StingRAY Structural Optimization Final Technical Report Appendices
The protected data appendices to the public Final Technical Report.
The overall project objective is to materially decrease the leveled cost of energy (LCOE) of the Columbia Power (CPower) StingRAY utility-scale wave energy converter (WEC). This will be achieved by reducing structural material and manufacturing costs and increasing energy output. In this Project, improving the overall Power-to-Weight ratio (PWR) is accomplished through lowering design margins?allowing for weight reduction and more efficient, cost-effective WEC manufacturing and assembly?and by optimizing mass-related WEC performance parameters, such as center of gravity and system inertia.
A mixed materials approach to further structural optimization was developed under this Project and validated with extensive laboratory structural testing. This approach substitutes fiber-reinforced plastic (FRP) for steel where appropriate. The benefits of steel are maintained where most useful, for instance at structural joints where the stiffness of steel is required, and the complex geometry is more readily fabricated with steel. However, there are structural spans whose simple shapes are readily fabricated with mandrel-wound FRP and where significant cost and weight savings can be found. An adhesive, double lap shear joint is used to join the FRP and steel subcomponents
Citation Formats
TY - DATA
AB - The protected data appendices to the public Final Technical Report.
The overall project objective is to materially decrease the leveled cost of energy (LCOE) of the Columbia Power (CPower) StingRAY utility-scale wave energy converter (WEC). This will be achieved by reducing structural material and manufacturing costs and increasing energy output. In this Project, improving the overall Power-to-Weight ratio (PWR) is accomplished through lowering design margins?allowing for weight reduction and more efficient, cost-effective WEC manufacturing and assembly?and by optimizing mass-related WEC performance parameters, such as center of gravity and system inertia.
A mixed materials approach to further structural optimization was developed under this Project and validated with extensive laboratory structural testing. This approach substitutes fiber-reinforced plastic (FRP) for steel where appropriate. The benefits of steel are maintained where most useful, for instance at structural joints where the stiffness of steel is required, and the complex geometry is more readily fabricated with steel. However, there are structural spans whose simple shapes are readily fabricated with mandrel-wound FRP and where significant cost and weight savings can be found. An adhesive, double lap shear joint is used to join the FRP and steel subcomponents
AU - Lenee-Bluhm, Pukha
DB - Open Energy Data Initiative (OEDI)
DP - Open EI | National Laboratory of the Rockies
DO -
KW - MHK
KW - Marine
KW - Hydrokinetic
KW - Renewable Energy
KW - Wave Energy Converter
KW - Offshore
KW - Hybrid Materials
KW - Structure
KW - Hull
KW - FRP
KW - Fiber-reinforced plastic
KW - LCOE
LA - English
DA - 2020/08/05
PY - 2020
PB - Columbia Power Technologies, Inc.
T1 - StingRAY Structural Optimization Final Technical Report Appendices
UR - https://data.openei.org/submissions/8469
ER -
Lenee-Bluhm, Pukha. StingRAY Structural Optimization Final Technical Report Appendices. Columbia Power Technologies, Inc., 5 August, 2020, MHKDR. https://mhkdr.openei.org/submissions/352.
Lenee-Bluhm, P. (2020). StingRAY Structural Optimization Final Technical Report Appendices. [Data set]. MHKDR. Columbia Power Technologies, Inc.. https://mhkdr.openei.org/submissions/352
Lenee-Bluhm, Pukha. StingRAY Structural Optimization Final Technical Report Appendices. Columbia Power Technologies, Inc., August, 5, 2020. Distributed by MHKDR. https://mhkdr.openei.org/submissions/352
@misc{OEDI_Dataset_8469,
title = {StingRAY Structural Optimization Final Technical Report Appendices},
author = {Lenee-Bluhm, Pukha},
abstractNote = {The protected data appendices to the public Final Technical Report.
The overall project objective is to materially decrease the leveled cost of energy (LCOE) of the Columbia Power (CPower) StingRAY utility-scale wave energy converter (WEC). This will be achieved by reducing structural material and manufacturing costs and increasing energy output. In this Project, improving the overall Power-to-Weight ratio (PWR) is accomplished through lowering design margins?allowing for weight reduction and more efficient, cost-effective WEC manufacturing and assembly?and by optimizing mass-related WEC performance parameters, such as center of gravity and system inertia.
A mixed materials approach to further structural optimization was developed under this Project and validated with extensive laboratory structural testing. This approach substitutes fiber-reinforced plastic (FRP) for steel where appropriate. The benefits of steel are maintained where most useful, for instance at structural joints where the stiffness of steel is required, and the complex geometry is more readily fabricated with steel. However, there are structural spans whose simple shapes are readily fabricated with mandrel-wound FRP and where significant cost and weight savings can be found. An adhesive, double lap shear joint is used to join the FRP and steel subcomponents
},
url = {https://mhkdr.openei.org/submissions/352},
year = {2020},
howpublished = {MHKDR, Columbia Power Technologies, Inc., https://mhkdr.openei.org/submissions/352},
note = {Accessed: 2026-03-06}
}
Details
Data from Aug 5, 2020
Last updated Aug 5, 2025
Submitted Dec 6, 2020
Organization
Columbia Power Technologies, Inc.
Contact
Pukha Lenee-Bluhm
541.368.5033
Authors
Original Source
https://mhkdr.openei.org/submissions/352Research Areas
Keywords
MHK, Marine, Hydrokinetic, Renewable Energy, Wave Energy Converter, Offshore, Hybrid Materials, Structure, Hull, FRP, Fiber-reinforced plastic, LCOEDOE Project Details
Project Name WAVE ENERGY CONVERTER STRUCTURAL OPTIMIZATION THROUGH ENGINEERING AND EXPERIMENTAL ANALYSIS
Project Lead Yana Shininger
Project Number EE0006610
