TEAMER: Mass of Water Turbine Current Energy Converter CFD Results

Description

The CFD (computational fluid dynamics) results for the Mass of Water Turbine (MOWT) current energy converter from MWNW Consulting (formerly Ecosse IP). Each case is self-contained in its own tar.gz archive file. The archive contains the scripts required to perform a full simulation using OpenFOAM v1906. The scripts to process the output and plot forces are included in "Plotting Scripts", and all computational meshes generated are included in "Computational Grids". Project is part of the TEAMER RFTS 2 (request for technical support) program.

Resources

Name Format Description Link
19 CFD model and results for the MTOW device with 5 Paddles, Vertical Gap, Tank bottom Layout, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_tank-gap.tar.gz
19 CFD model and results for the MTOW device with 1 Paddle, Vertical Gap, Vertically Mirrored, with a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_1flap-gap-mirror.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 35 degrees, and a free stream velocity of U=4.00 m/s. https://mhkdr.openei.org/files/423/U4.00_3flap-gap-35deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Yawed 15 degrees, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-15deg-yaw.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Yawed 30 degrees, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-30deg-yaw.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, 2x Vertical Gap, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-2xgap.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles and a free stream velocity of U=1.50 m/s. https://mhkdr.openei.org/files/423/U1.50_5flaps.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles and a free stream velocity of U=1.50. https://mhkdr.openei.org/files/423/U1.50_3flaps.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles and a free stream velocity of U=3.00 m/s. https://mhkdr.openei.org/files/423/U3.00_5flaps.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles and a free stream velocity of U=3.00 m/s. https://mhkdr.openei.org/files/423/U3.00_3flaps.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles and a free stream velocity of U=2.50 m/s. https://mhkdr.openei.org/files/423/U2.50_3flaps.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flaps.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles and a free stream velocity of U=2.50 m/s. https://mhkdr.openei.org/files/423/U2.50_5flaps.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_5flaps.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, and U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Aspect ratio=10, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-a10.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, 2x Vertical Gap, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-2xgap.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Aspect ratio=2, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-a2.tar.gz
19 3 Paddles, Vertical Gap, Aspect ratio=5, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-a5.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles, Vertical Gap, Aspect ratio=10, Pitched 30 degrees, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_5flap-gap-a10-30deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 1 Paddle, Vertical Gap, Narrow Horizontal Channel, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_1flap-gap-channel.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles with pores, Tank bottom Layout, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_tank-pours.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles and a free stream velocity of U=1.75 m/s. https://mhkdr.openei.org/files/423/U1.75_5flaps.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 35 degrees, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-35deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 60 degrees, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-60deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Yawed 15 degrees, 1/10 scale, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-15deg-yaw_0.1x.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Yawed 15 degrees, 10x scale, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-15deg-yaw_10x.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Yawed 15 degrees, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-15deg-yaw.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles, Vertical Gap, Aspect ratio=10, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_5flap-gap-a10.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles with pores, Tank bottom Layout, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_tank-pours.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles, Tank bottom Layout, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_tank.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 15 degrees, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-15deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles, Tank bottom Layout, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_tank.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles with pores and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_5flaps-pours.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Nozzle walls, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-nozzles.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 35 degrees, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-35deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles and a free stream velocity of U=0.50 m/s. https://mhkdr.openei.org/files/423/U0.50_3flaps.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Tank bottom Layout, and a free stream velocity of U=1.00 m/s https://mhkdr.openei.org/files/423/U1.00_tank-3flap.tar.gz
19 CFD model and results for the MTOW device with 1 Paddle, Vertical Gap, Vertically Mirrored, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_1flap-gap-mirror.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 45 degrees, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-45deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Yawed 30 degrees, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-30deg-yaw.tar.gz
19 CFD model and results for the MTOW device with 1 Paddle, Vertical Gap, Narrow Horizontal Channel, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_1flap-gap-channel.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 40 degrees, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-40deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 15 degrees, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-15deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles with pores, Tank bottom Layout, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_tank-3flap.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Aspect ratio=10, Pitched 30 degrees and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-a10-30deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles, Vertical Gap, Tank bottom Layout, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_tank-gap.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Nozzle walls, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-nozzles.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 30 degrees, and a free stream velocity of U=1.00 m/s https://mhkdr.openei.org/files/423/U1.00_3flap-gap-30deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles with pores and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flaps-pours.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 30 degrees, canal floor at 2m, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-15deg-pitch-2mFloor.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Yawed 15 degrees, 1/10 scale, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-15deg-yaw_0.1x.tar.gz
19 Bash and Python scripts used to generated results plots from the simulation output data. https://mhkdr.openei.org/files/423/scripts.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flaps.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles, Vertical Gap, Aspect ratio=10, Pitched 30 degrees, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_5flap-gap-a10-30deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 60 degrees, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-60deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 15 degrees, canal floor at 2m, and a free stream velocity of U=1.00 https://mhkdr.openei.org/files/423/U1.00_3flap-gap-15deg-pitch-2mFloor.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Yawed 15 degrees, 10x scale, with a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-15deg-yaw_10x.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 30 degrees, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-30deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_5flaps.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles and a free stream velocity of U=0.50 m/s https://mhkdr.openei.org/files/423/U0.50_5flaps.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles with pores and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_5flaps-pours.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles with pores and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flaps-pours.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Aspect ratio=10, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-a10.tar.gz
19 CFD model and results for the MTOW device with 5 Paddles, Vertical Gap, Aspect ratio=10, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_5flap-gap-a10.tar.gz
19 CFD model and results for the MTOW device with 1 Paddle, Vertical Gap, Vertically Mirrored, Narrow Horizontal Channel, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_1flap-gap-channel-mirror.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Aspect ratio=2, and a free stream velocity of U=1.00 m/s https://mhkdr.openei.org/files/423/U1.00_3flap-gap-a2.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Aspect ratio=5, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-a5.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Aspect ratio=10, Pitched 30 degrees and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-a10-30deg-pitch.tar.gz
19 Computational meshes used to run the CFD simulations. This includes the OpenFOAM "polyMesh" files as well as the Pointwise models from which they were generated. https://mhkdr.openei.org/files/423/Grids.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Aspect ratio=10, Pitched 40 degrees, and a free stream velocity of U=4.00 m/s. https://mhkdr.openei.org/files/423/U4.00_3flap-gap-40deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 45 degrees, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_3flap-gap-45deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 3 Paddles, Vertical Gap, Pitched 40 degrees, and a free stream velocity of U=1.00 m/s. https://mhkdr.openei.org/files/423/U1.00_3flap-gap-40deg-pitch.tar.gz
19 CFD model and results for the MTOW device with 1 Paddle, Vertical Gap, Vertically Mirrored, Narrow Horizontal Channel, and a free stream velocity of U=2.00 m/s. https://mhkdr.openei.org/files/423/U2.00_1flap-gap-channel-mirror.tar.gz

Tags

  • cec
  • belt
  • mass-of-water-turbine
  • mowt
  • marine
  • belt-drive
  • openfoam
  • paddle-belt
  • paddle
  • teamer
  • rfts-2
  • model
  • cfd
  • computational-fluid-dynamics
  • current-energy-converter
  • simulation
  • energy

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