Numerical study of hydrodynamic mechanism of dynamic tidal power
Peng Dai,Jisheng Zhang,Jinhai Zheng,Kees Hulsbergen,Gijs van Banning,Jeroen Adema,Zi-xuan Tang +6 more
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In this article, the authors explored the hydrodynamic mechanism of the water head across an intended dynamic tidal power dike system using the Delft3D-FLOW software module.Abstract:
Dynamic tidal power is a new way of capturing tidal energy by building a water head using a dike perpendicular to the coast. This study explored the hydrodynamic mechanism of the water head across an intended dynamic tidal power dike system using the Delft3D-FLOW software module. The propagating wave was simulated in a rectangular domain with a horizontal sea bottom at a 30-m depth. A significant water head was created across the dike by blocking the water. The water head increased with increasing dike length and increasing undisturbed tidal current acceleration. The maximum water head for the dike with a length of 50 km, located 900 km from the western boundary, was 2.15 m, which exceeded the undisturbed tidal range. The time series of the water head behaved in a manner identical to the undisturbed tidal current acceleration. The distribution of the water head over the dike assumed an elliptical shape. A parasitic wave was generated at the attachment and scattered outward. The phase lag across the dike did not behave as a linear function of the detour distance.read more
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Numerical Research on Dynamic Water-head Between Sea and Gulf——A New Exploration on Development Way of Tidal Energy
TL;DR: In this paper, a new way of the Gulf tidal energy development was proposed using the dynamic water-head inside and outside the Gulf for tidal power generation, which can be used for water-level difference.
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The Study of a New Tidal Power for a Practical Use
Young Hyun Park,Daeok Youn +1 more
TL;DR: Park et al. as mentioned in this paper studied the feasibility of a new dynamic tidal power (DTP) for a practical use and found that the proper spacing between DTP structures was necessary for efficient power generation considering tidal diffraction effect.
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