Numerical investigation of ultrasound-induced acoustic streaming and shear stress for blood clot manipulation. [PDF]
Hisham A, Hassan MA, Wahba AA.
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Comprehensive characterization of benzothiazole-hydrazone metal (II) complexes via spectroscopic, biological assignment, electrochemical, DFT, and molecular docking approaches. [PDF]
Ibrahim FM +4 more
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Wave turbulence and cortical dynamics. [PDF]
Cooray GK.
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Exact soliton, lump, and breather solutions of the (3 + 1)-dimensional Jimbo-Miwa equation via the bilinear neural network method. [PDF]
Hussein HH, Mekawey H, Elsheikh A.
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Adjoint-based PDE-constrained optimization of viscoelastic floating membrane for maximum wave power absorption. [PDF]
El Sayed K +3 more
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Fluid dynamics and wave-structure interactions
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Water depth influence on wave–structure-interaction
Ocean Engineering, 2009For seakeeping model tests and the experimental investigation of offshore operations the water depth is a parameter which is difficult to adjust to a particular problem and scale. It poses a limit for the feasibility of model tests by governing the model scale-especially in small testing facilities. Therefore, it is often desirable to violate or ignore
GÜNTHER Clauss, Marco Klein
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Nonlinear Effect on Wave-Structure Interaction
Volume 5: Ocean Engineering; CFD and VIV, 2012Accurate prediction on the behaviour of the nonlinear waves in a coastal environment is vital to the safe design and performance of coastal defence. This paper is concerned with the description of tsunami wave-island interaction, and includes both linear and nonlinear modelling of the maximum free surface motion arising within distorted flow field.
J. M. Chen, D. Liang
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Nonlinear water-wave structure interaction
Computers & Structures, 1992Abstract A numerical model of the interaction of highly deformable fluid-filled membranes and ocean waves has been developed and verified. The fluid domain is modeled using a boundary element model and the membrane is modeled using a finite element model. The finite element model was developed previously, and required little modification.
L.L. Broderick, J.W. Leonard
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