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CACTUS (Code for Axial and Cross-flow TUrbine Simulation)
CACTUS (Code for Axial and Cross-flow TUrbine Simulations), developed at Sandia National Laboratories, is a turbine simulation code based on a free wake vortex method.
Compiling
CACTUS can be compiled via CMake. For details, see doc/compile.md
Tests
Simple regression tests are included. After compiling, navigate to test/RegTest/ and run:
PATH=$PATH:../../bin pytest runreg.py
Directory Structure
bin: Default target for compiled executablesDAKOTA: DAKOTA drivers (by Jon Murray) and examplesdoc: Documentation -- user's manual, install instructions, DAKOTA drivers manual, relevant publicationsmake: Makefiles for various compilers and platformssrc: Source codetest: Test cases (regression tests, example HAWT/VAWT input files, airfoil files)
Post-processing
Tools for post-processing data from CACTUS simulations are available in the CACTUS-tools repository.
References
For details about the development of CACTUS, please see
- Murray, J., and Barone, M., “The Development of CACTUS, a Wind and Marine Turbine Performance Simulation Code,” 49th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, Reston, Virginia: American Institute of Aeronautics and Astronautics, 2011, pp. 1–21.
Disclaimer
A CACTUS model V&V studies (Michelen et al. 2014, Wosnik et al. 2016) for cross-flow hydrokinetic turbines demonstrated it accurately predicts performance characteristics for axial-flow turbines, but it should not be used for cross-flow geometries.
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Michelen, C., V.S. Neary, J. Murray, and M. Barone, M. (2014). CACTUS open-source code for hydrokinetic turbine design and analysis: Model performance evaluation and public dissemination as open-source tool. Proceedings of 2nd Marine Energy Technology Symposium 2014 (METS2014), at the 7th Annual Global Marine Renewable Energy Conference (GMREC 2014), Seattle, WA, April 15-18.
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Wosnik M., Bachant P., Neary V.S., and A.W. Murphy (2016). Evaluation of Design & Analysis Code, CACTUS, for Predicting Cross-flow Hydrokinetic Turbine Performance. SAND2016-9787, September 2016. 34 pages.