Attached are the .cas and .dat files for the Reynolds Averaged Navier-Stokes (RANS) simulation of a single full scale DOE RM1 turbine implemented in ANSYS FLUENT CFD-package. In this case study taking advantage of the symmetry of the DOE RM1 geometry, only half of the geometry is modeled using (Single) Rotating Reference Frame model [RRF]. In this model RANS equations, coupled with k-\omega turbulence closure model, are solved in the rotating reference frame. The actual geometry of the turbine blade is included and the turbulent boundary layer along the blade span is simulated using wall-function approach. The rotation of the blade is modeled by applying periodic boundary condition to sets of plane of symmetry. This case study simulates the performance and flow field in both the near and far wake of the device at the desired operating conditions. The results of these simulations showed good agreement to the only publicly available numerical simulation of the device done in the NREL. Please see the attached paper.
OwnerNational Renewable Energy Laboratory (NREL) - view all
Update frequencyunknown
Last updatedabout 1 year ago
OverviewANSYSCECCFDDOE RM1FLUENTHAHTHorizontal Axis Hydrokinetic TurbineHydrokineticMHKMarineNNMRECNavier-StokesPMECRANSRM1RRFReynoldsSimulationSingle Rotating Refrence modelTidalTurbulenceanalysisaxialaxial flow turbineaxiscomputational fluid dynamicsenergyexperimentalflowhorizontalhorizontal axismodelmodelingnumericalpowerquantitativereference modelrotating reference framerotortechnologyturbinewind
Additional Information
KeyValue
dcat_issued2013-04-10T06:00:00Z
dcat_modified2020-07-30T16:08:24Z
dcat_publisher_nameUniversity of Washington
guidhttps://data.openei.org/submissions/3928
ib1_trust_framework[]
language