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Radar chart of the decision matrix expressed with the net outranking flow (...
Published Online: February 5, 2025
Fig. 6 Radar chart of the decision matrix expressed with the net outranking flow ( ϕ ∈ [ − 1 , 1 ] ): ( a ) 27 alternatives, ( b ) alternatives IDT: 1, 16, 81, and 161, and ( c ) alternatives ID: 0, 1, 80, 81, 160 More about this image found in Radar chart of the decision matrix expressed with the net outranking flow (...
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Free surface modeled as an immersed boundary in Cartesian grids. The circle...
Published Online: February 5, 2025
Fig. 3 Free surface modeled as an immersed boundary in Cartesian grids. The circles without outlines are fluid nodes in the computational domain. The circles with outlines are wave markers. The squares represent the free surface ghost node (including additional ghost nodes). More about this image found in Free surface modeled as an immersed boundary in Cartesian grids. The circle...
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Body surface modeled as an immersed boundary. The squares are body ghost no...
Published Online: February 5, 2025
Fig. 4 Body surface modeled as an immersed boundary. The squares are body ghost nodes. The circles on the body surface are discretized body points. The other types of nodes are the same as in Fig. 3 . The black arrow n represents the body’s normal vector pointing into the fluid. More about this image found in Body surface modeled as an immersed boundary. The squares are body ghost no...
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A portion of the immersed boundary in adaptive cells, including still water...
Published Online: February 5, 2025
Fig. 5 A portion of the immersed boundary in adaptive cells, including still water surface and a submerged cylinder. The maximum quadtree refinement level is 2 here. The meanings of the different nodes are the same as those mentioned in Figs. 3 and 4 . In addition, there are fluid nodes represe... More about this image found in A portion of the immersed boundary in adaptive cells, including still water...
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Comparison of different space-step    Δ  x    results, with incident wave a...
Published Online: February 5, 2025
Fig. 7 Comparison of different space-step Δ x results, with incident wave amplitude a = 10 mm and wave frequency ω = 2 π × 1.05 Hz. The submergence of the cylinder is Z c = 100 mm. The time-step Δ t = T / 80 . ( a ) Snapshot of free surface elevatio... More about this image found in Comparison of different space-step Δ x results, with incident wave a...
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Comparison of different time-step    Δ  t    results, with incident wave am...
Published Online: February 5, 2025
Fig. 8 Comparison of different time-step Δ t results, with incident wave amplitude a = 10 mm and wave frequency ω = 2 π × 1.05 Hz. The submergence of the cylinder is Z c = 100 mm. The space-step Δ x = D / 30 . ( a ) Time history of free surface elev... More about this image found in Comparison of different time-step Δ t results, with incident wave am...
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Normalized amplitudes of the first three harmonic components of the free su...
Published Online: February 5, 2025
Fig. 9 Normalized amplitudes of the first three harmonic components of the free surface elevation. Here, these results are for the case with the incident wave frequency ω = 2 π × 1.05 Hz, and the submergence Z c = 100 mm. The horizontal coordinate represents the distance fr... More about this image found in Normalized amplitudes of the first three harmonic components of the free su...