TY - CONF
TI - Design and Modeling of an Open-Source Baseline Floating Marine Turbine
AU - Wiley, W
AU - Ross, H
AU - Sundarrajan, A
AU - Tran, T
AB - Marine energy resources such as river, tidal, and ocean currents can provide abundant, predictable, and clean power to both densely populated and remote communities globally. However, marine energy technologies are still in an early stage of development. Recently, features have been added to the National Renewable Energy Laboratory’s open-source wind turbine modeling tool OpenFAST to support the simulation of axial-flow marine turbines. These new features enable marine energy developers to predict the performance and safety of their turbines and allow researchers and students to advance the field through the exploration of novel designs. Developing and demonstrating the new capabilities of OpenFAST for marine turbines requires a baseline design that can be used as an example and test case. There are limited open-source turbine models suitable for this purpose. One existing baseline design is the Reference Model 1 (RM1), a fixed-bottom, dual-rotor marine turbine that was published in 2011 as part of the U.S. Department of Energy’s Marine Renewable Energy Reference Model program. To test and demonstrate OpenFAST’s ability to model floating marine turbines, several modifications were made to the RM1. A floating platform and mooring system were designed to support a single RM1 rotor in a wide range of possible current and wave conditions. The system and model are intended to be a stable reference case and starting point for research efforts. The platform features familiar design elements from the offshore wind industry, including cylindrical members and a mooring system with simple catenary chains. While not optimized for the lowest platform cost, these design elements make the baseline platform robust and relatively simple to analyze. This is a useful starting point for studies to explore new technologies or design methodologies. Additionally, the floating RM1 design enables cross-collaboration among industry, academia, and national lab researchers and serves as an educational platform for newcomers to marine energy. This short paper presents the specifications of the turbine, including its floating support structure and mooring system. The rationale behind the selection of certain design parameters is described. To enable adoption of this baseline case for research and educational efforts, an OpenFAST model of the full system has been made publicly available at https://github.com/OpenFAST/r-test/tree/main/glue-codes/openfast/MHK_RM1_Floating.
DA - 2023/10//
PY - 2023
UR - https://www.nrel.gov/docs/fy24osti/87249.pdf
LA - English
KW - Current
KW - Axial Flow Turbine
KW - Modeling
KW - Performance
KW - Structural
ER -