Biomimetics for Aviation and Marine Applications

Herausgeber: Masud, Mahadi Hasan; Dabnichki, Peter; Avital, Eldad

• Broschiertes Buch

Produktbeschreibung

Biomimetics for Aviation and Marine Applications helps readers to understand both fundamental and applied aspects of fluid flows in biological and nature-inspired systems. In the book, after coverage of key background topics and other essential, physics-specific concepts, readers can expect to find a wide range of field test studies and numerical simulations of applied fluid dynamics. Two areas of practical implementation are specifically emphasized in the ensuing sections through detailed descriptions of leading research developments and reviews of state-of-the-art design examples of novel or bio-improved vehicles for aviation and marine purposes. Finally, in most of the chapters, future prospects and critical challenges in the execution and utilization of those biological features for practical engineering advances are discussed, aiming to foster creative, but still theoretically sound approaches to further optimize actuation and control of next-gen biomimicry models.

Produktdetails

• Verlag: Elsevier Science
• Seitenzahl: 950
• Erscheinungstermin: 1. Juni 2026
• Englisch
• ISBN-13: 9780443337635
• ISBN-10: 0443337632
• Artikelnr.: 75810008

Inhaltsangabe

Part I. Introduction: Nature-inspired Science and Engineering
1. Aerodynamic performance, control, stability of flying animals and
bio-inspired aircraft
2. Comparison of computational methods for hydrodynamic performance
prediction of oscillating marine propulsors
3. Innovative approach for biomimicry of marine animals for development of
engineering devices
4. From biology to biomimicry: Using nature to build better structures for
aviation and marine applications
5. Design and implementation of bio inspired hexapod for exploration
applications
6. Recent studies related to the scaling of geometric features for
practical applications: A review
7. Biomimetics: A prospective solution to modern fluid dynamics drag
reduction.
Part II. Biomimicry-enhanced Aviation
8. Computational fluid dynamic techniques for evaluating the performance of
a biomimetic-inspired UAV design
9. Computational study of a pitching bio-inspired corrugated airfoil
10. Machine-learning based optimization of a biomimiced herringbone
microstructure for superior aerodynamic performance
11. Optic flow-based collision-free strategies: From insects to robots
12. Evolutionary optimization of a Savonius rotor with sandeel-inspired
blades
13. Simulation and analysis of a bio-inspired flyable micro flapping wing
rotor
14. Electromechanical actuation for morphing winglets
15. Extending the operating limits and performances of centimetre-scale
wind turbines through biomimicry
Part III. Marine Applications of Biomimicry
16. Biomimetics and the application of the leading-edge tubercles of the
Humpback Whale flipper
17. New insights into sea turtle propulsion: A potential new generation of
underwater drones for ocean exploration
18. A new biomimicry marine current turbine: Study of hydrodynamic
performance and wake using software OpenFOAM
19. CFD-CSD coupled analysis of underwater propulsion using a biomimetic
fin-and-joint system
20. Mimicking shark skin to create microgeometry for boundary layer control
21. Complementary methods to acquire the kinematics of swimming snakes: A
basis to design bio-inspired robots
22. Metachronal waves in magnetic micro-robotic paddles for artificial
cilia
23. Using biomimicry and bibliometric mapping to guide design and
production of artificial coral reefs
24. Bio-inspired wave breakers to reduce swell erosion in the Bay of Biscay
using computational fluid dynamics