연구동향 분석

Application of the body force method in the rim driven thruster

Cai Boao Tian Binbin Qiu Liaoyuan Xu Qing Mao Xiaofei He Wei Chai Wei 2022년

논문상세정보
인용/피인용
' Application of the body force method in the rim driven thruster' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • Body force RDT method
  • Computational Fluid Dynamics(CFD)
  • Ducted virtual disks
  • Rim driven thruster
  • Ship self-propulsion
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
59 0

0.0%

' Application of the body force method in the rim driven thruster' 의 참고문헌

  • Vollst€andige Darstellung der turbulenten Geschwindigkeitsverteilung in glatten Leitungen
  • Two-equation eddy-viscosity turbulence models for engineering applications
  • The study of ducted propeller in propulsion performance of a Malaysia fishing boat
    Koh, K. K. [2015]
  • The Generalized Actuator Disk
  • Simulation of the interaction between ship and ducted propeller with a modified body force method
    Cai, B. [2022]
  • Shape optimization of an autonomous underwater vehicle with a ducted propeller using computational fluid dynamics analysis
  • Self-propulsion computations using a speed controller and a discretized propeller with dynamic overset grids
  • STAR-CCMþ Theory Guide
  • Research on calculation methods of ship model self-propulsion prediction
    Guo, C. [2020]
  • Reconfigurable multi-three-phase propulsion system for naval rim-driven propeller
    Alosa, C. [2020]
  • Open water performance comparison between hub-type and hubless rim driven thrusters based on CFD method
    Song, B. W. [2015]
  • Numerical study on the interaction between propeller and rudder of ultra-large container ship in uniform viscous flow
    Shen, X. R. [2009]
  • Numerical study of the hydrodynamic characteristics comparison between a ducted propeller and a rim-driven thruster
    Liu, B. [2021]
  • Numerical simulation of the flow about self-propelling tanker models
  • Numerical simulation of ship maneuvers through self-propulsion
    Shang, H. [2021]
  • Numerical prediction of self-propulsion with a body-force propeller model
    Wu, Z. H. [2013]
  • Numerical modelling of rotorestator interaction in rim driven thrusters
  • Numerical investigation on hydrodynamic performance of a novel shaftless rim-driven counter-rotating thruster considering gap fluid
    Jiang, H. [2022]
  • Numerical computations of flow forces in ship manoeuvring
  • Numerical computation of viscous flows with free surface around a series 60 model
  • Numerical Simulation of the Flow Around the Propelled KCS
  • Improved body force propulsion model for ship propeller simulation
    Feng, D. [2020]
  • Impact of skew on propeller tip vortex cavitation
    Hu, J. [2021]
  • Hydrodynamic prediction of the ducted propeller by CFD solver
    Majdfar, S. [2017]
  • Hydrodynamic performance of distributed pumpjet propulsion system for underwater vehicle
    Lü, X. J. [2014]
  • Hydrodynamic analysis of a rim-driven thruster based on RANS method
    Cai, M. [2015]
  • Hydrodynamic Design of a Bi-directional, Rim-Driven Ducted Thruster Suitable for Underwater Vehicles
  • Estimation of the manoeuvrability of the KVLCC2 in calm water using free running simulation based on CFD
    Kim In-Tae [2021]
  • Elektrisch angertriebene schiffsschraube
    Kort, L. [1940]
  • Design optimization of a bi-directional integrated thruster
    Pashias, C. [2003]
  • Assessment of full-scale KCS free running simulation with body-force models
    Yu, J. [2021]
  • A study on ship performance in waves using a RANS solver, part 1: Comparison of power prediction methods in regular waves
    Lee, S. -H. [2021]
  • A review of progress and applications of ship shaft-less rim-driven thrusters
    Yan, X. [2017]
  • A method to perform self-propulsion computations with a simplified body-force propeller model
    Fu, H. [2015]
  • A RANS-based analysis tool for ducted propeller systems in open water condition