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The Influence of Particle Size and Crystalline Level on the Combustion Characteristics of Particulated SolidsCastellanos Duarte, Diana Yazmin 16 December 2013 (has links)
Over the past years, catastrophic dust explosion incidents have caused numerous injuries, fatalities and economical losses. Dust explosions are rapid exothermic reactions that take place when a combustible dust is mixed with air in the presence of an ignition source within a confined space. A variety of strategies are currently available to prevent dust explosion accidents. However, the recurrence of these tragic events confirms flaws in process safety for dust handling industries. This dissertation reports advances in different approaches that can be followed to prevent and mitigate dust explosions. For this research, a 36 L dust explosion vessel was designed, assembled and automated to perform controlled dust explosion experiments.
First, we explored the effect of size polydispersity on the evolution of aluminum dust explosions. By modifying systematically the span of the particle size distribution we demonstrated the dramatic effect of polydispersity on the initiation and propagation of aluminum dust explosions. A semi-empirical combustion model was used to quantify the laminar burning velocity at varying particle size. Moreover, correlations between ignition sensitivity and rate of pressure rise with polydispersity were developed. Second, we analyzed the effect of particle size and crystalline levels in the decomposition reactions of explosion inhibitor agents (i.e., phosphates). We fractionated ammonium phosphate- monobasic (NH_4H_2PO_4) and dibasic ((NH_4)_2HPO_4) at different size ranges, and synthesized zirconium phosphate (Zr(HPO_4)_2·H_2O) at varying size and crystalline levels. Particle size was found to be crucial to improve the rate of heat absorption of each inhibitor. A simplified model was developed to identify factors dominating the efficiency of dust explosion inhibitors. Finally, we conducted computational fluid dynamic (CFD) simulations to predict overpressures in dust explosions vented through ducts in large scale scenarios. We particularly focused on the adverse effects caused by flow restrictions in vent ducts. Critical parameters, including ignition position, geometric configuration of the vent duct, and obstructions of outflow such as bends and panels were investigated. Comparison between simulation and experimental results elucidated potential improvements in available guidelines.
The theoretical analyses complemented the experimental work to provide a better understanding of the effects of particle size on the evolution of dust explosions. Furthermore, the validation of advanced simulation tools is considered crucial to overcome current limitations in predicting dust explosions in large scale scenarios.
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Los Derechos Económicos, Sociales y Culturales (DESC), de dónde venimos y hacia dónde vamosZerillo, José Luis January 2014 (has links)
La obra pretende encontrar una explicación al estado actual de exigibilidad y vigencia de los Derechos Económicos, Sociales y Culturales.
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Measuring advances on economic, social and cultural rights in the interamerican region / Medición de avances en materia de derechos económicos, sociales y culturales en la región interamericanaPérez Gómez, Laura Elisa 10 April 2018 (has links)
Progress indicators for measuring human rights, is a new paradigm established in the Inter-American region to identify improvements and formulate public policies based on empirical evidence. The analysis of the first round of reports for the Protocol of San Salvador was finished on May 2016, setting observations and recommendations to ensure expansion of economic, social, cultural and environmental rights in the Americas. This instrument with indicators must strengthen development policies and enforce human rights. / La evaluación de derechos humanos vía indicadores es un nuevo paradigma establecido en la región interamericana para valorar los progresos en la materia y formular políticas públicas basadas en evidencia empírica. El proceso de análisis de la primera ronda de informes para el Protocolo de San Salvador culminó en mayo de 2016, con la generación de observaciones y recomendaciones orientadas a garantizar la expansión de los derechos económicos, sociales, culturales y ambientales en las Américas. Esta metodología de indicadores deberá constituir un instrumento para fortalecer las políticas de desarrollo y la exigibilidad de los derechos humanos.
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Určování parametrů temné energie a modifikované gravitace v rámci projektu LSST / Určování parametrů temné energie a modifikované gravitace v rámci projektu LSSTVraštil, Michal January 2015 (has links)
Temnáenergietvořícípřibližně70%hmotyvesmíruz·stávájednouznejvětšch záhad moderní fyziky. K pochopení její podstaty jsou potřeba přesná kosmolog- ická měření. Jedním z projekt· zkoumající tuto exotickou formu hmoty bude i Large Synoptic Survey Telescope, který pom·že potvrdit či vyvrátit standardní kosmologický model (ΛCDM). Pro úspěch projektu je potřeba prozkoumat r·zné teorie temné energie. Jednou z alternativních teoríí vysvětlujících urychlenou expanzi vesmíru je tzv. chameleoní gravitace. Chameleon je nové skalární pole s hmotou závisející na okolní hustotě. V hustých prostředích jako je například Sluneční soustava získává pole velkou hmotu a propaguje se pouze na malých vzdálenostech díky čemuž m·že uniknout standardním test·m gravitace. V prá- ci mimo jiné studujeme chování chameleoního pole v okolí hvězd a v galaxiích. Ukazujeme také za jakých okolností je toto pole možné detekovat pomocí spek- troskopických měření a slabého čočkování.
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