Adrian Herrera-Amaya

Pennsylvania State University

Papers

2

Total Citations

9

H-Index

2

About

Adrian Herrera-Amaya is a researcher whose work sits at the intersection of biological fluid dynamics and bio-inspired engineering, with a primary focus on the mechanics of small-scale aquatic locomotion. His research centers on understanding how tiny organisms—from ctenophores and copepods to krill and shrimp—use metachronal motion, a coordinated, wave-like beating of appendages, to propel themselves through water. Herrera-Amaya’s major contributions involve dissecting the hydrodynamics of this motion, particularly the role of spatial asymmetry in flow interactions between adjacent appendages. His 2022 paper on this topic, which has garnered 5 citations, provides foundational insights into how these organisms achieve efficient propulsion. Building on this, his 2024 work explores the propulsive efficiency of spatiotemporally asymmetric oscillating appendages at intermediate Reynolds numbers, a regime where both viscous and inertial forces matter. With 4 citations, this study bridges the gap between low-Reynolds-number viscosity-dominated flows and more complex, inertia-driven systems. Herrera-Amaya’s research not only deepens our understanding of evolutionary adaptations in aquatic life but also informs the design of biomimetic robots and underwater vehicles, making his work a valuable resource for students and engineers alike.

Research Focus

Key Achievements

2
H-Index
2
Papers
9
Total Citations
5
Avg Citations/Paper
🏆 Most Cited Paper
Hydrodynamics of Metachronal Motion: Effects of Spatial Asymmetry on the Flow Interaction Between Adjacent Appendages
5 citations · 2022
📈 Most Prolific Year: 2022 (1 Papers)
🤝 Key Collaborators: 3
🏛 Institutions: Pennsylvania State University

Top Papers

  1. 1
  2. 2

Key Collaborators

Contact & Links

Available for collaboration
Content generated · 1 days ago