Keywords: ارتعاش موجب ارتعاشات می شود; Flexible cable; Vortex induced vibrations; Rain-wind induced vibrations; Multi-modal behaviours;
مقالات ISI ارتعاش موجب ارتعاشات می شود (ترجمه نشده)
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; Reduced order models; Wake oscillator models; Circular cylinder; Vortex shedding; Fluid structure interaction;
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex Induced Vibrations; Calibration model; Blind point tracking; High speed imaging;
Keywords: ارتعاش موجب ارتعاشات می شود; Flow induced vibrations; Vortex induced vibrations; Computational fluid dynamics; Detached eddy simulations; High Reynolds number flows; Fluid-structure interactions;
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; Computational fluid dynamics; Reduced order modelling;
Keywords: ارتعاش موجب ارتعاشات می شود; Flow induced vibrations; Vortex induced vibrations; Wake induced vibrations; Galloping; Square cylinder; Cross-flow responses;
Keywords: ارتعاش موجب ارتعاشات می شود; Hydrokinetic energy harnessing; Virtual spring-damping; Flow induced motions; Vortex induced vibrations; Galloping; Distributed roughness;
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; Wake oscillator; Multi-mode approximation; Non-linear analysis
Keywords: ارتعاش موجب ارتعاشات می شود; Flow induced vibrations; Vortex induced vibrations; Computational fluid dynamics; Detached eddy simulations; High Reynolds number flows; Fluid-structure interactions;
Keywords: ارتعاش موجب ارتعاشات می شود; Hydrokinetic energy; Virtual spring-damping; Flow induced motions; Vortex induced vibrations; Galloping; VIVACE converter;
Keywords: ارتعاش موجب ارتعاشات می شود; Mesh moving scheme; Fluid-structure interaction; Flow induced vibrations; Vortex induced vibrations; Mesh generation; Moving boundaries; Interpolation; Stabilized finite element method; Unsteady 3D computations;
Keywords: ارتعاش موجب ارتعاشات می شود; Underwater compressed air energy storage; UWCAES; Vortex induced vibrations; Flexible structure; VIV;
Keywords: ارتعاش موجب ارتعاشات می شود; Flow induced motion; Cross section; Hydrokinetic energy; Vortex induced vibrations; Galloping; Bluff body
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; Flexible cylinders; Fatigue damage
Active flow control of vortex induced vibrations of a circular cylinder subjected to non-harmonic forcing
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; Flow control; Active flow control; Vortex shedding; CFD; Cylinder wakes;
Dual mass system for enhancing energy extraction from Vortex-Induced Vibrations of a circular cylinder
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex Induced Vibrations; Energy harvesting; Dual mass configurations; Energy extraction optimization;
Effect of tip-flow on vortex induced vibration of circular cylinders for Re<1.2*105
Keywords: ارتعاش موجب ارتعاشات می شود; Tip-flow correction; Vortex induced vibrations; Computational fluid dynamics; Two-dimensional approximation; Experimental validation;
Vortex-induced vibration of a flexible cylinder: Interaction of the in-line and cross-flow responses
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; In-line and cross-flow Interaction; Flexible cylinder; Hydrodynamic force coefficients; Motion phase angle;
Vortex induced vibrations at high Reynolds numbers on circular cylinders
Keywords: ارتعاش موجب ارتعاشات می شود; Circular cylinder; Vortex induced vibrations; Reynolds number; Surface roughness; Wind tunnel tests; Pressure distribution;
2-D URANS vs. experiments of flow induced motions of two circular cylinders in tandem with passive turbulence control for 30,000<Re<105,000
Keywords: ارتعاش موجب ارتعاشات می شود; Two cylinders; URANS; Flow induced motions; Vortex induced vibrations; Galloping; Passive turbulence control; VIVACE Converter; Surface roughness; Hydrokinetic energy;
Wind tunnel tests and numerical approach for long span bridges: The Messina bridge
Keywords: ارتعاش موجب ارتعاشات می شود; Wind tunnel tests; Numerical approach; Long span bridges; Aeroelasticity; Vortex induced vibrations
Stream-wise and cross-flow vortex induced vibrations of single tapered circular cylinders: An experimental study
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; VIV; Tapered circular cylinders; Uniform circular cylinders; Stream-wise vibrations; Cross-flow vibrations; Dye visualization
Lumped parameter models of vortex induced vibration with application to the design of aquatic energy harvester
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; Reduced order models; Circular cylinder; Van der Pol oscillator; VIVACE; Optimal design
Coupling between structural and fluid dynamic problems applied to vortex shedding in a 90 m steel chimney
Keywords: ارتعاش موجب ارتعاشات می شود; Steel chimney; Fluid–structure interaction; Vortex induced vibrations; Across-wind vibration
Tree-inspired piezoelectric energy harvesting
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; Piezoelectric energy harvesting; Tandem cylinders
Experimental investigation of Reynolds number effect on vortex induced vibration of rigid circular cylinder on elastic supports
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; VIV; Reynolds number effect; High damping; Transition shear layer 3 regime; Synchronization; Hysteresis; VIVACE;
Virtual damper-spring system for VIV experiments and hydrokinetic energy conversion
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; VIV; Virtual damper-spring; VIVACE converter; System identification; Power take-off;
High-damping, high-Reynolds VIV tests for energy harnessing using the VIVACE converter
Keywords: ارتعاش موجب ارتعاشات می شود; Hydrokinetic energy harnessing; VIVACE converter; Power envelope; Vortex induced vibrations; VIV; High-Reynolds numbers; High-damping VIV; Power density
VIV and galloping of single circular cylinder with surface roughness at 3.0×104≤Re≤1.2×105
Keywords: ارتعاش موجب ارتعاشات می شود; Flow Induced Motions; Vortex induced vibrations; Galloping; Passive Turbulence Control; VIV; VIVACE Converter; Surface roughness; Hydrokinetic energy
Reduction of VIV using suppression devices-An empirical approach
Keywords: ارتعاش موجب ارتعاشات می شود; Vortex induced vibrations; Suppression devices; Marine risers;