[图书][B] Hydrodynamic effects of kinetic power extraction by in-stream tidal turbines

BL Polagye - 2009 - search.proquest.com
2009search.proquest.com
The hydrodynamic effects of extracting kinetic power from tidal streams presents unique
challenges to the development of in-stream tidal power. In-stream tidal turbines superficially
resemble wind turbines and extract kinetic power from the ebb and flood of strong tidal
currents. Extraction increases the resistance to flow, leading to changes in tidal range,
transport, mixing, and the kinetic resource itself. These far-field changes have
environmental, social, and economic implications that must be understood to develop the in …
Abstract
The hydrodynamic effects of extracting kinetic power from tidal streams presents unique challenges to the development of in-stream tidal power. In-stream tidal turbines superficially resemble wind turbines and extract kinetic power from the ebb and flood of strong tidal currents. Extraction increases the resistance to flow, leading to changes in tidal range, transport, mixing, and the kinetic resource itself. These far-field changes have environmental, social, and economic implications that must be understood to develop the in-stream resource. This dissertation describes the development of a one-dimensional numerical channel model and its application to the study of these effects. The model is applied to determine the roles played by site geometry, network topology, tidal regime, and device dynamics. A comparison is also made between theoretical and modeled predictions for the maximum amount of power which could be extracted from a tidal energy site. The model is extended to a simulation of kinetic power extraction from Puget Sound, Washington. In general, extracting tidal energy will have a number of far-field effects, in proportion to the level of power extraction. At the theoretical limit, these effects can be very significant (eg, 50% reduction in transport), but are predicted to be immeasurably small for pilot-scale projects. Depending on the specifics of the site, far-field effects may either augment or reduce the existing tidal regime. Changes to the tide, in particular, have significant spatial variability. Since tidal streams are generally subcritical, effects are felt throughout the estuary, not just at the site of extraction.
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