Small Scale WEC Performance Modeling Data

Small Scale WEC Performance Modeling Data is performance data from downscaled models of common WEC devices and their calculated performance outputs. This data is used by the Small WEC interactive modeling tool hosted by PRIMRE. The devices include a point absorber, a two-body point absorber (RM3), an oscillating surge device (OSWEC), and an attenuator type device (McCabe Wave Pump). One of the primary use cases for this work is to give an easy way to compare power output for a variety of WECs and model sizes.
McCabe Wave Pump Model Size 1 JSON Data.json
McCabe Wave Pump Model Size 1 MATLAB Data.mat
McCabe Wave Pump Model Size 1 Raw Data.zip
McCabe Wave Pump Model Size 2 JSON Data.json
McCabe Wave Pump Model Size 2 MATLAB Data.mat
McCabe Wave Pump Model Size 2 Raw Data.zip
McCabe Wave Pump Model Size 3 JSON Data.json
McCabe Wave Pump Model Size 3 MATLAB Data.mat
McCabe Wave Pump Model Size 3 Raw Data.zip
McCabe Wave Pump Model Size 4 JSON Data.json
McCabe Wave Pump Model Size 4 MATLAB Data.mat
McCabe Wave Pump Model Size 4 Raw Data.zip
McCabe Wave Pump Model Size 5 JSON Data.json
McCabe Wave Pump Model Size 5 MATLAB Data.mat
McCabe Wave Pump Model Size 5 Raw Data.zip
OSWEC Model Size 2 JSON Data.json
OSWEC Model Size 2 MATLAB Data.mat
OSWEC Model Size 2 Raw Data.zip
OSWEC Model Size 3 JSON Data.json
OSWEC Model Size 3 MATLAB Data.mat
OSWEC Model Size 3 Raw Data.zip
OSWEC Model Size 4 JSON Data.json
OSWEC Model Size 4 MATLAB Data.mat
OSWEC Model Size 4 Raw Data.zip
OSWEC Model Size 5 JSON Data.json
OSWEC Model Size 5 MATLAB Data.mat
OSWEC Model Size 5 Raw Data.zip
OSWEC Model Size 6 JSON Data.json
OSWEC Model Size 6 MATLAB Data.mat
OSWEC Model Size 6 Raw Data.zip
OSWEC Model Size 7 JSON Data.json
OSWEC Model Size 7 MATLAB Data.mat
OSWEC Model Size 7 Raw Data.zip
OSWEC Model Size 8 JSON Data.json
OSWEC Model Size 8 MATLAB Data.mat
OSWEC Model Size 8 Raw Data.zip
OSWEC Model Size 9 JSON Data.json
OSWEC Model Size 9 MATLAB Data.mat
OSWEC Model Size 9 Raw Data.zip
Point Absorber Model Size 2 JSON Data.json
Point Absorber Model Size 2 MATLAB Data.mat
Point Absorber Model Size 2 Raw Data.zip
Point Absorber Model Size 3 JSON Data.json
Point Absorber Model Size 3 MATLAB Data.mat
Point Absorber Model Size 3 Raw Data.zip
Point Absorber Model Size 4 JSON Data.json
Point Absorber Model Size 4 MATLAB Data.mat
Point Absorber Model Size 4 Raw Data.zip
Point Absorber Model Size 5 JSON Data.json
Point Absorber Model Size 5 MATLAB Data.mat
Point Absorber Model Size 5 Raw Data.zip
Point Absorber Model Size 6 JSON Data.json
Point Absorber Model Size 6 MATLAB Data.mat
Point Absorber Model Size 6 Raw Data.zip
RM3 Two-Body Point Absorber Model Size 2 JSON Data.json
RM3 Two-Body Point Absorber Model Size 2 MATLAB Data.mat
RM3 Two-Body Point Absorber Model Size 2 Raw Data.zip
RM3 Two-Body Point Absorber Model Size 3 JSON Data.json
RM3 Two-Body Point Absorber Model Size 3 MATLAB Data.mat
RM3 Two-Body Point Absorber Model Size 3 Raw Data.zip
RM3 Two-Body Point Absorber Model Size 4 JSON Data.json
RM3 Two-Body Point Absorber Model Size 4 MATLAB Data.mat
RM3 Two-Body Point Absorber Model Size 4 Raw Data.zip
RM3 Two-Body Point Absorber Model Size 5 JSON Data.json
RM3 Two-Body Point Absorber Model Size 5 MATLAB Data.mat
RM3 Two-Body Point Absorber Model Size 5 Raw Data.zip
Small WEC Interactive Modeling Tool
WEC Scale Compilation.json
Citation Formats
TY - DATA
AB - Small Scale WEC Performance Modeling Data is performance data from downscaled models of common WEC devices and their calculated performance outputs. This data is used by the Small WEC interactive modeling tool hosted by PRIMRE. The devices include a point absorber, a two-body point absorber (RM3), an oscillating surge device (OSWEC), and an attenuator type device (McCabe Wave Pump). One of the primary use cases for this work is to give an easy way to compare power output for a variety of WECs and model sizes.
AU - King, Tom
A2 - McNally, Jim
A3 - Taverna, Nicole
A4 - Scavo, RJ
A5 - Jenne, Scott
A6 - Weers, Jon
DB - Open Energy Data Initiative (OEDI)
DP - Open EI | National Renewable Energy Laboratory
DO - 10.15473/1838617
KW - MHK
KW - Marine
KW - Hydrokinetic
KW - energy
KW - power
KW - WEC
KW - OSWEC
KW - Point Obsorber
KW - Oscillating
KW - Wave Energy Converter
KW - wave energy
KW - data
KW - matlab
KW - model
KW - wave pump
KW - performance data
KW - raw data
KW - RM3
KW - Two-Body Point Absorber
KW - Two Body Point Absorber
KW - oscillating surge
KW - McCabe
KW - attenuator
KW - Powering the Blue Economy
KW - small wec
KW - scaled
KW - scale
KW - PBE
KW - interactive model
KW - point absorber
KW - oscillating surge wave energy converter
KW - PRIMRE
KW - small scale
LA - English
DA - 2021/11/08
PY - 2021
PB - National Renewable Energy Laboratory
T1 - Small Scale WEC Performance Modeling Data
UR - https://doi.org/10.15473/1838617
ER -
King, Tom, et al. Small Scale WEC Performance Modeling Data. National Renewable Energy Laboratory, 8 November, 2021, MHKDR. https://doi.org/10.15473/1838617.
King, T., McNally, J., Taverna, N., Scavo, R., Jenne, S., & Weers, J. (2021). Small Scale WEC Performance Modeling Data. [Data set]. MHKDR. National Renewable Energy Laboratory. https://doi.org/10.15473/1838617
King, Tom, Jim McNally, Nicole Taverna, RJ Scavo, Scott Jenne, and Jon Weers. Small Scale WEC Performance Modeling Data. National Renewable Energy Laboratory, November, 8, 2021. Distributed by MHKDR. https://doi.org/10.15473/1838617
@misc{OEDI_Dataset_8012,
title = {Small Scale WEC Performance Modeling Data},
author = {King, Tom and McNally, Jim and Taverna, Nicole and Scavo, RJ and Jenne, Scott and Weers, Jon},
abstractNote = {Small Scale WEC Performance Modeling Data is performance data from downscaled models of common WEC devices and their calculated performance outputs. This data is used by the Small WEC interactive modeling tool hosted by PRIMRE. The devices include a point absorber, a two-body point absorber (RM3), an oscillating surge device (OSWEC), and an attenuator type device (McCabe Wave Pump). One of the primary use cases for this work is to give an easy way to compare power output for a variety of WECs and model sizes.},
url = {https://mhkdr.openei.org/submissions/380},
year = {2021},
howpublished = {MHKDR, National Renewable Energy Laboratory, https://doi.org/10.15473/1838617},
note = {Accessed: 2025-05-03},
doi = {10.15473/1838617}
}
https://dx.doi.org/10.15473/1838617
Details
Data from Nov 8, 2021
Last updated Sep 1, 2022
Submitted Jan 3, 2022
Organization
National Renewable Energy Laboratory
Contact
Scott Jenne
Authors
Tom King
National Renewable Energy LaboratoryJim McNally
National Renewable Energy LaboratoryNicole Taverna
National Renewable Energy LaboratoryRJ Scavo
National Renewable Energy LaboratoryScott Jenne
National Renewable Energy LaboratoryJon Weers
National Renewable Energy LaboratoryOriginal Source
https://mhkdr.openei.org/submissions/380Research Areas
Keywords
MHK, Marine, Hydrokinetic, energy, power, WEC, OSWEC, Point Obsorber, Oscillating, Wave Energy Converter, wave energy, data, matlab, model, wave pump, performance data, raw data, RM3, Two-Body Point Absorber, Two Body Point Absorber, oscillating surge, McCabe, attenuator, Powering the Blue Economy, small wec, scaled, scale, PBE, interactive model, point absorber, oscillating surge wave energy converter, PRIMRE, small scaleDOE Project Details
Project Name Powering the Blue Economy Foundational Research and Development
Project Lead Heather Spence
Project Number FY21 AOP 2.2.7.404