The hydrodynamic performance of a hybrid CRP pod propulsion system was studied by RANS method with SST k ?? turbulence model and sliding mesh. The effect of axial spacing on the hydrodynamic performance of the hybri...The hydrodynamic performance of a hybrid CRP pod propulsion system was studied by RANS method with SST k ?? turbulence model and sliding mesh. The effect of axial spacing on the hydrodynamic performance of the hybrid CRP pod propulsion system was investigated numerically and experimentally. It shows that RANS with the sliding mesh method and SST k -ω turbulence model predicts accurately the hydrodynamic performance of the hybrid CRP pod propulsion system. The axial spacing has little influence on the hydrodynamic performance of the forward propeller, but great influence on that of the pod unit. Thrust coefficient of the pod unit declines with the increase of the axial spacing, but the trend becomes weaker, and the decreasing amplitude at the lower advance coefficient is larger than that at the higher advance coefficient. The thrust coefficient and open water efficiency of the hybrid CRP pod propulsion system decrease with the increase of the axial spacing, while the torque coefficient keeps almost constant. On this basis, the design principle of axial spacing of the hybrid CRP pod propulsion system was proposed.展开更多
Based on previous work on the propulsion performances of single-screwpropeller, the trailing vortex model for the propeller was further improved and a comparison wasmade between the new and original calculations and t...Based on previous work on the propulsion performances of single-screwpropeller, the trailing vortex model for the propeller was further improved and a comparison wasmade between the new and original calculations and test results. The comparison shows that thecalculated results obtained with the improved vortex model are more accurate.展开更多
基金financially supported by the National Natural Science Foundation of China(Grant Nos.51479207 and 51179198)the High Technology Marine Scientific Research Project of the Ministry of Industry and Information Technology of China(Grant No.[2012]534)
文摘The hydrodynamic performance of a hybrid CRP pod propulsion system was studied by RANS method with SST k ?? turbulence model and sliding mesh. The effect of axial spacing on the hydrodynamic performance of the hybrid CRP pod propulsion system was investigated numerically and experimentally. It shows that RANS with the sliding mesh method and SST k -ω turbulence model predicts accurately the hydrodynamic performance of the hybrid CRP pod propulsion system. The axial spacing has little influence on the hydrodynamic performance of the forward propeller, but great influence on that of the pod unit. Thrust coefficient of the pod unit declines with the increase of the axial spacing, but the trend becomes weaker, and the decreasing amplitude at the lower advance coefficient is larger than that at the higher advance coefficient. The thrust coefficient and open water efficiency of the hybrid CRP pod propulsion system decrease with the increase of the axial spacing, while the torque coefficient keeps almost constant. On this basis, the design principle of axial spacing of the hybrid CRP pod propulsion system was proposed.
文摘Based on previous work on the propulsion performances of single-screwpropeller, the trailing vortex model for the propeller was further improved and a comparison wasmade between the new and original calculations and test results. The comparison shows that thecalculated results obtained with the improved vortex model are more accurate.
