214 resultados para Rope
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Dissertação de Mestrado, Educação Pré-Escolar, Escola Superior de Educação e Comunicação, Universidade do Algarve, 2016
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The objective of this thesis is to explore new and improved methods for greater sample introduction efficiency and enhanced analytical performance with inductively coupled plasma optical emission spectrometry (ICP-OES). Three projects are discussed in which the capabilities and applications of ICP-OES are expanded: 1. In the first project, a conventional ultrasonic nebuliser was modified to replace the heater/condenser with an infrared heated pre-evaporation tube. In continuation from previous works with pre-evaporation, the current work investigated the effects of heating with infrared block and rope heaters on two different ICP-OES instruments. Comparisons were made between several methods and setups in which temperatures were varied. By monitoring changes to sensitivity, detection limit, precision, and robustness, and analyzing two certified reference materials, a method with improved sample introduction efficiency and comparable analytical performance to a previous method was established. 2. The second project involved improvements to a previous work in which a multimode sample introduction system (MSIS) was modified by inserting a pre-evaporation tube between the MSIS and torch. The new work focused on applying an infrared heated ceramic rope for pre-evaporation. This research was conducted in all three MSIS modes (nebulisation mode, hydride generation mode, and dual mode) and on two different ICP-OES instruments, and comparisons were made between conventional setups in terms of sensitivity, detection limit, precision, and robustness. By tracking both hydride-forming and non-hydride forming elements, the effects of heating in combination with hydride generation were probed. Finally, optimal methods were validated by analysis of two certified reference materials. 3. A final project was completed in collaboration with ZincNyx Energy Solutions. This project sought to develop a method for the overall analysis of a 12 M KOH zincate fuel, which is used in green energy backup systems. By employing various techniques including flow injection analysis and standard additions, a final procedure was formulated for the verification of K concentration, as well as the measurement of additives (Al, Fe, Mg, In, Si), corrosion products (such C from CO₃²¯), and Zn particles both in and filtered from solution. Furthermore, the effects of exposing the potassium zincate electrolyte fuel to air were assessed.
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Fire has been always a major concern for designers of steel and concrete structures. Designing fire-resistant structural elements is not an easy task due to several limitations such as the lack of fire-resistant construction materials. Concrete reinforcement cover and external insulation are the most commonly adopted systems to protect concrete and steel from overheating, while spalling of concrete is minimised by using HPFRC instead of standard concrete. Although these methodologies work very well for low rise concrete structures, this is not the case for high-rise and inaccessible buildings where fire loading is much longer. Fire can permanently damage structures that cost a lot of money. This is unsafe and can lead to loss of life. In this research, the author proposes a new type of main reinforcement for concrete structures which can provide better fire-resistance than steel or FRP re-bars. This consists of continuous braided fibre rope, generally made from fire-resistant materials such as carbon or glass fibre. These fibres have excellent tensile strengths, sometimes in excess of ten times greater than steel. In addition to fire-resistance, these ropes can produce lighter and corrosive resistant structures. Avoiding the use of expensive resin binders, fibres are easily bound together using braiding techniques, ensuring that tensile stress is evenly distributed throughout the reinforcement. In order to consider braided ropes as a form of reinforcement it is first necessary to establish the mechanical performance at room temperature and investigate the pull-out resistance for both unribbed and ribbed ropes. Ribbing of ropes was achieved by braiding the rope over a series of glass beads. Adhesion between the rope and concrete was drastically improved due to ribbing, and further improved by pre-stressing ropes and reducing the slacked fibres. Two types of material have been considered for the ropes: carbon and aramid. An implicit finite element approach is proposed to model braided fibres using Total Lagrangian formulation, based on the theory of small strains and large rotations. Modelling tows and strands as elastic transversely isotropic materials was a good assumption when stiff and brittle fibres such as carbon and glass fibres are considered. The rope-to-concrete and strand-to-strand bond interaction/adhesion was numerically simulated using newly proposed hierarchical higher order interface elements. Elastic and linear damage cohesive models were used effectively to simulate non-penetrative 'free' sliding interaction between strands, and the adhesion between ropes and concrete respectively. Numerical simulation showed similar de-bonding features when compared with experimental pull-out results of braided ribbed rope reinforced concrete.
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Como resultado de la Misión Empresarial Caribe realizada por la Escuela de Administración de la Universidad del Rosario en abril de 2016, se realizó el presente documento donde se plantea una propuesta de mejora para el proceso de empaque de BanaFruts S.A.S. mediante el uso de teorías administrativas enfocadas a la gestión de calidad del producto como: Teoría de Restricciones, Kaizen y Cero defectos. La propuesta consiste en tener un proceso de control de calidad mucho menos repetitivo y más eficiente a lo largo del empaque del producto, donde solo los operarios de desmane se deberán encargar de definir cuáles bananos cumplen o no con las especificaciones de DOLE en esa etapa y además se aseguren de cumplir con nuevos límites de saturación de los frutos en las piscinas. Éstos se encontrarán en donde se alcanza el 90% de la capacidad de cada tanque. Para el de desmane estará a una altura de 0.54m; y para el de saneo estará a una altura de 0.49m. Así se actuará der manera preventiva y no reactiva como sucede actualmente, garantizando que los bananos no se lastimen y se reduzca el exceso de revisión a lo largo del proceso. Este cambio de gestión de calidad permitirá en primera instancia que los trabajadores en etapas diferentes a las de desmane se enfoquen en una sola tarea y no tengan que volver a verificar los aspectos de calidad del producto, seguido de un aumento de productividad en el procesamiento de los bananos por parte de éstos. Adicionalmente, se hace énfasis en la importancia de la mejora continua del proceso en general para asegurar un incremento gradual en la productividad. Para esto se propone un nuevo modelo de gestión de los recursos humanos donde los operarios serán más proactivos, tendrán una mayor participación en la identificación y solución de problemas y se encargarán de llevar a cabo sus labores de manera más eficiente. En este sentido, las acciones a tomar serán: seleccionar, organizar, limpiar y estandarizar. Finalmente, hay que estandarizar el proceso, es decir que debe existir una revisión continua para no permitir que los errores se repitan. Todas estas acciones estarán a cargo de un equipo líder llamado “Equipo BanaFruts”. Éste tendrá la responsabilidad de acompañar a los trabajadores en la realización de las actividades mencionadas y medir sus resultados.
