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Session 1-1: Numerical Methods in Propulsion 1 |
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1.1.1 |
RANS Prediction of the Propeller Performance in Behind Condition Using an Artificially Generated Ship Wake Field
J. Baltazar, B. Schuiling, D. Rijpkema |
1 |
1.1.2 |
Numerical prediction and validation of ship's propulsion performance in full scale
Vladimir Krasilnikov, Vegard Skjefstad, Kourosh Koushan, Hans Jørgen Rambech |
9 |
1.1.3 |
Tip leakage flow structures and cavitation inception on a NACA0009 hydrofoil
Xianren Feng, Yunqiao Liu, Benlong Wang |
22 |
1.1.4 |
Forced Wake CFD method for cavitating propeller simulations
Mika Nuutinen |
30 |
1.1.5 |
Assessment of RANS and DES methods for the numerical simulation of propeller crashback
Haipeng Guo, Guangnian Li, Lin Du |
39 |
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Session 1-2: Propeller Design and Optimization 1 |
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1.2.1 |
Optimization Design and Analysis of Highly Loaded Conventional and Winglet Propellers
Weikang Du, Andrew Gunderson, Jeffrey Reifsnyder, Kevin Farrell |
47 |
1.2.2 |
Case study on the propeller design for the commercial vessel in consideration of underwater radiated noise and propulsive efficiency
Jeong yong Park, Hyoungsuk Lee, Sooyeong Park, Hanshin Seol, Hongseok Jeong, Chihoon Cho, Jongwan Lee |
59 |
1.2.3 |
Design of the Wageningen F series Propellers
John Huisman, Evert-Jan Foeth, Jesse Slot, Arjan Lampe, Joost Moulijn, Jie Dang |
63 |
1.2.4 |
Design Optimization of a Duct by Constructing the Relationship between the Flow Rate and Impeller Efficiency
Bin Zhou, Renyuan Changn |
74 |
1.2.5 |
A two stage optimization approach for propellers with unconventional blade shape in a wake field using BEM
Jan Clemens Neitzel Petersen, Daniel Ferreira González, Roland Gosda, Moustafa Abdel-Maksoud |
80 |
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Session 2-1: Propulsion 1 |
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2.1.1 |
Un steady characteristic investigation about contra rotating azimuth propulsor
Lixun Hou, Qingcai Wang, Ankang Hu, Xin Chang, Zhenju Chuang |
90 |
2.1.2 |
Numerical Estimation of Ventilation Risk for Ducted Azimuthing Propulsors installed in a Multi Purpose Vessel
Dietrich Benke, Julian Kimmerl |
96 |
2.1.3 |
Analysis of Unsteady Flow and Hydrodynamic Forces of Pump jet Propulsors with Varied Rotor tip Rake
Xue Qin Ji , Chen Jun Yang*, Xiao Qian Dong |
103 |
2.1.4 |
Numerical simulation of the performance of bow thruster taking into account turbulence model influence using RANS method
Danh Thanh Bui |
109 |
2.1.5 |
Thrust Vector Modeling in Steering and Reversing Maneuver for Crafts Propelled by Two Waterjets
Lingxun Li, Jiangming Ding, Wenbo Zhao, Hai Luo, Ning Lyu |
115 |
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Session 2-2: Cavitation and Cavitation Erosion 1 |
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2.2.1 |
An Experimental and Numerical Investigation of the Cavitation Effects on Propeller Performance and Erosion on DTMB 5415 Propeller
Selahattin Özsayan, Çağ atay Sabri Köksal , Onur Usta, Cihat Çelik, Naz Yilmaz, Emin Korkut |
122 |
2.2.2 |
The N umerical Investigation o f Propeller Cavitation Benchmark Tests in Oblique Flow
Chaosheng Zheng, Fangwen Hong Zhirong Zhang, Dengcheng Liu |
133 |
2.2.3 |
Model Scale Investigation of Blade Root Cavitation Erosion on a Set of Marine Propellers
Afaq Ahmed Abbasi, Giovanni Franzosi, Daniele Bartetta, Marina Delucchi, Michele Viviani and Giorgio Tani |
139 |
2.2.4 |
Numerical study of the energy transformation and wall impact pressure induced by vapor bubbles collapse near wall
Di Zhao, Fuqiang Deng, Lingxin Zhang |
147 |
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Session 2-3: Hydroacoustics and Vibration 1 |
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2.3.1 |
Towards Reliable Prediction of Propeller Noise: Challenges and Findings of the Project ProNoVi
Vladimir Krasilnikov, Luca Savio, Kourosh Koushan, Mario Felli, Moustafa Abdel-Maksoud, Julian Kimmerl, Nils Reichstein, Arve Fageraas, Jessica Sun |
154 |
2.3.2 |
The Effect of Porous Data Surface Shape and Size on Ship Noise Prediction using the FWH Acoustic Analogy with Incompressible Solver for a Cavitating Propellers
Marko Vikström, Urban Svennberg, Muye Ge, Rickard E. Bensow |
166 |
2.3.3 |
The Vibration Characteristics of the Propeller under Fluid Structure Interaction
Yingbo Xu, Denghai Tang |
174 |
2.3.4 |
Prediction of Underwater Radiated Noise from Propeller Cavitation During Concept Design
Frans Hendrik Lafeber, Johan Bosschers, Artur Lidtke, Thomas Lloyd, Erik van Wijngaarden, Joost Moulijn |
179 |
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Session 3-1: Experimental Methods and Data Processing 1 |
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3.1.1 |
Development of Cavitation Shape Measurement Method Using Muti View Line Sensing Method
Koichiro Shiraishi, Yuki Sawada, Azumi Kaneko, Daijiro Arakawa |
191 |
3.1.2 |
Extraction of Cavitation Pressure Pulsation Feature of Mixed flow Waterjet Pump Based on Wavelet Packet Energy and Fractal Dimension
Chao Feng, Zonglong Wang, Mengzi Yang, Tengyan Liu, Hualun Zhu |
200 |
3.1.3 |
Isolated Consideration of Influence Factors in Open Water Tests of Podded Propulsion Systems Propulsion Systems
Maximilian Koesterke, Simon Froitzheim |
207 |
3.1.4 |
PIV Measurement of Stern Flow Field around YUPENG Ship Model with/without Rotating Propeller
Xinming Du, Guoping Zhang, Wei Rui, Lianghao Xu |
217 |
3.1.5 |
Application of STFT to the Analysis of Fluctuating Pressure Induced by the Propeller of an Icebreaker
Rui Wu, Ju Ding, Heng Liu, Dazhuan Wu |
223 |
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Session 3-2: Cavitation and Cavitation Erosion 2 |
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3.2.1 |
Numerical Study of Multiscale Cavitating Flow Around a Hydrofoil
Beichen Tian, Linmin Li, Yang Meng, Biao Huang |
229 |
3.2.2 |
Cavitation Implementation Algorithms Based on Pressure Projection Method for Incompressible Flows with Three Phase Interactions
Zhaoyuan Wang, Sungtek Park, Frederick Stern |
241 |
3.2.3 |
Numerical Predicti on of Propeller Tip Vortex Cavitation Inception and The Influence of Water Quality
Bin Zhang, Zhirong Zhang |
250 |
3.2.4 |
Numerical analysis of cavitating flow around the propeller behind a hull with verification and validation procedures
Linfeng Deng, Yun Long, Bin Ji |
257 |
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Session 3-3: Propulsion 2 |
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3.3.1 |
Numerical and experimental study of tandem propellers for icebreaker
Heng Zhang, Ju Ding, Jianqiang Wang, Zhenghao Liu, Weiping Kong |
262 |
3.3.2 |
Numerical Investigation on Performance Prediction of Push Pull CRP Configuration
Mahish Mohan, Hannu Jukola, Kari Kyyrö |
272 |
3.3.3 |
Vibration and Noise Performance of a High Speed Planing Craft with Surface Piercing Propellers
Zhe Liu, Lifan Qiu, Zongying Shi |
279 |
3.3.4 |
Numerical Analysis and Hazard Evaluation of Cavitation for A Ducted Controllable Pitch Propeller(CPP) of The Large Trailing Suction Hopper Dredger
Xinchen Gan, Long Yu, Ying Chen |
285 |
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Session 4-1: Numerical Methods in Propulsion 2 |
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4.1.1 |
Development and Applications of an Efficient Computational Method of Self propulsion Simulations in Seaways
Ching Yeh Hsin, Cheng-Han Tsai, Shang-Chi Liu and Chun-Chia Kuo |
293 |
4.1.2 |
The Numerical Simulation of Pumpjet Unsteady Forces of SUBOFF Model
Lei Wang, Dengcheng Liu, Denghai Tang |
303 |
4.1.3 |
Acoustic Emissions and Cavitation Effects on Model Scale Propellers Using a Transition Model
Jan Geese, Julian Kimmerl, Marc Nadler, Moustafa Abdel-Maksoud |
307 |
4.1.4 |
Numerical analysis of the effect of propeller rotation on the generation of internal waves in stratified fluids waves in stratified fluids
Genshui Zhou, Jun Zhang, Fangwen Hong, Debao Gao, Boyue Su |
315 |
4.1.5 |
Effects of the duct outlet diameter on the flow and vortices of a pre swirl stator pump-jet propulsor
Han Li, Qiaogao Huang, Guang Pan, Xinguo Dong |
322 |
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Session 4-2: Propulsion Efficiency |
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4.2.1 |
Energy saving efficiency analysis of parallel and dif ferential sailing strategies for a sail assisted ship
Jijun Chen, Ziying Pan, Shengli Zhang, Wentao Zheng, Peng Zheng, Li Chen |
328 |
4.2.2 |
A Fundamental Study on Rudder Drag Reduction by Rudder Fin
Takashi Kanemaru, Akira Yoshitake, Jun Ando |
333 |
4.2.3 |
The numerical investigation of the hydrodynamic performance of a new twin rudder system
ZHAI Shucheng, ZHANG Ren, SONG Jia-qian, CHEN Lei-qiang, LIU Deng-cheng |
340 |
4.2.4 |
Influence of Gate Rudder system on ship performance
Chunhui Wang, Lin Li, Chao Wang |
346 |
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Session 4-3: Cavitation and Cavitation Erosion 3 |
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4.3.1 |
Study on Cavitation of Semi balanced Rudder and its Influence on Unsteady Force
Mingjin Ye, Di Zhang, Fengxian Zhang, Hanzi Zheng |
352 |
4.3.2 |
Cavitation Erosion Risk Assessment on the Nozzle Surface of Ducted Propellers
Themistoklis Melissaris, Marc Beerens, Iulia Oprea, Maarten Bijlard |
359 |
4.3.3 |
An Image Based Method to Quantify the Unsteady Cavitating Behavior around a Hydrofoil
Yantao Cao, Lianghao Xu, Xiaoxing Peng |
367 |
4.3.4 |
Assessment of Cavitation Impact Load Based on Cavitation E rosion Pitting Test of Brass H62
Jianshuai Dong, Ziru Li, Wei He, Qian Liu |
372 |
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Session 5-1: Propeller Desgin and Optimization 2 |
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5.1.1 |
Cavitation nuisance identification through machine learning during propeller optimisation
Ioli Gypa, Marcus Jansson, Rickard Bensow |
384 |
5.1.2 |
Design of pumpjet propulsors using RANS based multi objective optimization
Stefano Gaggero, Mattia Martinelli |
392 |
5.1.3 |
Numerical and Experimental Study of Tidal Turbine Performance
Anna Maria Kozlowska, Vladimir Krasilnikov, Kourosh Koushan, Luca Savio |
402 |
5.1.4 |
Validation of Cavitation Prediction of Ducted Propeller Design and Analysis Tools
John Huisman, Maxime Garenaux, Arie de Jager, Geerhard Janse |
412 |
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Session 5-2: Cavitation and Cavitation Erosion 4 |
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5.2.1 |
Detection of Propeller Cavitation Inception by the Acoustic Method
Mingtai Song, Jiang Lv, Xiangnan Gu, Yihong Chen, Denghai Tang |
421 |
5.2.2 |
Numerical investigation on cavitation vortex interaction in a scaled preswirl pump-jet propulsor
Xutao Zhao, Desheng Zhang, Xi Shen, Linlin Geng, B.P.M. (Bart) van Esch |
427 |
5.2.3 |
Numerical Prediction of Cavitation Erosion on Ship Propulsors
Lutz Kleinsorge, Andreas Peters, Felix Schreiner, Lars Greitsch, Ould el Moctar, Romuald Skoda |
436 |
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Session 5-3: Hydroacoustic and Vibration 2 |
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5.3.1 |
Hydroacoustic evaluation of cavitating flow based on direct FWH approach and dual mesh technique
Youjiang Wang, Tommi Mikkola, Spyros Hirdaris |
442 |
5.3.2 |
Acoustic Comparison of a Ship Propeller Model in Cavitating Conditions with LES and FWH-Method
Julian Kimmerl, Moustafa Abdel-Maksoud, Marco Nataletti, Luca Savio |
450 |
5.3.3 |
Predicting the higher order harmonics of propeller induced hull pressure fluctuations by tip-vortex cavitation
Johan Bosschers |
460 |