Numerical investigation of flow structures around the DARPA SUBOFF model
Published 2021 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Numerical investigation of flow structures around the DARPA SUBOFF model
Authors
Keywords
Vortex structure, Liutex method, DAPRA SUBOFF, Boundary data immersion method
Journal
OCEAN ENGINEERING
Volume 239, Issue -, Pages 109866
Publisher
Elsevier BV
Online
2021-09-23
DOI
10.1016/j.oceaneng.2021.109866
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Numerical investigation of the cavitating flow structure with special emphasis on the vortex identification method
- (2020) Jie Chen et al. MODERN PHYSICS LETTERS B
- Vortex identification methods in marine hydrodynamics
- (2020) Wei-wen Zhao et al. Journal of Hydrodynamics
- Third generation of vortex identification methods: Omega and Liutex/Rortex based systems
- (2019) Chaoqun Liu et al. Journal of Hydrodynamics
- Verification and validation of Large Eddy Simulation of attached cavitating flow around a Clark-Y hydrofoil
- (2019) Yun Long et al. INTERNATIONAL JOURNAL OF MULTIPHASE FLOW
- A numerical investigation about the effects of Reynolds number on the flow around an appended axisymmetric body of revolution
- (2019) Antonio Posa et al. JOURNAL OF FLUID MECHANICS
- Lagrangian-based numerical investigation of aerodynamic performance of an oscillating foil
- (2018) Mengjie Zhang et al. ACTA MECHANICA SINICA
- Numerical modelling of unsteady cavitation and induced noise around a marine propeller
- (2018) Qin Wu et al. OCEAN ENGINEERING
- Numerical investigation of cavitation vortex dynamics in unsteady cavitating flow with shock wave propagation
- (2018) Changchang Wang et al. OCEAN ENGINEERING
- Rortex—A new vortex vector definition and vorticity tensor and vector decompositions
- (2018) Chaoqun Liu et al. PHYSICS OF FLUIDS
- Large-eddy simulation of flow over an axisymmetric body of revolution
- (2018) Praveen Kumar et al. JOURNAL OF FLUID MECHANICS
- Rortex and comparison with eigenvalue-based vortex identification criteria
- (2018) Yisheng Gao et al. PHYSICS OF FLUIDS
- Letter: Galilean invariance of Rortex
- (2018) Chaoqun Liu PHYSICS OF FLUIDS
- The boundary data immersion method for compressible flows with application to aeroacoustics
- (2017) Stefan C. Schlanderer et al. JOURNAL OF COMPUTATIONAL PHYSICS
- A numerical investigation of the wake of an axisymmetric body with appendages
- (2016) A. Posa et al. JOURNAL OF FLUID MECHANICS
- Experimental and numerical study of a generic conventional submarine at 10° yaw
- (2016) C. Fureby et al. OCEAN ENGINEERING
- New omega vortex identification method
- (2016) ChaoQun Liu et al. Science China-Physics Mechanics & Astronomy
- Viscous-flow Calculations of Submarine Maneuvering Hydrodynamic Coefficients and Flow Field based on Same Grid Topology
- (2016) Liushuai CAO et al. Journal of Applied Fluid Mechanics
- Accurate Cartesian-grid simulations of near-body flows at intermediate Reynolds numbers
- (2015) Audrey P. Maertens et al. COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING
- Evaluation of hybrid RANS/LES models for prediction of flow around surface combatant and Suboff geometries
- (2013) S. Bhushan et al. COMPUTERS & FLUIDS
- Submarine propeller computations and application to self-propulsion of DARPA Suboff
- (2013) Nathan Chase et al. OCEAN ENGINEERING
- A multiphase compressible model for the simulation of multiphase flows
- (2011) Jean-Paul Caltagirone et al. COMPUTERS & FLUIDS
- The intermediate wake of a body of revolution at high Reynolds numbers
- (2010) JUAN M. JIMÉNEZ et al. JOURNAL OF FLUID MECHANICS
- Numerical simulation and control of horseshoe vortex around an appendage–body junction
- (2010) Liu Zhihua et al. JOURNAL OF FLUIDS AND STRUCTURES
Find Funding. Review Successful Grants.
Explore over 25,000 new funding opportunities and over 6,000,000 successful grants.
ExploreAsk a Question. Answer a Question.
Quickly pose questions to the entire community. Debate answers and get clarity on the most important issues facing researchers.
Get Started