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Neutronic simulation of a European Pressurised Reactor / Ontlametse Emmanuel MontwediMontwedi, Ontlametse Emmanuel January 2014 (has links)
The South African government’s integrated resource plan for electricity IRP2010 states that the country plans to have an additional 9.6 GW of nuclear power on the national electricity grid by 2030. In support of this, the NRF-funded SARChI Research Chair in Nuclear Engineering within the School of Mechanical and Nuclear Engineering at the North-West University recently initiated research studies focused on Light Water Reactor (LWR) systems. These studies inter alia involve coupled neutronic and thermal hydraulic analyses of selected LWR systems.
This study focuses on the steady state neutronic analysis of the European Pressurised Reactor (EPR) using Monte-Carlo N-Particle (MCNP5). The neutronic model will in due course be coupled to a thermal hydraulic model forming part of a broader study of the system. The Monte Carlo neutron transport code MCNP5 has been widely used since the 1950s for analysis of existing and future reactor systems due to its ability to simulate complex fuel assemblies without making any significant approximations. The primary aim of the study was to develop an input model for a representative fresh fuel assembly of the US EPR reactor core from which the fluxes and fission power of the reactor can be obtained. There after a 3D model of full EPR core developed by the school of mechanical and nuclear engineering based on findings of this work is also tested. The results are compared to those in the US EPR Final Safety Analysis Report.
Agreement in major core operational parameters including the keff eigenvalue, axial and radial power profiles and control rod worth are evaluated, from which consistency of the model and results will be confirmed. Further convergence of the model within a reasonable time is assessed. / MSc (Engineering Sciences in Nuclear Engineering), North-West University, Potchefstroom Campus, 2014
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Neutronic simulation of a European Pressurised Reactor / Ontlametse Emmanuel MontwediMontwedi, Ontlametse Emmanuel January 2014 (has links)
The South African government’s integrated resource plan for electricity IRP2010 states that the country plans to have an additional 9.6 GW of nuclear power on the national electricity grid by 2030. In support of this, the NRF-funded SARChI Research Chair in Nuclear Engineering within the School of Mechanical and Nuclear Engineering at the North-West University recently initiated research studies focused on Light Water Reactor (LWR) systems. These studies inter alia involve coupled neutronic and thermal hydraulic analyses of selected LWR systems.
This study focuses on the steady state neutronic analysis of the European Pressurised Reactor (EPR) using Monte-Carlo N-Particle (MCNP5). The neutronic model will in due course be coupled to a thermal hydraulic model forming part of a broader study of the system. The Monte Carlo neutron transport code MCNP5 has been widely used since the 1950s for analysis of existing and future reactor systems due to its ability to simulate complex fuel assemblies without making any significant approximations. The primary aim of the study was to develop an input model for a representative fresh fuel assembly of the US EPR reactor core from which the fluxes and fission power of the reactor can be obtained. There after a 3D model of full EPR core developed by the school of mechanical and nuclear engineering based on findings of this work is also tested. The results are compared to those in the US EPR Final Safety Analysis Report.
Agreement in major core operational parameters including the keff eigenvalue, axial and radial power profiles and control rod worth are evaluated, from which consistency of the model and results will be confirmed. Further convergence of the model within a reasonable time is assessed. / MSc (Engineering Sciences in Nuclear Engineering), North-West University, Potchefstroom Campus, 2014
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Élaboration d'une formulation liposomale pour le traitement des tumeurs cérébrales primaires malignesBellavance, Marc-André January 2010 (has links)
Le glioblastome multiforme (GBM) est l'une des tumeurs des plus létales qui soient. En dépit du traitement optimal actuellement disponible, la survie médiane des patients atteints d'un GBM n'atteint que 14,6 mois et n'a pu être améliorée de façon significative au cours des dernières décennies. La barrière hématoencéphalique endigue l'entrée de la majorité des xénobiotiques au système nerveux central et handicape sérieusement l'efficacité de la chimiothérapie. Une panoplie de stratagèmes fut développée afin de contourner cet obstacle majeur et l'emploi de liposomes comme véhicules recèle un grand potentiel. Nous avons donc entrepris l'élaboration d'une formulation liposomale dédiée à cette fin. Une formulation de base, inspirée de la littérature, a d'abord été modifiée de façon à produire plusieurs formulations dérivées. Le criblage de ces dernières a permis d'identifier une formulation candidate ainsi que des propriétés favorables à la lipofection des lignées cellulaires gliales F98 et U-118 MG. L'internalisation cellulaire des liposomes et la libération cytosolique de leur chargement hydrophile ont été évaluées quantitativement en cytométrie de flux. La formulation cationique, sensible au pH et dépourvue de polyéthylène glycol (PEG) s'est avérée la plus performante. Chez les deux lignées cellulaires, les liposomes de cette formulation vedette ont accédé au milieu intracellulaire entre 4 et 6 h, et y ont libéré leur cargaison sur plus de 24 h. Le balayage de cellules F98 et U-118 MG lipofectées en microscopie confocale a confirmé la libération intracellulaire du contenu des liposomes à 6 h, et a dévoilé un patron d'internalisation typique à l'endocytose. Enfin, cette formulation liposomale vedette s'est avérée très peu cytotoxique et aucun effet cytostatique n'a été remarqué chez ces deux lignées. La performance inférieure de la formulation de base et des autres dérivés indique qu'une réduction de la fluidité membranaire, l'inclusion de polymères PEG ainsi que l'absence combinée d'une charge cationique et de la sensibilité au pH ont des conséquences délétères sur la capacité de lipofection des liposomes. Ces résultats soulignent avec emphase l'importance d'adapter la composition lipidique des liposomes au type cellulaire ciblé et corroborent le potentiel des liposomes cationiques et sensibles au pH pour l'acheminement intracellulaire de xénobiotiques. Des études in vivo permettront d'établir le potentiel de la formulation liposomale vedette dans la thérapie des GBM.
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Hydrogen production by Rhodobacter sphaeroides and its analysis by metabolic flux balancingChongcharoentaweesuk, Pasika January 2014 (has links)
There is a global need for sustainable, renewable and clean energy sources. Microbial production of hydrogen from renewable carbon sources, biorefinery compounds such as succinic acid or from food and drinks industry waste meets all these criteria. Although it has been studied for several decades, there is still no large scale bio-hydrogen production because the rate and yield of hydrogen production are not high enough to render the process economical. The dependency of biological hydrogen production of incipient light energy is also an important factor affecting economics. In order to improve the prospects of biohydrogen as a renewable and sustainable energy alternative, the genetic and process engineering approaches should be helped and targeted by metabolic engineering tools such as metabolic flux balance analysis. The overall aim of this research was the development of computational metabolic flux balance analysis for the study of growth and hydrogen production in Rhodobacter sphaeroides. The research reported in this thesis had two approaches; experimental and computational. Batch culture experiments for growth and hydrogen production by Rhodobacter sphaeroides were performed with either malate or succinate as carbon source and with glutamate as the nitrogen source. Other conditions investigated included; i) aerobic and anaerobic growth, ii) light and dark fermentation for growth, and iii) continuous light and cycled light/dark conditions for hydrogen production. The best growth was obtained with succinate under anaerobic photoheterotrophic conditions with the maximum specific growth rate of 0.0467 h– 1, which was accompanied with the maximum specific hydrogen production rate of 1.249 mmol(gDW.h)– 1. The range of the photon flux used was 5.457 - 0.080 mmol(gDW.h)– 1. The metabolic flux balance model involved 218 reactions and 176 metabolites. As expected the optimised specific rates of growth and hydrogen production were higher than those of the experimental values. The best prediction was for hydrogen production on succinate with computed specific hydrogen production rates in the range of 2.314 - 1.322 mmol(gDW.h)– 1. Sensitivity analyses indicated that the specific growth rate was affected by the nitrogen source uptake rate under aerobic dark condition whereas the flux of protein formation had the largest effect on the specific growth rate under anaerobic light condition.
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Κατασκευή συστήματος μέτρησης απολύτου ροής θετικών ιόντων σε ηλεκτρικές εκκενώσεις χαμηλής πίεσηςΚαραβέντζας, Βασίλειος-Δημήτρης 13 October 2013 (has links)
Σημαντικό ρόλο στις βιομηχανικές εφαρμογές πλάσματος παίζει η ροή των ιόντων. Ωστόσο, συχνά συναντάται το πρόβλημα της εναπόθεσης μονωτικών υμενίων καθιστώντας τους ηλεκτροστατικούς καθετήρες μη λειτουργικούς για τη μέτρηση της ροής αυτής. Ένας εναλλακτικός καθετήρας, ικανός να λειτουργήσει σε αυτές τις συνθήκες, προτάθηκε από τους N. S. J. Braithwaite et al. [1]. Στην παρούσα εργασία παρουσιάζονται, πρώτον, η θεωρία λειτουργίας του καθετήρα αυτού, δεύτερον η κατασκευή του και τρίτον η ανάπτυξη τού συστήματος για την οδήγησή του καθώς και την καταγραφή και την επεξεργασία των σημάτων του. Τέλος, γίνεται πειραματική εξακρίβωση της σωστής λειτουργίας της συσκευής, σε διάταξη επαγωγικού πλάσματος ραδιοσυχνοτήτων (13.56 MHz). / The ion flux holds a major role in the industrial applications of plasma. Often, though, the problem of insulative film deposition is encountered, making the electrostatic probes non functional for the measurement of the ion flux. An alternative probe, capable of functioning under these circumstances has been proposed by N. S. J. Braithwaite et al. [1]. In this paper there are presented, firstly, the theory under which this probe functions, secondly the implementation and thirdly the development of a system for biasing and also data acquisition and processing the signals obtained by the probe. Finally, an experimental identification of the good operation of the device is done, in RF inductively couple plasma (13.56 MHz).
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Effect of heat flux on wind flow and pollutant dispersion in an urban street canyonCheung, Ching, 張靜 January 2006 (has links)
published_or_final_version / abstract / Mechanical Engineering / Master / Master of Philosophy
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Superconducting Transformer Design and ConstructionChew, En Phin January 2010 (has links)
This thesis first outlines the testing undertaken on a partial core superconducting
transformer under open circuit, short circuit, full load and endurance test conditions.
During the endurance test, a failure occurred after 1 minute and 35 seconds. During the
failure, voltage dipping and rapid liquid nitrogen boil off was observed. This prompted
a failure investigation which concluded that the lack of cooling in the windings was the
most probable cause to the failure.
Full core transformer and superconductor theories are then introduced. A copper
winding transformer model, based on a Steinmetz equivalent circuit and a reverse
design method, is described. A superconductor loss model which outlines the different
types of losses experienced under AC conditions is used to determine the resistance
of the windings in the Steinmetz equivalent circuit. This resistance changes with the
magnitude of current and the strength of the magnetic field that is present in the gaps
between each layer of the windings. An alternative leakage flux model is then presented,
where the flux is modelled based on the combination of the reluctance of the core and
the air surrounding the windings. Based on these theories, an iterative algorithm to
calculate the resistance of the superconductor is developed.
A new design of a 15kVA single phase full core superconducting transformer, operating
in liquid nitrogen, is presented. The issues with building the superconducting
transformer are outlined. First, a copper mockup of the superconducting transformer
was designed where the mockup would have the same tape and winding dimensions
as the superconducting transformer, which means the same core can be used for two
different sets of windings. This led to designing a core that could be easily taken apart
as well as reassembled. Construction of the core, the copper windings and the superconductor
windings ensued. The process of cutting the core laminations, insulating the
copper and superconductor tapes, and making the steel fasteners and terminations are
described.
The copper mockup and superconducting transformers was then tested under open
circuit, short circuit, different load and endurance conditions at both liquid nitrogen
and room temperatures. These test results were then compared with the those from
two models. The comparison showed a significant inaccuracy in the reactances in
the models. This introduced a correction factor into the superconductor model which
ii
made it more accurate. However, further work is required to explain and quantify the
correction factors for the copper transformer model under different load conditions.
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Millennial-scale variability in denitrification and phosphorus burial in the Eastern Tropical North PacificFrancavilla, Stephen A. January 2009 (has links)
The remarkable synchrony between changes in temperature recorded in Greenland ice cores and variations in N isotope records from sedimentary cores recovered from the Arabian Sea and the Eastern Tropical North Pacific (ETNP) has provided evidence for teleconnections between changes in marine denitrification in the tropics and climate variations in the northern high latitudes. Changes in tropical denitrification have been attributed to changes in productivity, changes in the source of intermediate waters and the flux of dissolved oxygen to suboxic zones. Variations in marine denitrification and anammox occurring at intermediate depths in proximity to productive continental margins have had profound effects on the N:P ratio of upwelled waters between stadials and interstadials, and may have indirectly affected carbon sequestration in the ocean by changing the balance of nutrients available to primary productivity. Competitive equilibrium, the changing stoichiometric balance of elements available as nutrients and the shorter residence time of N compared to P are factors that are believed to favour diazotrophs (N2-fixing organisms) during interstadials and shift the competitive advantage to non-N2-fixing ecosystems during stadials. This study presents a very high-resolution analysis of sedimentary nitrogen isotope records, phosphorus concentrations and bulk detrital element concentrations from two cores collected along the Pacific Mexican Margin. The results show that the oxygen minimum zone (OMZ) bathing intermediate waters in ETNP is modulated by the interaction of a Northern Hemisphere climate component with the “leakage” of heavy nitrate believed to derive from the Eastern South Pacific (ESP). This southerly component has a more “Antarctic” timing and is similar to records from the Peru-Chile margin. The sedimentary core recovered from the Mazatlan margin shows a “Greenland” timing of millennial-scale events, with reduced upwelling and reduced primary productivity, a less intense OMZ leading to reduced denitrification and a more southerly position of the mid-tropospheric subtropical ridge during stadials. This would have increased the onshore flow of moist air, ultimately leading to increased precipitation along the western Mexican Margin. Interstadials show a reversal of these conditions. In contrast to the Mazatlan core, the N isotope record from the core recovered from the Gulf of Tehuantepec records an element of “Antarctic” timing superimposed on local, millennial-scale variations in denitrification that are more similar in timing to Greenland temperature changes. In addition, the interpretation of observed variations in detrital elements from the Gulf of Tehuantepec highlights latitudinal displacements of the ITCZ that are consistent with those observed in the Cariaco Basin in Venezuela. Bulk P concentrations from both cores suggest that although phosphorite formation in the ETNP during interstadials is not as widespread as previously thought, the very high accumulation rates in the Gulf of Tehuantepec and Mazatlan Margin lead to total Holocene phosphorus burial rates that are up to 4-5 times higher than had been estimated in previous studies. These observations lead to the argument that the ETNP may play a more important role in regulating global P budgets than was previously thought and call for an improved appreciation of the benthic microbial communities that modulate biomes at tropical latitudes.
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Investigation of Mass Flux Reduction as a Function of Source-Zone Mass Removal for Immiscible-Liquid Contaminated AquifersDiFilippo, Erica Lynne January 2008 (has links)
The magnitude of contaminant mass flux reduction associated with a specific amount of contaminant mass removed is a key consideration for evaluating the effectiveness of a source-zone remediation effort. Thus, there is great interest in characterizing, estimating and predicting relationships between mass flux reduction and mass removal. Intermediate-scale flow- cell experiments and published data for several field studies were examined to evaluate factors controlling the mass-flux-reduction/mass-removal relationship. Flow-cell experiments evaluated the impact of source-zone architecture and flow-field heterogeneity on mass-flux-reduction/mass-removal behavior. Significant reductions in mass flux occurred for systems wherein immiscible-liquid mass was present at both residual saturation and in high saturation pools. For a system with immiscible liquid present in multiple zones of different permeability, an increase in mass flux was observed for late stages of mass removal. Image analysis confirmed that the late stage increase in mass flux was attributed to changes in relative permeability. Early reductions in mass flux were also observed for systems wherein immiscible-liquid mass was poorly accessible to flowing water. End-point analysis, based on comparing masses and mass fluxes measured before and after a source-zone remediation effort, conducted for 21 field remediation projects ranged from slightly less than to slightly greater than one-to-one. Time-continuous analysis, based on continuous monitoring of mass removal and mass flux, performed for two sites illustrated the dependence of the mass-flux-reduction/mass-removal relationship on source-zone architecture and mass-transfer processes. Minimal mass flux reduction was observed for a system wherein mass removal was relatively efficient. Conversely, a significant degree of mass flux reduction was observed for a site wherein mass removal was inefficient. A simple mass-removal function was used to evaluate the measured data at both the intermediate and field scales. This function was unable to capture the complex behavior observed for some of the systems unless specific measurable system parameters were incorporated into the function. Finally, mathematical models of varying complexity used to simulate immiscible liquid dissolution illustrated the dependence of the calibrated dissolution rate coefficient on implicit and explicit consideration of larger-scale factors influencing immiscible liquid dissolution.
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Quantifying the Role of Hydrologic Variability in Soil Carbon FluxStielstra, Clare M. January 2012 (has links)
Soil carbon (C) is the largest terrestrial carbon pool. While inputs to this system are fairly well constrained, the diverse factors driving soil C efflux remain poorly understood. Carbon in surface soils is mobilized via two distinct pathways: CO₂ gas flux and dissolved C flux. The goal of this study was to quantify the role of hydrologic variability in mobilizing carbon as gaseous and dissolved fluxes from near-surface soils, and to determine their relative magnitudes. Data were collected through 2010 and 2011 from two subalpine sites in Arizona and New Mexico. I observed no significant variability in dissolved fluxes, and these values were low at all sites. In contrast, CO₂ fluxes were large (from 0.22 g C m⁻² d⁻¹ to 5.27 g C m⁻² d⁻¹) and varied between sites and between years. My results suggest that in arid montane forests soil carbon flux is critically linked to water availability.
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