WA1-1

Large Area Propellers

Daniel Knutsson, Lars Larsson

1

WA1-2

Unsteady Viscous/Inviscid Coupling Approaches for Propeller Flow Simulations

Katja Wöckner, Martin Greve, Martin Scharf, Thomas Rung, Moustafa Abdel-Maksoud

8

WA1-3

Propulsion Enhancements for a Greener Environment

D. Hafermann, J. Marzi

16

WA2-1

Prediction of Speed Loss of a Ship in Waves

Zhenju Chuang, Sverre Steen

24

WA2-2

Double-Ended Ferries – Propulsive Performance Challenges and Model Testing Verification

Anton Minchev, Claus Simonsen, Rune Zilcken

33

WA2-3

Hydrodynamic Trends in Optimizing Propulsion

Uwe Hollenbach, Oliver Reinholz

41

WA2-4

Study of a Two-Phase Underwater Ramjet Propulsor Employing Liquified Gas Boiling

Herman D. Haustein, Alon Gany, Ezra Elias

50

WA3-1

Investigation of Scale Effects on Ships with a Wake Equalizing Duct or with Vortex Generator Fins

Hans-Jürgen Heinke, Katrin Hellwig-Rieck

57

WA3-2

Mewis Duct^® – New Developments, Solutions and Conclusions

Friedrich Mewis, Thomas Guiard

64

WA3-3

Numerical and Experimental Investigation of the Possibility of Forming the Wake Flow of Large Ships by Using the Vortex Generators

Pawel Dymarski, Marek Kraskowski

72

WB1-1

Propeller Optimisation Considering Sheet Cavitation in Hull Interaction

Florian Vesting, Rickard Bensow

79

WB1-2

RANSE Code Application for Ducted and Endplate Propellers in Open Water

Henri Haimov, Jorge Vicario, Javier Del Corral

89

WB1-3

Numerical Analysis of Rudder Effects upon Ducted Propeller Units

Alejandro Caldas, Marcos Meis, Adrián Sarasquete

98

WB2-1

Numerical and Experimental Characterization of a CP Propeller Unsteady Cavitation at Different Pitch Settings

Daniele Bertetta,Stefano Brizzolara, Stefano Gaggero, Luca Savio, Michele Viviani

106

WB2-2

Numerical Analysis of Pressure Fluctuation on Ship Stern Induced by Cavitating Propeller Using a Simple Surface Panel Method “SQCM”

Takashi Kanemaru, Jun Ando

116

WB2-3

The Influence of the Wake Scale Effect on the Prediction of Hull Pressures Due to Cavitating Propellers

Bart Schuiling, Frans Hendrik Lafeber, Auke van der Ploeg, Erik van Wijngaarden

124

WB2-4

Open-Water Thrust and Torque Predictions of a Ducted Propeller System With a Panel Method

J. Baltazar, J.A.C. Falcão de Campos, J. Bosschers

132

WB3-1

Modeling of Cavitating Flow through Waterjet Propulsors

Jules W. Lindau, Christopher Pena, Warren J. Baker, James J. Dreyer, William L. Moody, Robert F. Kunz, Eric G. Paterson

142

WB3-2

Experimental Study of an Air-Augmented Waterjet Propulsor

Scott Gowing

152

TA1-1

A Numerical Study on the Characteristics of the System Propeller and Rudder at Low Speed Operation

Vladimir Krasilnikov, Dmitriy Ponkratov, Pierre Crepier

157

TA1-2

Investigation of the Flow Field around a Propeller-Rudder Configuration: On-Surface Pressure Measurements and Velocity-Pressure-Phase-Locked Correlations

Mario Felli, Massimo Falchi, Francisco Pereira

169

TA1-3

Loads Acting on a Semi-Spade Rudder

Andreas Brehm, Volker Bertram, Ould El Moctar

178

TA2-1

Model and Full Scale Evaluation of a ‘Propeller Boss Cap Fins’ Device Fitted to an Aframax Tanker

Hans Richard Hansen, Tom Dinham-Peren, Takeo Nojiri

186

TA2-2

On the Design and Analysis of Pre-Swirl Stators for Single and Twin Screw Ships

Gert-Jan Zondervan, Jan Holtrop, Jaap Windt, Tom van Terwisga

197

TA2-3

A Study on the Powering Performance of Multi-Axes Propulsion Ships with Wing Pods

Heungwon Seo, Seokcheon Go, Sangbong Lee, Jungil Kwon

205

TA3-1

Propeller Loads of Large Commercial Vessels at Crash Stop for Structural Safety Assessment

J.W. Hur, H. Lee, B.J. Chang

210

TA3-2

A Fast Quasi-Steady Procedure for Estimating the Unsteady Forces and Moments on a Marine Propeller Behind a Hull

Robert F. Roddy

218

TA3-3

Propeller Design and Propulsion Concepts for Ship Operation in Off-Design Conditions

Thomas Stoye

229

TA3-4

Lateral Force and Turning Moment on a Reversing Ship

Lucia Sileo, Sverre Steen

237

TA4-1

Boundary Layer Control of Twin Skeg Hull Form with Reaction Podded Propulsion

Nariyuki Sasaki

244

TA4-2

The Marine Propeller Design Spiral

Eckhard Praefke

250

TA4-3

Numerical Simulation of the Self-Propulsion Model Tests

Tomasz Bugalski, Paweł Hoffmann

256

TB1-1

The Influence of Viscous Effect on Design of the Optimal Supercavitating Hydrofoil with Spoiler

Alexander Achkinadze, Gregory Fridman, Zaw Win

263

TB1-2

Numerical Simulation of the Flow Past a Rotating Propeller Behind a Hull

Roberto Muscari, Andrea Di Mascio

267

TB1-3

Evaluation of the Propeller Hull Vortex Using a RANS Solver

Jussi Martio, Tuomas Sipilä, Antonio Sanchez-Caja, Ilkka Saisto, Timo Siikonen

278

TB2-1

Theoretical and Numerical Hydromechanics Analysis of Self-Pitching Propellers

Luca Greco, Stefania Leone, Claudio Testa, Francesco Salvatore, Salvatore Mauro

284

TB2-2

Hydroelastic Response and Stability of a Hydrofoil in Viscous Flow

Antoine Ducoin, Yin Lu Young

294

TB2-3

On the Development of a Full-Scale Numerical Towing Tank: Reynolds Scaling Effects on Ducted Propellers and Wakefields

Norbert Bulten, Maarten Nijland

303

TB3-1

On the Capability of Multiphase RANS Codes to Predict Cavitation Erosion

Ziru Li, Tom Van Terwisga

311

TB3-2

Understanding Details of Cavitation

Anne Boorsma, Stewart Whitworth

319

TB4-1

Experimental Characterization of Two CP Propellers at Different Pitch Settings, Considering Cavitating Behaviour and Related Noise Phenomena

Daniele Bertetta, Luca Savio, Michele Viviani

328

TB4-2

A Study on Propeller Noise Emission with Special Attention to the Influence of an Ice Coverage and Finite Water Depth

Heinrich Streckwall, Herbert Bretschneider

336

TB5-1

Influence of Material and Loading Uncertainties on the Hydroelastic Performance of Advanced Material Propellers

Yin Lu Young, Michael R. Motley

342

TB5-2

Modeling of Leading Edge Vortex and its Effects on Propeller Performance

Ye Tian, Spyros Kinnas

350

TB5-3

Numerical Modeling of a Hydrofoil or a Marine Propeller Undergoing Unsteady Motion

Abhinav Sharma, Lei He, Spyros A. Kinnas

360

FA1-1

Computational and Experimental Analysis for Horizontal Axis Marine Current Turbine Design

Ju Hyun Lee, Dong Hwan Kim, Shin Hyung Rhee, In Rok Do, Byung Chul Shin, Moon Chan Kim

371

FA1-2

Wind Turbine Propulsion of Ships

Eirik Bøckmann, Sverre Steen

377

FA1-3

Huge Hard Wing Sails for the Propulsor of Next Generation Sailing Vessel

Kazuyuki Ouchi, Kiyoshi Uzawa, Akihiro Kanai

387

FA1-4

Design and Testing of a Tidal Current Power Extraction Device

Sue Molloy, Mahmoud Alidadi, Valerie M. Thomas, Mae Seto

392

FA2-1

Numerical Design and Experimental Verification of a RIM-Driven Thruster

Alexey Yu. Yakovlev, Marat A. Sokolov, Nikolay V. Marinich

396

FA2-2

Development of Contra-Rotating Propeller with Tip Raked Fins

Yasuhiko Inukai

403

FA2-3

From Single to Multistage Marine Propulsor: A Fully Numerical Design Approach

Stefano Gaggero, Davide Grassi, Stefano Brizzolara

409

FA2-4

Development of the Trans-Velocity Propellers

Jeng-Lih Hwang, Shang-Sheng Chin, Kuan-Kai Chang, Chin-Chin Tu

420

Session FA3 – Unconventional 2

FA3-1

An Application of Paddlewheel Propulsion to a High Speed Craft

David Harte, Neil Bose, Robert Clifford, Tim Roberts, Gary Davidson

427

FA3-2

Exploring the Potential of an Oscillating Duct as a Marine Propulsor

Gerasimos Politis, Vasileios Tsarsitalidis

435

FB1-1

Influence of the Mass Transfer Model on the Numerical Prediction of the Cavitating Flow around a Marine Propeller

Mitja Morgut, Enrico Nobile

444

FB1-2

Cavitation Simulation on Conventional and Highly-Skewed Propellers in the Behind-Hull Condition

Keun Woo Shin, Poul Andersen, Robert Mikkelsen

452

FB1-3

Transport of Gas Nuclei in a Propeller Flow

Francisco A. Pereira

460

FB1-4

Application of Vortex Confinement Method in Combination with Two-Way Euler-Lagrangian Coupling Approach for the Prediction of Cavitating Propeller Tip Vortex Flows

Thomas Hachmann, Moustafa Abdel-Maksoud, Udo Lantermann, Dieter Hänel

468

FB2-1

Numerical and Experimental Study of Propeller Ventilation

Anna M. Kozlowska, Katja Wöckner, Thomas Rung, Sverre Steen, Kourosh Koushan,Silas Spence

476

FB2-2

Ventilated Propeller Blade Loadings and Spindle Moment of a Thruster in Calm Water and Waves

Kourosh Koushan, Silas Spence, Luca Savio

484

FB2-3

Numerical and Experimental Study on Ventilation for Azimuth Thrusters and Cycloidal Propellers

Michael Palm, Dirk Jürgens, David Bendl

491

FB2-4

The Performance of Vertical Tunnel Thrusters on an Autonomous Underwater Vehicle Operating Near the Free Surface in Waves

L. V. Steenson, A. B. Phillips, M. E. Furlong, E. Rogers, S. R. Turnock

499

FB3-1

Large Eddy Simulation of the Effect of Hull on Marine Propulsors in Crashback

Aman Verma, Hyunchul Jang, Krishnan Mahesh

507

FB3-2

Computation of Cycle-to-Cycle Variation in Blade Load for a Submarine Propeller, Using LES

M. Liefvendahl, C. Troëng

515

I – 1

smp’11 Workshop - Case 1: DelftFoil

M. Hoekstra, T. van Terwisga, E.J. Foeth

1

I – 2.1

Simulation of the Unsteady Cavitation on the Delft Twist11 foil using RANS, DES and LES

Rickard E. Bensow

7

I – 2.2

RANS Simulation of the Delft Twist 11 Foil

Thierry Maquil, Bahaddin Cankurt, Patrick Schiller, Sergey Yakubov, Moustafa Abdel-Maksoud, Thomas Rung

16

I – 2.3

Preliminary Cavitation Simulations on the Twisted Delft Hydrofoil

Dimitrios Papoulias, Manolis Gavaises

24

I – 2.4

Cavitation Prediction of Flow Over the Delft Twist 11 Foil

Stewart Whitworth

27

II – 1

Potsdam Propeller Test Case (PPTC) – Test Case Description

Ulf Barkmann, Hans-Jürgen Heinke, Lars Lübke

36

II – 2.1

Potsdam Propeller Test Case (PPTC)

Olof Klerebrant Klasson, Tobias Huuva

43

II – 2.2

Performance and Cavitation Evaluation of Marine Propeller using Numerical Simulations

Keita Fujiyama, Chuel-Ho Kim, Daisuke Hitomi

50

II – 2.3

The Numerical Predicted of SMP11 Propeller Performance with and without Cavitation

Dengcheng Liu, Fangwen Hong

57

II – 2.4

Open Water Test Propeller Performance and Cavitation Behaviour using PPB and FreSCo⁺

Scott Gatchell, Dieke Hafermann, Heinrich Streckwall

68

II – 2.5

Computational Analysis of Marine Propeller Performance and Cavitation by Using an Inviscid-Flow BEM model

Francesco Salvatore, Luca Greco, Danilo Calcagni

72

II – 2.6

Prediction of Non-Cavitating and Cavitating Performance of a SVA Potsdam Propeller

Da-Qing Li

80

II – 2.7

Cavitation Simulations of the Potsdam Propeller Test Case

Sergey Yakubov, Bahaddin Cankurt, Thierry Maquil, Patrick Schiller, Moustafa Abdel-Maksoud, Thomas Rung

84

II – 2.8

SMP Workshop on Cavitation and Propeller Performances: The Experience of the University of Genova on the Potsdam Propeller Test Case

Stefano Gaggero, Diego Villa, Stefano Brizzolara

92

II – 2.9

Numerical Predictions of the Cavitating and Non-Cavitating Flow around the Model Scale Propeller PPTC

Mitja Morgut, Enrico Nobile

106

II – 2.10

Open Water Test for Testing Methodology

Alejandro Caldas, Marcos Meis , Adrián Sarasquete

112

II – 2.11

FINFLO RANS-Predictions for Propeller Performance

Tuomas Sipilä, Timo Siikonen, Ilkka Saisto

114

II – 3

Overview of the Submitted Results

123

II – 3.1

Case 2.1: Open Water Tests

127

II – 3.2

Case 2.2: LDV Measurements

154

II – 3.3

Case 2.3: Cavitation Test

210

III – 1

Questionnaire on potential flow methods

302

III – 2

Questionnaire on viscous flow methods

307