UMass 2-Body WEC Techno-Economic Assessment
The University of Massachusetts (UMass) is developing a 2-body wave energy converter (WEC) device that is converting mechanical power into electricity using a mechanical motion rectifier that allows the system to couple to a flywheel. UMass has completed numerical modeling, wave tank testing, and PTO sub-system testing and needed assistance in developing a techno-economic model to enable optimization of their topology, comparison to a generic heaving point absorber topology, and guide the next steps in their development efforts. The core objective was to develop a techno-economic approach and modeling tool that allows benchmarking of the two topologies across a wide range of scales to evaluate their respective competitiveness in different application spaces.
This data includes the final report as well as a supporting spreadsheet containing the data produced for this report.
Citation Formats
Re Vision Consulting. (2024). UMass 2-Body WEC Techno-Economic Assessment [data set]. Retrieved from https://mhkdr.openei.org/submissions/580.
Previsic, Mirko. UMass 2-Body WEC Techno-Economic Assessment. United States: N.p., 19 Nov, 2024. Web. https://mhkdr.openei.org/submissions/580.
Previsic, Mirko. UMass 2-Body WEC Techno-Economic Assessment. United States. https://mhkdr.openei.org/submissions/580
Previsic, Mirko. 2024. "UMass 2-Body WEC Techno-Economic Assessment". United States. https://mhkdr.openei.org/submissions/580.
@div{oedi_6243, title = {UMass 2-Body WEC Techno-Economic Assessment}, author = {Previsic, Mirko.}, abstractNote = {The University of Massachusetts (UMass) is developing a 2-body wave energy converter (WEC) device that is converting mechanical power into electricity using a mechanical motion rectifier that allows the system to couple to a flywheel. UMass has completed numerical modeling, wave tank testing, and PTO sub-system testing and needed assistance in developing a techno-economic model to enable optimization of their topology, comparison to a generic heaving point absorber topology, and guide the next steps in their development efforts. The core objective was to develop a techno-economic approach and modeling tool that allows benchmarking of the two topologies across a wide range of scales to evaluate their respective competitiveness in different application spaces.
This data includes the final report as well as a supporting spreadsheet containing the data produced for this report. }, doi = {}, url = {https://mhkdr.openei.org/submissions/580}, journal = {}, number = , volume = , place = {United States}, year = {2024}, month = {11}}
Details
Data from Nov 19, 2024
Last updated Dec 5, 2024
Submitted Nov 20, 2024
Organization
Re Vision Consulting
Contact
Mirko Previsic
916.977.3970
Authors
Original Source
https://mhkdr.openei.org/submissions/580Research Areas
Keywords
MHK, Marine, Hydrokinetic, energy, power, wave, cost, economics, assessment, WEC, wave energy converter, rectifier, flywheel, optimization, technology, data, techno-economic, power take-off, PTO, excel, TEAMERDOE Project Details
Project Name Testing Expertise and Access for Marine Energy Research
Project Lead Lauren Ruedy
Project Number EE0008895
