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RANS Simulation ADM of the NREL Phase VI wind turbine modeled as MHK Turbine

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Attached are the .cas and .dat files for the Reynolds Averaged Navier-Stokes (RANS) simulation of a single lab-scaled DOE RM1 turbine implemented in ANSYS FLUENT CFD-package.

In this case study the flow field around and in the wake of the NREL Phase VI wind turbine, modeled is MHK turbine, is simulated using Actuator Disk Model (ADM) (a.k.a Porous Media) by solving RANS equations coupled with a turbulence closure model. It should be highlighted that in this simulation the actual geometry of the rotor blade is not modeled. The effect of turbine rotating blades are modeled using the Actuator Disk Theory (see the stated section of attached M.Sc. thesis for more details).

Citation Formats

TY - DATA AB - Attached are the .cas and .dat files for the Reynolds Averaged Navier-Stokes (RANS) simulation of a single lab-scaled DOE RM1 turbine implemented in ANSYS FLUENT CFD-package. In this case study the flow field around and in the wake of the NREL Phase VI wind turbine, modeled is MHK turbine, is simulated using Actuator Disk Model (ADM) (a.k.a Porous Media) by solving RANS equations coupled with a turbulence closure model. It should be highlighted that in this simulation the actual geometry of the rotor blade is not modeled. The effect of turbine rotating blades are modeled using the Actuator Disk Theory (see the stated section of attached M.Sc. thesis for more details). AU - Javaherchi, Teymour DB - Open Energy Data Initiative (OEDI) DP - Open EI | National Renewable Energy Laboratory DO - 10.15473/1420431 KW - MHK KW - Marine KW - Hydrokinetic KW - energy KW - power KW - RANS KW - Simulation KW - CFD KW - Actuator Disk Model KW - Tidal KW - Porous Media KW - Turbine KW - computational fluid dynamics KW - horizontal KW - axis KW - axial KW - HAHT KW - technology KW - ADM KW - actuator disk KW - model KW - numerical KW - analysis KW - analyses KW - wind KW - RM1 KW - reference model KW - rotor KW - flow KW - modeling KW - Reynolds KW - Navier-Stokes KW - CEC KW - axial flow turbine KW - wind turbine KW - NNMREC KW - PMEC LA - English DA - 2016/06/08 PY - 2016 PB - University of Washington T1 - RANS Simulation ADM of the NREL Phase VI wind turbine modeled as MHK Turbine UR - https://doi.org/10.15473/1420431 ER -
Export Citation to RIS
Javaherchi, Teymour. RANS Simulation ADM of the NREL Phase VI wind turbine modeled as MHK Turbine. University of Washington, 8 June, 2016, MHKDR. https://doi.org/10.15473/1420431.
Javaherchi, T. (2016). RANS Simulation ADM of the NREL Phase VI wind turbine modeled as MHK Turbine. [Data set]. MHKDR. University of Washington. https://doi.org/10.15473/1420431
Javaherchi, Teymour. RANS Simulation ADM of the NREL Phase VI wind turbine modeled as MHK Turbine. University of Washington, June, 8, 2016. Distributed by MHKDR. https://doi.org/10.15473/1420431
@misc{OEDI_Dataset_7818, title = {RANS Simulation ADM of the NREL Phase VI wind turbine modeled as MHK Turbine}, author = {Javaherchi, Teymour}, abstractNote = {Attached are the .cas and .dat files for the Reynolds Averaged Navier-Stokes (RANS) simulation of a single lab-scaled DOE RM1 turbine implemented in ANSYS FLUENT CFD-package.

In this case study the flow field around and in the wake of the NREL Phase VI wind turbine, modeled is MHK turbine, is simulated using Actuator Disk Model (ADM) (a.k.a Porous Media) by solving RANS equations coupled with a turbulence closure model. It should be highlighted that in this simulation the actual geometry of the rotor blade is not modeled. The effect of turbine rotating blades are modeled using the Actuator Disk Theory (see the stated section of attached M.Sc. thesis for more details).}, url = {https://mhkdr.openei.org/submissions/115}, year = {2016}, howpublished = {MHKDR, University of Washington, https://doi.org/10.15473/1420431}, note = {Accessed: 2025-05-04}, doi = {10.15473/1420431} }
https://dx.doi.org/10.15473/1420431

Details

Data from Jun 8, 2016

Last updated May 17, 2021

Submitted Jun 9, 2016

Organization

University of Washington

Contact

Teymour Javaherchi

206.543.4910

Authors

Teymour Javaherchi

University of Washington NNMREC

DOE Project Details

Project Name Northwest National Marine Renewable Energy Center

Project Lead Jim Ahlgrimm

Project Number GO18179

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