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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Stochastic modelling for high fidelity DPGS quality assessment

Keenan, Christopher Ryan January 2001 (has links)
No description available.
2

Arctic Offshore Oil and Gas Development: Advancing the Efficacy of Environmental Management through Regional Strategic Environmental Assessment

2013 February 1900 (has links)
Planning for offshore hydrocarbon development in Canada’s Beaufort Sea currently occurs on a project-by-project basis. This is despite a collective understanding that impact assessment should go beyond the evaluation of site-specific project impacts to consider the broader policy and regional planning context in which development projects operate. The need for such a regional and strategic approach to impact assessment in Canada’s Beaufort Sea, known as regional strategic environmental assessment (R-SEA), arises from the looming large-scale offshore hydrocarbon development in the region and the lack of a mechanism to plan for future energy development, establish a long-term regional vision, or assess and effectively manage the potential cumulative environmental and social effects arising from development. At such a critical moment, little research exists to advance R-SEA from a concept to an applied planning, assessment and decision-support process. This dissertation draws on experience from the implementation of strategic environmental assessment in offshore jurisdictions internationally, along with existing initiatives for marine planning in the Beaufort Sea, to advance effective R-SEA implementation in the region. The research methodology includes a literature review, case reviews and key informant interviews. The research results are reported in three manuscripts. The first manuscript examines the influence of R-SEA on planning and development decisions in Norway, Atlantic Canada and the UK. The second manuscript examines existing planning, assessment, and science initiatives in the Beaufort Sea. The third manuscript identifies key opportunities for, and challenges to, the implementation of R-SEA in the Beaufort Sea. Significant findings demonstrate that R-SEA can offer a much-needed framework to accommodate and address stakeholder issues and concerns regarding future offshore development in the Beaufort Sea, despite acute implementation challenges, such as scepticism of scenario-based planning. Key findings reveal many expectations of what R-SEA could deliver in the Beaufort Sea, a result of the varied stakeholder priorities and goals. Understanding the root of different expectations and perceptions, ensuring follow-up programs pay attention to horizontal linkages between R-SEA strategies and current marine planning initiatives, and that supporting institutional arrangements are in place for a preferred strategy to succeed lie at the core of advancing R-SEA as a viable tool in the Arctic.
3

Preparing for offshore renewable energy development in the Mediterranean

Bray, Laura January 2017 (has links)
The development of offshore wind farms and marine renewable energy devices in the Mediterranean is central to both national, and international, energy strategies for countries bordering the Mediterranean Sea. The ecological impacts of marine renewable energy development in the Mediterranean region, although essential for policy makers, are as yet unknown. The Northern Adriatic is identified as a plausible site for offshore wind farm development. Using the wider region (Adriatic and Northern Ionian) as a case study, this thesis examines the likely impact to the marine environment if an offshore wind farm is established. Site suitability, based on wind speed, bathymetry, and larvae connectivity levels are investigated along with the plausibility of the turbines operating as artificial reefs in the area. As offshore wind farms may alter the larval connectivity and supply dynamics of benthic populations, a connectivity map was constructed to identify areas of high and low connectivity in the Adriatic Sea. The Puglia coast of Italy is a likely larval sink, and displays some of the highest connectivity within the region, suggesting potential inputs of genetic materials from surrounding populations. Considering offshore wind farms could operate as artificial reefs, an in-situ pilot project was established to simulate the presence of wind turbines. Macroinvertebrates colonized the new substrata within the first few months but were lower in abundance when compared to a natural hard substrata environment. Time, turbine location, and the material used for turbine construction all affected the macro-invertebrate communities. In addition, fish abundances, and diversity were lower around the simulated OWF foundations in comparison to a natural hard substrata environment, and no increases in fish abundance occurred around the simulated turbines when compared to reference sites of soft substrata. This observation was validated with the use of an ecosystem modelling software (Ecopath with Ecosim), which simulated the overall ecosystem level impacts that would occur if 50 offshore monopile wind turbines were introduced to the Northern Ionian and colonized by macroinvertebrate communities. When compared to the baseline scenario (no simulated introduction of an OWF), the introduction of new habitat had no discernible impacts to the structure or functioning of the marine ecosystem. Noticeable changes to the ecosystem were only apparent if fishing restrictions were enforced in parallel with the simulated offshore wind farm; the ecosystem appears to become more structured by top down predation. In addition seabirds are also impacted by the reduction of fishing discards as a food source. These results are the first attempt to quantify the suspected benefits of offshore wind farms operating as de-facto marine protected areas.
4

Tidal turbine performance in the offshore environment

Fleming, Conor F. January 2014 (has links)
A three dimensional computational model of a full scale axial flow tidal turbine has been used to investigate the effects of a range of realistic environmental conditions on turbine performance. The model, which is based on the Reynolds averaged Navier-Stokes equations, has been developed using the commercial flow solver ANSYS Fluent. A 1:30 scale tidal turbine is simulated in an open channel for comparison to existing experimental data. The rotor blades are directly resolved using a body-fitted, unstructured computational grid. Rotor motion is enabled through a sliding mesh interface between the rotor and the channel boundaries. Reasonably good agreement in thrust and power is observed. The computed performance curves are offset from the measured performance curves by a small increment in rotor speed. Subsequently, a full scale axial flow turbine is modelled in a variety of conditions representative of tidal channel flows. A parametric study is carried out to investigate the effects of flow shear, confinement and alignment on turbine performance, structural loading, and wake recovery. Mean power and thrust are found to be higher in sheared flow, relative to uniform flow of equivalent volumetric flow rate. Large fluctuations in blade thrust and torque occur in sheared flow as the blade passes through the high velocity freestream flow in the upper portion of the profile and the lower velocity flow near the channel bed. A stronger shear layer is formed around the upper portion of the wake in sheared flow, leading to enhanced wake mixing. Mean power and thrust are reduced when the turbine is simulated at a lower position in a sheared velocity profile. However, fluctuations in blade loading are increased due to the higher velocity gradient. The opposite effects are observed when the turbine operates at greater heights in sheared flow. Flow misalignment has a negative impact on mean rotor thrust and power, as well as on unsteady blade loading. Although the range of unsteady loading is not increased significantly, additional perturbations are introduced due to interactions between the blade and the nacelle. A deforming surface is introduced using the volume-of-fluid method. Linear wave theory is combined with the existing free surface model to develop an unsteady inflow boundary condition prescribing combined sheared flow and free surface waves. The relative effects of the sheared profile and wave-induced velocities on turbine loading are identified through frequency analysis. Rotor and blade load fluctuations are found to increase with wave height and wave length. In a separate study, the performance of bi-directional ducted tidal turbines is investigated through a parametric study of a range of duct profiles. A two dimensional axi-symmetric computational model is developed to compare the ducted geometries with an unducted device under consistent blockage conditions. The best-performing ducted device achieves a peak power coefficient of approximately 45% of that of the unducted device. Comparisons of streamtube area, velocity and pressure for the flow through the ducted device shows that the duct limits the pressure drop across the rotor and the mass flow through the rotor, resulting in lower device power.

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