1 박동우, "격자, 난류모형 및 이산화 방법이 유동해석 결과에 미치는 영향" 해양환경안전학회 20 (20): 419-425, 2014
2 Toxopeus, S., "Viscous-flow calculations for bare hull DARPA SUBOFF submarine at incidence" 55 : 227-251, 2008
3 Bull, P., "The validation of CFD predictions of nominal wake for the SUBOFF fully appended geometry" 1996
4 Mulvany, N.J., "Steady-state evaluation of 'two-equation' RANS (Reynolds-Averaged Navier-Stokes) turbulence models for high-reynolds number hydrodynamic flow simulations" DSTO Platform Sciences Laboratory Commonwealth 2018
5 Chase, N., "Simulations of the DARPA Suboff submarine including self-propulsion with the E1619 propeller" University of Iowa 2012
6 Liefvendahl, M., "Ship and propulsor hydrodynamics" 2010
7 Siemens, "STAR-CCM+ User Guide. Version 11.06"
8 Crook, B., "Resistance for DARPA Suboff as Represented by Model 5470" David Taylor Research Center 1990
9 Di Felice, F., "Numerical and experimental analysis of the wake behavior of a generic submarine propeller" 2009
10 Huang, T., "Measurements of flows over an axisymmetric body with various appendages in a wind tunnel: the DARPA Suboff experimental program" 1994
1 박동우, "격자, 난류모형 및 이산화 방법이 유동해석 결과에 미치는 영향" 해양환경안전학회 20 (20): 419-425, 2014
2 Toxopeus, S., "Viscous-flow calculations for bare hull DARPA SUBOFF submarine at incidence" 55 : 227-251, 2008
3 Bull, P., "The validation of CFD predictions of nominal wake for the SUBOFF fully appended geometry" 1996
4 Mulvany, N.J., "Steady-state evaluation of 'two-equation' RANS (Reynolds-Averaged Navier-Stokes) turbulence models for high-reynolds number hydrodynamic flow simulations" DSTO Platform Sciences Laboratory Commonwealth 2018
5 Chase, N., "Simulations of the DARPA Suboff submarine including self-propulsion with the E1619 propeller" University of Iowa 2012
6 Liefvendahl, M., "Ship and propulsor hydrodynamics" 2010
7 Siemens, "STAR-CCM+ User Guide. Version 11.06"
8 Crook, B., "Resistance for DARPA Suboff as Represented by Model 5470" David Taylor Research Center 1990
9 Di Felice, F., "Numerical and experimental analysis of the wake behavior of a generic submarine propeller" 2009
10 Huang, T., "Measurements of flows over an axisymmetric body with various appendages in a wind tunnel: the DARPA Suboff experimental program" 1994
11 Keye, S., "Investigations of Fluid-Structure Coupling and Turbulence Model Effects on the DLR Results of the Fifth AIAA CFD Drag Prediction Workshop" 2013
12 Roddy, F., "Investigationof The Stability And Control Characteristics Of Several Configurationsof The Darpa Su80Ff Model (Dtrc Model 5470) From Captive-Modelexperiments" David Taylor Research Center 1990
13 Sezen, S., "Investigation of self-propulsion of DARPA Suboff by RANS method" 150 : 258-271, 2018
14 Groves, N., "Geometric characteristics of DARPA Suboff models"
15 Banks, J., "Free surface CFD prediction of components of Ship Resistance for KCS" Curran Associates 1-6, 2010
16 김정훈, "Development of energy-saving devices for a full slow-speed ship through improving propulsion performance" 대한조선학회 7 (7): 390-398, 2015
17 Alin, N., "Current Capabilities of DES and LES for Submarines at Straight Course" 54 : 184-196, 2010