Abstract
Tidal range power plants represent an attractive approach for the large-scale generation of electricity from the marine environment. Even though the tides and by extension the available energy resource are predictable, they are also variable in time. This variability poses a challenge regarding the optimal transient control of power plants. We consider simulation methods which include the main modes of operation of tidal power plants, along with algorithms to regulate the timing of these. This paper proposes a framework where simplified power plant operation models are coupled with gradient-based optimisation techniques to determine the optimal control strategy over multiple tidal cycles. The optimisation results inform coastal ocean simulations that include tidal power plants to gauge whether the benefits of an adaptive operation are preserved once their hydrodynamic impacts are also taken into consideration. The combined operation of two prospective tidal lagoon projects within the Bristol Channel and the Severn Estuary is used as an example to demonstrate the potential benefits of an energy maximisation optimisation approach. For the case studies considered, the inclusion of pumping and an adaptive operation is shown to deliver an overall increase in energy output of 20–40% compared to a conventional two-way uniform operation. The findings also demonstrate that smaller schemes stand to gain more from operational optimisation compared to designs of a larger scale.
Highlights
Tidal range power plants harness the potential energy contained within coastal flows characterised by a high tidal range
We present a gradient-based optimisation approach for the adaptive operation of tidal power plants, that is in addition informed by and tested using coastal ocean modelling simulations to account for the effects of the schemes on surrounding hydrodynamics
In order to obtain these for the Swansea Bay and Cardiff Lagoon configurations and to assess the performance of the hydrodynamic models, an initial run was set up to simulate the established ambient tide conditions within the Bristol Channel and the Severn Estuary
Summary
Tidal range power plants harness the potential energy contained within coastal flows characterised by a high tidal range. Existing and prospective tidal range projects essentially constitute impoundments either in the form of barrages that span an entire estuarine basin [1,2], or as coastal lagoons positioned against coastlines [3]. These impoundments are designed to facilitate a potential head difference through the carefully orchestrated operation of sluice gates and hydro-turbines, with the latter converting potential energy into electricity. Given the significant capital investment required for the construction of tidal range plants [7] and the nascent status of the technology relative to other electricity generation methods, the optimal operating characteristics must be determined at the design stage enabling an informed quantification of investment risk and return
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