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Viac informácií o knihe Numerical & experiment-based modeling for bio-inspired microswimmers

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Anotácia knihy

Assigning tasks to autonomous microrobots are widely considered for future medical applications. Hence, bio-inspired propulsion emerges as a substitute for conventional thrust generation to achieve controlled-swimming in micro-realm. Thus, accurate modeling will benefit the maneuverability and precision of swimming microrobots. Analytical studies on the bodies of well-known geometries in literature do not address the effect of hydrodynamic interactions between integral parts of a single-celled organism. In order to explain these phenomena, we studied rigid-body kinematics and hydrodynamics of bio-inspired swimming. Flow-field associated with bio-inspired swimmers is studied by means of time-dependent three-dimensional CFD models. Also, an on-board-powered, bio-inspired cm-scale-swimmer is implemented. Performance of rigid helical tails with parameterized wave geometry is observed in cylindrical channels filled with viscous oil. Additionally, a six degrees of freedom, improved microhydrodynamics model is implemented to predict the time-dependent rigid-body motion of bio-inspired swimmers. Results of this model are compared with CFD simulations and in-channel swimming experiments.

Parametre knihy

• Celý názov: Numerical & experiment-based modeling for bio-inspired microswimmers
• Podnázov: Modeling hydrodynamic interactions acting on individual bio-inspired microswimmer
• Autor: Ahmet Fatih Tabak, Serhat Yesilyurt
• Jazyk: Angličtina
• Väzba: Brožovaná
• Počet strán: 124
• EAN: 9783659886164
• ID: 12628656
• Nakladateľ: LAP Lambert Academic Publishing
• Hmotnosť: 201 g
• Rozmery: 220 × 150 × 6 mm
• Rok vydania: 2016

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