D. Karmakar scite author profile

Oblique flexural gravity-wave scattering due to an abrupt change in water depth in the presence of a compressive force is investigated based on the linearized water-wave theory in the case of finite water depth and shallow-water approximation. Using the results for a single step, wide-spacing approximation is used to analyze wave transformation by multiple steps and submerged block. An energy relation for oblique flexural gravity-wave scattering due to a change in bottom topography is derived using the argument of wave energy flux and is used to check the accuracy of the computation. The changes in water depth significantly contribute to the change in the scattering coefficients. In the case of oblique wave scattering, critical angles are observed in certain cases. Further, a resonating pattern in the reflection coefficients is observed due to change in the water depth irrespective of the presence of a compressive force in the case of a submerged block.

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Performance of optimally tuned arrays of heaving point absorbers

Sinha

Karmakar

Soares

2016

Renewable Energy

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Wave interaction with multiple articulated floating elastic plates

Karmakar

Bhattacharjee

Sahoo

2009

Journal of Fluids and Structures

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Wave transformation due to multiple bottom-standing porous barriers

Karmakar

Soares

2014

Ocean Engineering

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D. Karmakar

Floating Offshore Wind Platforms

Oblique flexural gravity-wave scattering due to changes in bottom topography

Performance of optimally tuned arrays of heaving point absorbers

Wave interaction with multiple articulated floating elastic plates

Wave transformation due to multiple bottom-standing porous barriers

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