Oxidation Kinetics of Pure and Blended Methyl Octanoate/n-Nonane/Methylcyclohexane: Measurements and Modeling of OH*/CH* Chemiluminescence, Ignition Delay Times and Laminar Flame Speeds

Rotavera, Brandon Michael

2012 May 1900

The focus of the present work is on the empirical characterization and modeling of ignition trends of ternary blends of three distinct hydrocarbon classes, namely a methyl ester (C9H18O2), a linear alkane (n-C9H20), and a cycloalkane (MCH). Numerous surrogate biofuel formulations have been proposed in the literature, yet specific blending of these species has not been studied. Moreover, the effects of blending biofuel compounds with conventional hydrocarbons are not widely studied and a further point is the lack of studies paying specific attention to the effects of fuel variation within a given blended biofuel. To this end, a statistical Design of Experiments L9 array, comprised of 4 parameters (%MO, %MCH, pressure, and equivalence ratio) with 3 levels of variation, constructed in order to systematically study the effects of relative fuel concentrations within the ternary blend enabled variations in fuel concentration for methyl octanoate and MCH of 10% - 30% and 20% - 40%, respectively. Variation in pressure of 1 atm, 5 atm, and 10 atm and in equivalence ratio of 0.5, 1.0, and 2.0 were used, respectively. The fuel-volume percentage of n-nonane varied from 30% - 70%. In total, 10 ternary blends were studied. Ignition delay times for the ternary blends and for the three constituents were obtained by monitoring excited-state OH or CH transitions, A2Epsilon+ -> X2Pi or A2Delta -> X2Pi, respectively, behind reflected shock waves using a heated shock tube facility. Dilute conditions of 99% Ar (vol.) were maintained in all shock tube experiments with the exception of a separate series of n-nonane and MCH experiments under stoichiometric conditions which used 4% oxygen (corresponding to ~ 95% Ar dilution). Temperatures behind reflected shock waves were varied over the range 1243 < T (K) < 1672. From over 450 shock tube experiments, empirical ignition delay time correlations were constructed for all three pure fuels and a master correlation equation for the blended fuels. Ignition experiments conducted on the pure fuels at 1.5 atm indicated the following ignition delay time order, from shortest to longest: methyl octanoate < n-nonane < MCH. With increased pressure to 10 atm (nominal) the order remained, in general, consistent. Under fuel-lean conditions, ignition trends between methyl octanoate and n-nonane exhibited overlap at temperatures below 1350 K, below which the trends diverged with methyl octanoate having shorter ignition delay times. Similar behavior was observed under fuel-rich conditions, yet with the overlap occurring above 1450 K. Stoichiometric ignition trends did not display overlapping behavior under either 1.5 atm or 10 atm pressure. Laminar flame speed measurements were performed at 1 atm and an initial temperature of 443 K on the pure fuel constituents. Additional flame speed measurements of MCH were conducted at 403 K to compare with literature values and were shown to agree strongly with experiments conducted in a constant-volume apparatus. The experiments conducted herein, for the first time, measure laminar flame speeds methyl octanoate. A detailed chemical kinetics mechanism was compiled from three independent, well-validated models for the constituent fuels, where the sub-mechanisms for methyl octanoate and MCH were extracted for integration into a base n-nonane model. The compiled mechanism in the present study (4785 reactions and 1082 species) enables modeling of oxidation processes of the ternary fuel blends of interest. Calculations were performed using the compiled model relative to the base models to assess the impact of utilizing different base chemistry sets. In general, results were reproduced well relative to base models for both n-nonane and MCH, however results for methyl octanoate from both the compiled model and the base model are in disagreement with the results measured herein. Ignition delay times of the fuel blends are well-predicted for several conditions, specifically for blends at lean/high-pressure and stoichiometric/high-pressure conditions, however are not accurately modeled at fuel-rich, high-pressure conditions.

Methyl octanoate

n-Nonane

Methylcyclohexane

MCH

Fuel blend

Shock tube

Laminar flame speed

On Half-Space and Shock-Wave Problems for Discrete Velocity Models of the Boltzmann Equation

Bernhoff, Niclas

January 2005

We study some questions related to general discrete velocity (with arbitrarily number of velocities) models (DVMs) of the Boltzmann equation. In the case of plane stationary problems the typical DVM reduces to a dynamical system (system of ODEs). Properties of such systems are studied in the most general case. In particular, a topological classification of their singular points is made and dimensions of the corresponding stable, unstable and center manifolds are computed. These results are applied to typical half-space problems of rarefied gas dynamics, including the problems of Milne and Kramer. A classification of well-posed half-space problems for linearized DVMs is made. Exact solutions of a (simplified) linearized kinetic model of BGK type are found as a limiting case of the corresponding discrete models. Existence of solutions of weakly non-linear half-space problems for general DVMs are studied. The solutions are assumed to tend to an assigned Maxwellian at infinity, and the data for the outgoing particles at the boundary are assigned, possibly depending on the data for the incoming particles. The conditions, on the data at the boundary, needed for the existence of a unique (in a neighborhood of the assigned Maxwellian) solution of the problem are investigated. Both implicit, in the non-degenerate cases, and sometimes, in both degenerate and non-degenerate cases, explicit conditions are found. Shock-waves can be seen as heteroclinic orbits connecting two singular points (Maxwellians) for DVMs. We give a constructive proof for the existence of solutions of the shock-wave problem for the general DVM. This is worked out for shock speeds close to a typical speed, corresponding to the sound speed in the continuous case. We clarify how close the shock speed must be for our theorem to hold, and present an iteration scheme for obtaining the solution. The main results of the paper can be used for DVMs for mixtures as well as for DVMs for one species.

Boltzmann equation

discrete velocity models

boundary value problems

shock waves

MATHEMATICS

MATEMATIK

Ergebnisse der notfallmäßigen Koronarrevaskularisation bei Patienten mit akutem Myokardinfarkt und komplizierendem kardiogenem Schock

Mohr, Matthias

02 April 2013

Die koronare Herzkrankheit ist trotz wachsendem Lebensstandard und aller präventiven medizinischen Maßnahmen nach wie vor von hoher medizinischer und ökonomischer Bedeutung. Die Akutform stellt das akute Koronarsyndrom dar. Komplizierend kann sich im Rahmen eines akuten Koronarsyndroms ein kardiogener Schock manifestieren, welcher die häufigste Todesursache für Patienten mit akutem Myokardinfarkt nach Aufnahme ins Krankenhaus darstellt. Ziel dieser Arbeit war die Identifizierung von Risikofaktoren für die Krankenhaus- sowie Langzeitmortalität bei der chirurgischen Revaskularisation von Patienten mit akutem Koronarsyndrom und komplizierendem kardiogenen Schock. Wir führten hierfür eine retrospektive Datenanalyse an 302 konsekutiven Patienten durch, welche im akuten Koronarsyndrom und kardiogenen Schock mittels aortokoronarer Bypassoperation therapiert wurden. Insgesamt wurden 44 präoperative, 18 intraoperative und 28 postoperative binäre Items analysiert. Wir konnten zeigen, dass bei den Höchstrisiko-Patienten die Letalität stark vom präoperativen Risikoprofil und dem Ausmaß des kardiogenen Schocks abhängt. Insbesondere der präoperative Einsatz einer IABP sowie die Verwendung der linken Arteria mammaria als Bypassgefäß wirkten sich positiv aus. Das gute Langzeit-Ergebnis demonstriert den Benefit einer chirurgischen Revaskularisation bei den Patienten mit akutem Koronarsyndrom und kardiogenen Schock mit anderenfalls schlechter Prognose.

Kardiogener Schock

akuter Myokardinfarkt

CABG-OP

cardiogenic shock

acute myocardial infarction

ddc:610

Modulation of Extracellular Heat Shock Protein 70 Levels in Rainbow Trout

Faught, Leslie Erin

January 2013

At the cellular level, the stress response involves the synthesis of a highly conserved family of heat shock proteins (Hsps). These proteins are essential for maintenance of cellular homeostasis, both in times of stress and in normal cell functioning. Some of the most abundant forms of Hsps in the cell are members of the 70 kDa family. Intracellular heat shock protein 70 (Hsp70) expression in response to proteotoxicity is a highly conserved cellular stress response, but little is known about the role of extracellular Hsp70 (eHsp70) in fish. In order to begin characterizing eHsp70 in fish, the hypothesis that an acute stressor will elevate plasma Hsp70 levels in rainbow trout (Oncorhynchus mykiss) was tested. Subsequent in vitro studies examined whether eHsp70 level was modulated by cortisol and if this involved the action of the glucocorticoid receptor (GR), a ligand-activated transcription factor. The effect of cortisol on the eHsp70 response is important to consider because this steroid is elevated as a result of stressor exposure to allow for short-term allocation of energy stores to cope with stress. Cortisol is the primary corticosteroid in fish and exerts its main effects by binding to either GR or mineralocorticoid receptors (MR). Furthermore, eHsp70 has been previously implicated as having important immunoregulatory roles in mammalian models, but nothing has yet been reported in fish. To this end, a hypothesis tested here was that eHsp70 levels will increase after exposure to the bacterial endotoxin lipopolysaccharide (LPS), and that this response is modulated by cortisol. Finally, research on the effects of exogenous Hsp70 has not been reported in lower vertebrates; however, the relevance of this protein in intercellular signaling, especially in regards to immune regulation, is gaining increasing importance in mammalian models. Therefore, an experiment to determine whether Hsp70 would elicit upregulation of key immunoregulatory cytokines was also conducted. To accurately measure the low levels of Hsp70 in the plasma, a competitive antibody-capture enzyme-linked immunosorbent assay (ELISA) was developed. In the in vivo study, fish exposed to an acute heat shock (1h at 10°C above ambient temperature) exhibited a significant elevation in red blood cell Hsp70 levels over a 24 h period. There was also a significant increase in plasma Hsp70 levels at 4 h, but not at 24 h post-heat shock. To more specifically determine how cortisol affected the release of Hsp70, in vitro studies using primary cultures of hepatocytes demonstrated that cortisol significantly decreased eHsp70 levels in the medium at 24 h when compared with untreated controls, and this response was abolished in the presence of a GR antagonist, mifepristone (RU486). This result for the first time established a link between cortisol signaling and eHsp70 release in any animal model. When hepatocytes were exposed to LPS in vitro, eHsp70 levels were significantly lower in the LPS (30 µg/ml) group; however, heat shock abolished this effect at 24 h. Though eHsp70 levels in the heat shocked hepatocytes treated with low-dose LPS (10 µg/ml) was similar to untreated control levels, high-dose LPS treated hepatocytes showed significant elevation of eHsp70 levels above the low dose group. The ability of LPS to modulate eHsp70 release was not observed to be further regulated by cortisol. While this work suggests the modulation of eHsp70 by LPS, the physiological role remains to be elucidated. Finally when hepatocytes were exposed to exogenous Hsp70, there was no effect on key immunoregulatory genes (IL-1β and IL-8) transcript levels; however, the effect of this protein remains to be tested using other cell systems, including immune cells in fish. Overall, eHsp70 concentration was measured in trout plasma using a competitive ELISA and demonstrates for the first time that stressor exposure affects plasma eHsp70 levels in fish. Furthermore, cortisol, the primary corticosteroid in teleosts, modulates eHsp70 release in trout hepatocytes and this is action is mediated by GR signaling. Also, while trout hepatocytes secrete eHsp70 in response to endotoxin shock, a role for eHsp70 in eliciting an immune response is not clear in lower vertebrates. Taken together the results from this study suggest a role for eHsp70 in acute stress adaptation in fish, but the target tissues involved and the physiological responses remain to be elucidated. Further work on the effects of eHsp70 on target tissues effects, and the mechanisms involved, may have important implications in our understanding of the role of this stress protein in cell signaling and stress adaptation in fish.

extracellular heat shock protein 70

cellular stress response

cortisol

ELISA

Biology

Angiopoietin-1 and -2 in Infectious Diseases associated with Endothelial Cell Dysfunction

Page, Andrea Vaughn

21 March 2012

Normal endothelial cell function is controlled in part by a tightly regulated balance between angiopoietin-1 and -2 (Ang-1 and Ang-2). Angiopoietin dysregulation (decreased Ang-1 and increased Ang-2) leads to an activated endothelium that is contractile, adhesive, and prothrombotic. Since an activated endothelial phenotype is seen in invasive group A streptococcal infection, E. coli O157:H7-induced hemolytic-uremic syndrome (HUS), and sepsis, we hypothesized that angiopoietin dysregulation might also be present in these syndromes, and to that end, measured angiopoietin levels in several well-characterized patient cohorts. Decreased Ang-1 and/or increased Ang-2 were found in all three syndromes, and were predictive of clinical outcome in HUS and sepsis. The prognostic utility of Ang-2 in sepsis was further enhanced by combination with biomarkers of inflammation. Angiopoietin dysregulation may therefore represent a shared final common pathway to endothelial activation as well as a clinically useful prognostic biomarker in streptococcal toxic shock, HUS, and sepsis.

angiopoietin-1

angiopoietin-2

endothelial cell

streptococcal toxic shock

hemolytic-uremic syndrome

sepsis

0564

Elucidation of the Protective Mechanism of α Crystallin B in Cardiomyocytes

Chis, Roxana

21 March 2012

α-Crystallin B (cryAB) is the most abundant small heat shock protein in cardiomyocytes (CMs), where it has been shown to have potent anti-apoptotic properties. The mechanism by which cryAB prevents apoptosis has not been fully characterized. Therefore, I was interested in elucidating its protective mechanism in CMs. I identified its sub-cellular localization and its binding interactors following H2O2 exposure. I found that cryAB is found in the cytosol under control conditions and that following H2O2 exposure it becomes phosphorylated and translocates to the mitochondria. CryAB silencing resulted in increased apoptosis levels in CMs. Co-immunoprecipitation revealed an apparent increased interaction of cryAB and PcryAB with mitochondrial VDAC, caspase 12 and uncleaved caspase 3 in stressed hearts relative to controls. These results suggest that the cardio-protective effects of cryAB are mediated by its translocation to the mitochondria and its interaction with VDAC, caspase 12 and caspase 3 following exposure to H2O2.

crystallin

reactive oxygen species

cardiac cell

protection

mitochondria

heat shock protein

0719

Elucidation of the Protective Mechanism of α Crystallin B in Cardiomyocytes

Chis, Roxana

21 March 2012

α-Crystallin B (cryAB) is the most abundant small heat shock protein in cardiomyocytes (CMs), where it has been shown to have potent anti-apoptotic properties. The mechanism by which cryAB prevents apoptosis has not been fully characterized. Therefore, I was interested in elucidating its protective mechanism in CMs. I identified its sub-cellular localization and its binding interactors following H2O2 exposure. I found that cryAB is found in the cytosol under control conditions and that following H2O2 exposure it becomes phosphorylated and translocates to the mitochondria. CryAB silencing resulted in increased apoptosis levels in CMs. Co-immunoprecipitation revealed an apparent increased interaction of cryAB and PcryAB with mitochondrial VDAC, caspase 12 and uncleaved caspase 3 in stressed hearts relative to controls. These results suggest that the cardio-protective effects of cryAB are mediated by its translocation to the mitochondria and its interaction with VDAC, caspase 12 and caspase 3 following exposure to H2O2.

crystallin

reactive oxygen species

cardiac cell

protection

mitochondria

heat shock protein

0719

Angiopoietin-1 and -2 in Infectious Diseases associated with Endothelial Cell Dysfunction

Page, Andrea Vaughn

21 March 2012

Normal endothelial cell function is controlled in part by a tightly regulated balance between angiopoietin-1 and -2 (Ang-1 and Ang-2). Angiopoietin dysregulation (decreased Ang-1 and increased Ang-2) leads to an activated endothelium that is contractile, adhesive, and prothrombotic. Since an activated endothelial phenotype is seen in invasive group A streptococcal infection, E. coli O157:H7-induced hemolytic-uremic syndrome (HUS), and sepsis, we hypothesized that angiopoietin dysregulation might also be present in these syndromes, and to that end, measured angiopoietin levels in several well-characterized patient cohorts. Decreased Ang-1 and/or increased Ang-2 were found in all three syndromes, and were predictive of clinical outcome in HUS and sepsis. The prognostic utility of Ang-2 in sepsis was further enhanced by combination with biomarkers of inflammation. Angiopoietin dysregulation may therefore represent a shared final common pathway to endothelial activation as well as a clinically useful prognostic biomarker in streptococcal toxic shock, HUS, and sepsis.

angiopoietin-1

angiopoietin-2

endothelial cell

streptococcal toxic shock

hemolytic-uremic syndrome

sepsis

0564

Adaptable Design Improvements For Electromagnetic Shock Wave Lithotripters And Techniques For Controlling Cavitation

Smith, Nathan Birchard

January 2012

<p>In this dissertation work, the aim was to garner better mechanistic understanding of how shock wave lithotripsy (SWL) breaks stones in order to guide design improvements to a modern electromagnetic (EM) shock wave lithotripter. To accomplish this goal, experimental studies were carefully designed to isolate mechanisms of fragmentation, and models for wave propagation, fragmentation, and stone motion were developed. In the initial study, a representative EM lithotripter was characterized and tested for in vitro stone comminution efficiency at a variety of field positions and doses using phantom kidney stones of variable hardness, and in different fluid mediums to isolate the contribution of cavitation. Through parametric analysis of the acoustic field measurements alongside comminution results, a logarithmic correlation was determined between average peak pressure incident on the stone surface and comminution efficiency. It was also noted that for a given stone type, the correlations converged to an average peak pressure threshold for fragmentation, independent of fluid medium in use. The correlation of average peak pressure to efficacy supports the rationale for the acoustic lens modifications, which were pursued to simultaneously enhance beam width and optimize the pulse profile of the lithotripter shock wave (LSW) via in situ pulse superposition for improved stone fragmentation by stress waves and cavitation, respectively. In parallel, a numerical model for wave propagation was used to investigate the variations of critical parameters with changes in lens geometry. A consensus was reached on a new lens design based on high-speed imaging and stone comminution experiments against the original lens at a fixed acoustic energy setting. The results have demonstrated that the new lens has improved efficacy away from the focus, where stones may move due to respiration, fragmentation, acoustic radiation forces, or voluntary patient movements. Using traditional theory of brittle fragmentation and newfound understanding of average peak pressure correlation to stone comminution, the entire set of stone comminution data for lens comparison was modeled using a Weibull-style distribution function. This model linked both the average peak pressure and shock wave dose to efficacy, including their respective threshold parameters, and demonstrated correlation of coefficients to cavitation activity. Subsequently, this model was used in prediction of stone comminution efficiency from mimicked respiratory motions in vitro, which compared favorably to actual simulated motion studies using both the new and original lenses. Under a variety of mimicked respiratory motions, the new lens produced statistically higher stone comminution efficiency than the original lens. These results were confirmed in vivo in a swine model, where the new lens produced statistically higher stone comminution after 1,000 and 2,000 shocks. Finally, a mechanistic investigation into the effects of cavitation with the original lens was conducted using an integrated, self-focusing annular ring transducer specially designed for tandem pulse lithotripsy. It was found that cavitation and stone comminution efficiency are progressively enhanced by tandem pulsing as source energies of both the primary LSW and trailing pressure pulse increase, which suggests cavitation and stress waves act synergistically enhance the efficacy in kidney stone fragmentation.</p> / Dissertation

Mechanical engineering

Acoustics

Biomedical engineering

Cavitation

Peak Pressure

Shock Wave Lithotripsy

Tandem Pulse

Weibull Model

Starting with the End in Mind: A Case Study of Under-Represented, Teacher Education, Community College Transfers in a Predominantly White Institution

Byrd, David Arthur

2011 August 1900

This dissertation examined the experiences of African American and Hispanic community college transfers studying in a predominantly White institution (PWI) teacher education program. Extant literature has demonstrated that there is an increasing shortage of public school teachers of color. To address this pervasive crisis, universities must recruit larger numbers of under-represented students from America's community colleges to fill the gap. Additionally, under-represented students in predominantly White institution (PWI) teacher education programs must be retained and graduated in higher numbers to impact teacher production. To understand the needs and experiences of these students, three African American and four Hispanic students successfully studying in the College of Education and Human Development at Texas A & M University were interviewed to examine their experiences as they transitioned into and through the pre-service teacher education program. This study utilized a case study analysis and data collected through interviews, observations, and document analysis were analyzed utilizing constant comparative techniques. Key themes that emerged through data analysis included (1) Student Perceptions of the Transfer Process, (2) The Role of Intimate Support Structures, (3) The Role of Institutional Support Structures, (4) Situational Factors Faced by Under-represented Transfers, and (5) Strategies Employed by Under-represented Transfers in a Predominantly White, Teacher Education Program. Findings from this study suggest that Texas A & M University should improve the marketing of academic support resources and provide narrowly tailored services to meet the needs of under-represented transfer students. Additionally, Schlossberg's Transition Theory is amended to better represent the assets and liabilities utilized by these populations in this particular PWI.

Teacher Education

Transfer Students

Transfer Shock

College Retention

Access Gaps

Under-represented Students