity in the Southwest and across the western US. These recent trends in fire behavior are a drastic change in arid, ponderosa pine and mixed conifer forests of the Southwest compared with tree-ring records of fire history for the past ~ 400 years. This study presents a late Holocene record (~ 3,000 years) of fire history and related changes in fire regimes with climate variability over annual to multi-decadal time scales. Tree-ring and alluvial-sediment sampling sites were paired in four small, tributary basins located in the western San Juan Mountains of Colorado. In our study sites, tree-ring records show that fire return intervals were longer and fire behavior was more severe on the north-facing slopes with relatively dense mixed conifer stands. Increased fire barriers and steep topography decreased the fire frequency and extent relative to gentle terrain elsewhere in the range and leading to a lack of synchrony among fire years in different parts of the study area. The alluvial-sediment record showed four peaks in high-severity fire activity over the past 3,000 years ranging between 200 - 400 years in length. The timing of peaks coincided with decadal-length drought episodes and were often preceded by multiple decades of above average winter precipitation. The sampling of alluvial-sediment and tree-ring data allowed for site-level comparisons between recent alluvial deposits and specific fire years interpreted from the tree-ring records. We found good correspondence between the type of fire-related sediment deposit (i.e. geomorphic response) in the alluvial record and the extent of mixed and high-severity fire estimated from the tree-ring record, and the correspondence was well-supported by the debris flow probability model results. The two paleofire data tend to represent particular components of the historical fire regime, with alluvial-sediments biased towards infrequent, high-severity events during recent millennia, and the tree-ring record biased toward lower severity fires during recent centuries. The combined analyses of different paleofire proxy types in the same study sites, therefore, can enhance and expand our understanding of fire and climate history beyond what is possible with either proxy alone.

fire history

fire scars

fire severity

San Juan Mountains

Geosciences

debris flows

Prehistoric and modern debris flows in semi-arid watersheds: Implications for hazard assessments in a changing climate

Youberg, Ann M.

January 2013

In a series of three studies, we assess modern debris-flow hazards in Arizona from extreme precipitation events and following wildfires. In the first study, we use a combination of surficial geologic mapping, ¹⁰Be exposure age dating and modeling to assess prehistoric to modern debris-flow deposits on two alluvial fans in order to place debris-flow hazards in the context of both the modern environment and the last major period of climate change. Late Pleistocene to early Holocene debris flows were larger and likely initiated by larger landslides or other mass movement failures, unlike recent debris flows that typically initiate from shallow (~1 m) failures and scour channels, thus limiting total volumes. In the second study we assess the predictive strengths of existing post wildfire debris-flow probability and volume models for use in Arizona's varied physiographic regions, and define a new rainfall threshold valid for Arizona. We show that all of the models have adequate predictive strength throughout most of the state, and that the debris-flow volume model over-predicts in all of our study areas. Our analysis shows that the choice of a model for a hazard assessment depends strongly on location. The objectively defined rainfall intensity-duration thresholds of I₁₀ and I₁₅ (52 and 42 mm h⁻¹, respectively) have the strongest predictive strengths, although all five of the threshold models performed well. In the third study, we explore various basin physiographic and soil burn severity factors to identify patterns and criteria that can be used to discriminate between potential non-debris-flow (nD) and debris-flow (D) producing basins. Findings from this study show that a metric of percent basins area with high soil burn severity on slopes ≥30 degrees provides a stronger discrimination between nD and D basins than do basin metrics, such as mean basin gradient or relief. Mean basin elevation was also found to discriminate nD from D basins and is likely a proxy for forest type and density, which relates to soil thickness, root density and the magnitude of post-disturbance erosion. Finally, we found that post-fire channel heads formed at essentially the same slope range (~30-40 degrees) as saturation-induced hill slope failures.

debris flows

hazard assessments

semi-arid

surficial geology

wildfires

Hydrology

Arizona

Advancing Water Management through Methods to Assess Environmental Flow Needs and Improve Stakeholder Engagement

Mott Lacroix, Kelly E.

January 2015

Adequate water for ecosystems and humans is at a premium as the global population increases and the climate changes. Coping with these impacts requires tools to improve water governance and water management through legal or policy mechanisms. Water governance generates laws, policies, and rulings and water management implements those laws, policies, and rulings and rulings through management decisions. A key concern of water governance is balancing human and ecosystem water needs. Effective governance that promotes sustainable use of water resources to maintain ecosystem integrity is challenging. Many regions do not have sufficient resources for water management or water for ecosystems is not protected under traditional legal mechanisms. The challenge of improving water governance for ecosystems is, therefore, twofold. First, there is a need to provide resources that build the capacity of water managers to allocate water to ecosystems. Second, mechanisms to promote effective transformation of environmental flow needs into policy or practice are required. This research provides methods to advance water management by: 1) assessing environmental flow needs through creation of a geospatial database and 2) improving stakeholder engagement through lessons learned from three multi-year stakeholder engagement processes. Appendix A describes the current understanding of the link between hydrology and riparian and aquatic ecosystems in Arizona through synthesis of environmental flow needs. The synthesized information, stored in a geospatial database, can be used by water managers to determine the water needs to maintain riparian and aquatic habitats. Review of 121 studies reveals that there are very few analyses of surface water and groundwater requirements for intermittent or ephemeral river systems, and there are only limited generalizable data for aquatic species. This database can be used to identify critical geographic and topical knowledge gaps, as well as serve as a single place for water and land managers to assess and use the most current research to inform management decisions. Appendix B provides an empirical example of engagement to promote social learning as a way to preserve water for the environment when law does not protect environmental flows. Through 43 focus groups with 226 individuals representing a diversity of interests, we determined that there was common ground on concerns about water conservation, cooperation, financial incentives, and multiple benefits for water use. Through this engagement process, we found that identifying and then building common ground requires attention to details. These details include the process of analyzing qualitative data and methods for displaying complex information, which are not frequently discussed in the social learning or stakeholder engagement literature. Appendix C presents a framework for designing effective stakeholder engagement based on the experiences of the University of Arizona Water Resources Research Center in three separate processes that engaged water experts. The proposed framework provides an iterative and flexible approach centered on a bridging organization that can bring people together and keep the engagement process moving forward. As illustrated through an evaluation of the three projects, the proposed framework provides for inclusivity, interactiveness, and flexibility in engagement through guidance by a steering committee and iteratively examining the water resource management problem. While further assessment is necessary, it appears that this framework is general enough to be applicable across projects at three different scales and with three separate sets of goals, yet detailed enough to provide a tangible approach that could aid other processes where the goal is implementing and evaluating expert engagement to solve complex problems and promote social learning. Previous studies on water governance have focused predominantly on the identification of the current problems with governance. However, because humans have an important role in shaping the global water cycle, the time has come to focus on solutions. In order to further water management solutions, a better understanding of the tools needed to manage water for ecosystems and effective methods for co-producing knowledge or encouraging social learning are needed. This research provides a regional example of approaches to advance water management using a tool to assess environmental flows needs and frameworks for promoting common ground and social learning in stakeholder engagement.

environmental flows

process design

social learning

stakeholder engagement

water management

Arizona

Arid Lands Resource Sciences

Have IFRS Contributed to an Increased Value-Relevance? : The Scandinavian Evidence

Bogstrand, Oskar, Larsson, Erik Alexander

January 2012

This paper examines the value-relevance of Scandinavian earnings information and book values over the past decade in order to shed some light on whether the extensive global adoption of IFRS/IAS has contributed to an increased accounting quality in terms of economic decision-usefulness to equity investors. We address this research question using a sample of 4.310 firm-year observations for 431 exchange-listed companies at NASDAQ OMX Nordic and Oslo Stock Exchange between 2001 and 2010. The degree of value-relevance in our firm-sample is operationalized through two price regressions and one return regression and empirically tested via the statistical association between capitalized values of equity or annual changes in capitalized values of equity and the study’s three explanatory accounting variables: (i) book values, (ii) accrual-based earnings and (iii) cash-flow-based earnings. Taken as a whole, our results show significant empirical signs of an increased value-relevance in both Scandinavian earnings information and book values, allowing us to draw significant as well as contributing conclusions on the information content of financial statement information disclosed in the Scandinavian region. We believe our study adds empirical substance to practical debates over the function of financial reporting as well as resourceful material to both Scandinavian investors and to the ongoing international discussion on the harmonization of financial reporting standards.

Accruals

Book Values

Cash Flows

Earnings

FASB

IASB

IFRS

Value-Relevance

Geodesic tractography segmentation for directional medical image analysis

Melonakos, John

17 December 2008

Geodesic Tractography Segmentation is the two component approach presented in this thesis for the analysis of imagery in oriented domains, with emphasis on the application to diffusion-weighted magnetic resonance imagery (DW-MRI). The computeraided analysis of DW-MRI data presents a new set of problems and opportunities for the application of mathematical and computer vision techniques. The goal is to develop a set of tools that enable clinicians to better understand DW-MRI data and ultimately shed new light on biological processes. This thesis presents a few techniques and tools which may be used to automatically find and segment major neural fiber bundles from DW-MRI data. For each technique, we provide a brief overview of the advantages and limitations of our approach relative to other available approaches. / Acknowledgements page removed per author's request, 01/06/2014.

Medical image analysis

MRI

Tractography

Image processing

Diagnostic imaging

Geodesics (Mathematics)

Geodesic flows