Optimal energy-utilization ratio for long-distance cruising of a model fish

Li, Geng; Yu, Yinye; Tong, Bing‐Gang

doi:10.1103/physreve.86.016308

Cited by 22 publications

(12 citation statements)

References 21 publications

(30 reference statements)

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“…It can, for instance, be used to compare the efficiency of man-made systems and biological ones. It can ot, however, be used to compare or optimize the performance of hull or body shapes (Kagemoto, 2013;van Rees et al, 2013), or swimming velocities (Liu et al, 2012).…”

Section: Optimizing Velocity and Body Shapementioning

confidence: 99%

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Efficiency of fish propulsion

2015

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It is shown that the system efficiency of a self-propelled flexible body is ill-defined unless one considers the concept of quasi-propulsive efficiency, defined as the ratio of the power needed to tow a body in rigid-straight condition over the power it needs for self-propulsion, both measured for the same speed. Through examples we show that the quasi-propulsive efficiency is the only rational non-dimensional metric of the propulsive fitness of fish and fishlike mechanisms. Using two-dimensional viscous simulations and the concept of quasi-propulsive efficiency, we discuss the efficiency two-dimensional undulating foils. We show that low efficiencies, due to adverse body-propulsor hydrodynamic interactions, cannot be accounted for by the increase in friction drag.

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Section: Optimizing Velocity and Body Shapementioning

confidence: 99%

“…This difficulty can easily be overcome by adding a cost to time. From a biological point of view, P in can be replaced by the total power P t defined in Liu et al (2012) as:…”

Section: Optimizing Velocity and Body Shapementioning

confidence: 99%

Efficiency of fish propulsion

2015

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“…In this manner, w e analyze the primary flow features around fish bodies. It is quite pertinent to mention that since fish schooling involves complex interaction not only w ith the other bodies but also w ith flow itself in lateral/transversal directions, 2D investi-gations can serve as an appropriate choice to start hydrodynamic analysis and quantification of the flow characteristics [9,12,27,28]. For comparison, it is also important to mention the conclusions draw n by L iu et al [29,30] through numerical simulations over a sw imming tadpole.…”

Section: Introductionmentioning

confidence: 99%

Hydrodynamics of a tandem fish school with asynchronous undulation of individuals

Khalid

Akhtar

Dong

2016

Journal of Fluids and Structures

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“…Authors also noticed that the energy-utilization ratio, which was proposed by Liu et al [32], might be another choice for calculating the propulsive efficiency. It has been found that this may cause slight changes in the efficiency magnitude, however, the overall conclusions of this paper remain unaffected.…”

Section: Fig 3 (A)mentioning

confidence: 97%

Quantification and Analysis of Propulsive Wake Topologies in Finite Aspect-Ratio Pitching-Rolling Plates

2016

46th AIAA Fluid Dynamics Conference

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Numerical simulations are used to investigate the effects of aspect-ratio (AR) on the wake topology and propulsive performance of flat-plates undergoing a pitching-rolling motion. Simulations are carried out using an in-house immersed-boundary-method-based direct numerical simulation (DNS) solver. A detailed analysis of the vortex formation shows that the general wake pattern of flapping plates shift from two branches of interconnected vortex loops for lower aspect-ratio cases (AR=1.27) to an integrated arc-shaped vortex structure for higher aspect-ratio cases (AR=5.09). The wake pattern changes also alter the instantaneous force production. The vortex shedding process of the lower aspect-ratio cases lead to two peaks in the lift and thrust force productions during each half cycle, and these two peaks gradually merge to a single peak as the aspect-ratio increasing. Simulations are also used to examine the propulsive performance of these plates over a range of Strouhal number.

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Optimal energy-utilization ratio for long-distance cruising of a model fish

Cited by 22 publications

References 21 publications

Efficiency of fish propulsion

Efficiency of fish propulsion

Hydrodynamics of a tandem fish school with asynchronous undulation of individuals

Quantification and Analysis of Propulsive Wake Topologies in Finite Aspect-Ratio Pitching-Rolling Plates

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