Reprint

Selected Papers from the Sixth International Symposium on Marine Propulsors

Edited by
August 2020
454 pages
  • ISBN978-3-03936-248-6 (Hardback)
  • ISBN978-3-03936-249-3 (PDF)

This is a Reprint of the Special Issue Selected Papers from the Sixth International Symposium on Marine Propulsors that was published in

Engineering
Environmental & Earth Sciences
Summary

Marine propulsors are key components of the many thousands of ships and boats operating in oceans, lakes, and rivers around the world. The performance of propulsors are important for the environmental impact of ships, underwater noise impact on aquatic fauna, and crew and passenger comfort and safety. This book presents nineteen papers devoted to the hydrodynamics of different types of marine propulsors (conventional propellers, thrusters, and novel solutions). Most of the papers are extended papers from the sixth International Symposium on Marine Propulsors (SMP 2019). Several of the papers deal with cavitation, vortices, and energy saving devices. The papers present high-quality research performed using Computational Fluid Dynamics (CFD) and Experimental Fluid Dynamics (EFD) as well Artificial Intelligence (AI).

Format
  • Hardback
License and Copyright
© 2020 by the authors; CC BY-NC-ND license
Keywords
couple motion; propeller exciting force; free surface; wake non-uniformity; numerical simulation; tip rake propeller; EEDI; Energy saving device; numerical simulation; propeller cavitation; benchmark tests; YUPENG; smart-structure; hydrofoil; morphing; compliant; composite; cavitation; Reynolds number; propeller; laminar/transitional/turbulent flow; scale effects; transition model; separation; paint test method; propeller eccentric force; shaft force; maneuvering; rudder; underwater propulsion; water-breathing ramjet; marine ramjet; water ducted rocket; fluid structure interaction; propulsion; CFD; hull-propeller interaction; full-scale CFD; scale effect; self-propulsion; statistical sea trails; supercavitation; supercavities; cavitator; hysteresis; intermittent ventilation; vortex ventilation; thrust loss; lift coefficient; propeller simulation model; gate rudder system; flap rudder; energy saving device; ducted propeller; maneuvring device; powering performance; scale effects; laminar separation; energy saving devices (esd); pre-swirl stator (pss); scale effect; 3D wake measurements with a working propeller; neural network; machine learning; regression; propeller; body force; propeller-hull interaction; developed tip vortex cavity; propeller-induced hull pressures; hull-propeller interaction; boundary element method; unsteady wake alignment model; marine propeller; CFD; cavitation simulation; turbulence modeling; scale effects; PressurePoresTM; pressure relief holes; underwater radiated noise (URN); cavitation noise mitigation; experimental hydrodynamics; computational fluid dynamics (CFD); vorticity; viscous flow; turbulent flow; mixture model; cavitating flow; propeller; Wageningen B-screw Series; open-water characteristics; propeller efficiency map; Danckwardt diagram; optimum propeller; propellers; waterjets; unconventional propulsors; cavitation; noise and vibration; numerical methods in propulsion; propulsor dynamics; propulsion in seaways; propulsion in off-design conditions; energy saving devices

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