Wave Tank Testing Report for Controls Validation of a Heaving Point Absorber
The core objectives of this project is to improve the power capture of three different wave energy
conversion (WEC) devices by more than 50% using an advanced control system and validate the
attained improvements using wave tank and full scale testing. In parallel, we will bring along the
development of a wave prediction system that is required to enable effective control and test it at full
scale.
The purposes of this report are to:
1. Plan and document the 1/25th scale device testing at the wave-tank facility;
2. Document the test article, setup and methodology, sensor and instrumentation, mooring,
electronics, wiring, and data flow and quality assurance;
3. Communicate the testing results between the associated members;
4. Facilitate reviews that will help to ensure all aspects (risk, safety, testing procedures, etc.);
5. Provide a systematic guide to setting up, executing and decommissioning the experiment.
Citation Formats
Re Vision Consulting. (2020). Wave Tank Testing Report for Controls Validation of a Heaving Point Absorber [data set]. Retrieved from https://dx.doi.org/10.15473/1660374.
Previsic, Mirko, Karthikeyan, Anantha, Challa, Ravi, Son, Daewoong, and Konstad, Rolf. Wave Tank Testing Report for Controls Validation of a Heaving Point Absorber . United States: N.p., 26 Aug, 2020. Web. doi: 10.15473/1660374.
Previsic, Mirko, Karthikeyan, Anantha, Challa, Ravi, Son, Daewoong, & Konstad, Rolf. Wave Tank Testing Report for Controls Validation of a Heaving Point Absorber . United States. https://dx.doi.org/10.15473/1660374
Previsic, Mirko, Karthikeyan, Anantha, Challa, Ravi, Son, Daewoong, and Konstad, Rolf. 2020. "Wave Tank Testing Report for Controls Validation of a Heaving Point Absorber ". United States. https://dx.doi.org/10.15473/1660374. https://mhkdr.openei.org/submissions/329.
@div{oedi_4026, title = {Wave Tank Testing Report for Controls Validation of a Heaving Point Absorber }, author = {Previsic, Mirko, Karthikeyan, Anantha, Challa, Ravi, Son, Daewoong, and Konstad, Rolf.}, abstractNote = {The core objectives of this project is to improve the power capture of three different wave energy
conversion (WEC) devices by more than 50% using an advanced control system and validate the
attained improvements using wave tank and full scale testing. In parallel, we will bring along the
development of a wave prediction system that is required to enable effective control and test it at full
scale.
The purposes of this report are to:
1. Plan and document the 1/25th scale device testing at the wave-tank facility;
2. Document the test article, setup and methodology, sensor and instrumentation, mooring,
electronics, wiring, and data flow and quality assurance;
3. Communicate the testing results between the associated members;
4. Facilitate reviews that will help to ensure all aspects (risk, safety, testing procedures, etc.);
5. Provide a systematic guide to setting up, executing and decommissioning the experiment.}, doi = {10.15473/1660374}, url = {https://mhkdr.openei.org/submissions/329}, journal = {}, number = , volume = , place = {United States}, year = {2020}, month = {08}}
https://dx.doi.org/10.15473/1660374
Details
Data from Aug 26, 2020
Last updated May 17, 2021
Submitted Aug 26, 2020
Organization
Re Vision Consulting
Contact
Mirko Previsic
916.977.3970
Authors
Original Source
https://mhkdr.openei.org/submissions/329Research Areas
Keywords
MHK, Marine, Hydrokinetic, energy, power, wave, control, MPC, heaving, point absorber, point absorber buoy, WEC, excitation force, experiment, tank test, lab test, PTO, Oregon, Oregon State University, OSU, WAMIT, linear damping, simulation, model predictive control, optimal linear damping, optimization, radiation damping, Causal control, Directional Wave Basin, O. H. Hinsdale Wave Research Laboratory, Richmond Field Station, University of California at Berkeley, Berkeley, California, Corvallis, power take-off, Froude scaling, University of California, matlab, simulink, speedgoatDOE Project Details
Project Name Development of Optimal Control System for Three Different WEC Devices
Project Lead Bill McShane
Project Number EE0007173