Geometric Modifications and their Impact on the performance of the Vortex Tube

Rajagopalan, Arun Gopal

28 June 2016

No description available.

Mechanics

Aerospace Engineering

CFD

Parametric Study

Temperature Separation

Vortex Tube

Chamber Diameter

Use of Homemade Blenderized Formula in Gastrostomy Tube Dependent Pediatric Patients with Feeding Intolerance: A Retrospective Analysis

Bronston, Ashley Lynn

30 August 2016

No description available.

Medicine

Nursing

Nutrition

Investigation Of Corrosion In Canned Chicken Noodle Soup Using Selected Ion Flow Tube-Mass Spectrometry (SIFT-MS)

Wu, Yajun, Wu

29 December 2016

No description available.

Food Science

Probing Electronic Band Structure and Quantum Confined States in Single Semiconductor Nanowire Devices

Badada, Bekele H.

10 October 2016

No description available.

Physics

Photocurrent

Semicoductor Nanowires

Quantum well tube

Quantum Confined Stark Effect

Quantum dots

Nanowire devices

Process-Structure-Property Relationship of Micro-channel tube for CO2 Climate Control Systems

Gowreesan, Vamadevan

January 2004

No description available.

Engineering, Mechanical

Micro Channel Tube

Mechanical Properties

Heat Transfer

Aluminum

R744

Climate Control System

Computational Approach to Defect Reduction in Hot Extrusion and Rolling with Material and Process Uncertainties

Zhu, Yijun

January 2009

No description available.

Industrial Engineering

Metallurgy

Statistics

Systems Design

Process Uncertainty

Tube Extrusion

Hot Rolling

Defect Reduction

Adjuster Rod Design in a CANDU Reactor and Flux Distributions Due to an Arbitrary Source of Neutrons

Bertachas, Yiannis

January 1978

This submission is officially titled as a project. The author has also produced a second project relating to the same topic, titled "Part B: Power Transient in a CANDU Reactor" / This report consists of two separate studies. The first part deals with the calculation of the tube thickness of the Bruce B adjuster rods. The incremental cross-section for four tube thicknesses were obtained using the SUPERCELL Method. The tube thicknesses were then calculated so that the flux distributions at steady state full power and the corresponding total reactivity worth of the adjuster rods were in agreement with the reference design valves. The second part deals with the modifications made to the three-dimensionalSORGHUM code to permit calculations of steady-state flux distributions in asubcritical assembly in the presence of a constant non-fission meutron source. / Thesis / Master of Engineering (ME)

tube thickness

Bruce B adjuster rods

SUPERCELL method

total reactivity

flux distributions

BLAST-INDUCED CEREBROVASCULAR AND BRAIN INJURY: THE THORACIC MECHANISM

Assari, Soroush

January 2017

The focus of this dissertation was the biomechanics of blast-induced traumatic brain injury (bTBI). This study had three specific aims. One of the specific aims was to investigate the thoracic mechanism of bTBI by characterizing the cerebral blood pressure change during local blast exposure to head or chest in a rat model. This model utilized a shock tube to simulate the blast wave. The results showed that there is a blood pressure rise with high amplitude and short duration during both Head-Only and Chest-Only exposure conditions. It was shown that cerebral blood pressure rise was significantly higher in Chest-Only exposure, and resulted in astrocyte reactivation, and infiltration of blood-borne macrophages into the brain. It was concluded that due to chest exposure to a blast wave, high amplitude pressure waves that transfer from thoracic large vessels to cerebrovasculature can lead to blood-brain barrier disruption or perivascular injury and consequently trigger secondary neuronal damage. The second and third aims were related to the viscoelasticity and heterogeneity of brain tissue respectively for blast rate loading conditions. For the second specific aim, a novel test method was developed to apply shear deformation to samples of brain tissue with strain rates in the range of 300 to 1000 s-1. The results of shear tests on cylindrical samples of bovine brain showed that the instantaneous shear modulus (about 6 kPa) increased about 3 times compared to the values reported in the literature. For the third specific aim, local viscoelastic behavior of rat brain was characterized using a micro-indentation setup with the spatial resolution of 350 mm. The results of micro-indentation tests showed that the heterogeneity of brain tissue was more pronounced in long-term shear moduli. Moreover, the inner anatomical regions were generally more compliant than the outer regions and the gray matter generally exhibited a stiffer response than the white matter. The results of this study can enhance the prediction of brain injury in finite element models of TBI in general and models of bTBI in particular. These results contribute to development of more biofidelic models that can determine the extent and severity of injury in blast loadings. Such predictions are essential for designing better injury mitigation devices for soldiers and also for improving neurosurgical procedures among other applications. / Mechanical Engineering / Accompanied by one .pdf file.

Engineering, Mechanical

Biomechanics

Blast

Cerebral Blood Pressure

Neurotrauma

Shock Tube

Thoracic Mechanism

Traumatic Brain Injury

THE ROLE OF RIC8A DURING EARLY VERTEBRATE DEVELOPMENT

Su, Baihao

January 2018

The Wnts, a family of secreted glycoprotein ligands, act through the frizzled (Fz) receptor, a family of seven-transmembrane (7TM) receptor proteins, to mediate intracellular signaling pathways that regulate cell fate determination, cell migration, or both. Whereas many molecular components of the Wnt signal transduction cascade have been identified, it remains unclear how the signal is transduced from the Fz receptors to the cytoplasm. To address this important question, a membrane-based yeast two-hybrid (MbY2H) screen was performed to identify potential Fz-interacting proteins. For this screen, the Frizzled7 (Fz7) protein was used as the bait and a mouse brain library was used the prey. This screen identified resistance to inhibitors of cholinesterase 8 homolog A (Ric8A), a 542–amino acid cytoplasmic protein, along with other proteins as putative Fz7-binding proteins. Ric8A had been studied previously in C. elegans and D. melanogaster for its function in regulating asymmetric cell division as a receptor-independent guanine nucleotide exchange factor (GEF) for Gα proteins. Additional studies in M. musculus and X. laevis further uncovered a role for this protein during gastrulation and neurulation; however, the mechanisms by which Ric8A regulated these processes remained unclear. In this thesis, I show Ric8A to be a bona fide binding partner for both Fz7; that Ric8A can also bind to the phosphoprotein Dishevelled (Dvl); and that both its interaction with Fz7 and Dvl is Wnt-regulated. The spatial and temporal mRNA expression pattern of the Xenopus homologue of Ric8A suggests a potential role in regulating Wnt signaling. The Xenopus homologue of Ric8A was cloned and gain-of-function and loss-of-function approaches in Xenopus uncovered a role for Ric8A in gastrulation and neural tube closure. Additionally, we found inhibition of Ric8A function mechanistically prevents activation of Rac1 which is required downstream of Wnt/Fz signaling during gastrulation. Overall, this study uncovers a novel regulator of Wnt signaling during early development / Biology

Developmental Biology

Biology, Molecular

Biology

Blastopore Closure

Convergent Extension

Gastrulation

Neural Tube Closure

Rho Gtpase

Wnt

Modeling Film Boiling and Quenching on the Outer Surface of a Calandria Tube Following a Critical Break Loca in a CANDU Reactor

Jiang, Jian Tao

04 1900

<p> In a postulated critical break LOCA in a CANDU reactor it is possible that heatup of a pressure tube (PT) causes ballooning contact with the calandria tube (CT). Stored heat in the PT is transferred out, yielding a high PT-CT heat flux, which can cause dry out of the CT and establishment of pool film boiling on the outer surface of the tube. The safety concern associated with this condition is that if the temperature of the CT experiencing film boiling gets sufficiently high then failure of the fuel channel may occur. However, quench heat transfer can limit the extent and duration of film boiling as has been experimentally observed. Current estimates of quench temperatures during pool film boiling are based primarily on experimental correlations. In this dissertation a novel mechanistic model of pool film boiling on the outside of a horizontal tube with diameter relevant to CT (approximately 130 mm) has been developed. The model is based in part upon characterizing the vapor film thickness for steady state film boiling under buoyancy driven natural convection flows around a tube located horizontally in a large liquid pool. Variations in steady state vapor film thickness as a function of the incident heat flux, the temperature of the CT outer wall, and the subcooling of the bulk liquid are analyzed. The calculated effective film boiling heat transfer coefficient is compared to available experimental data. Finally a transient equation is developed which quantifies the instability of the vapor film and a possible occurrence of rapid quench when a step change in governing parameters occurs, such as liquid subcooling. This mechanistic model can be employed in safety analysis to demarcate the conditions under which fuel channel failure will not occur in a postulated critical break LOCA.</p> / Thesis / Master of Applied Science (MASc)