Simulink Model of a New Energy EVG-005 5kW Hydropower Turbine

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Simulink model for a New Energy 5kW hydropower turbine.

ADCP data ("ds_streamwise_7_13.nc") and DC voltage, DC current, and rotor rotation observed from the New Energy EVG-005 Current Energy Converter (CEC) ("electrical_7_13_10ohms.nc") were collected at the Tanana River Test Site (TRTS) near Nenana Alaska.

- Data was collected on July 13th, 2023 with a constant 10 ohms resistance applied with a DC load bank.
- Simulink model is meant to resemble the electrical setup at the TRTS.
- Model is initialized by running the "NewEnergy_2023_10hz.m" Matlab script. Then the Simulink model ("New_Energy_Model_PMSM.slx") can be run.
- Results are processed with the "NewEnergy_2023_processing.m" Matlab code. The Matlab results are also saved in the "New_Energy_7_13_model_validation_results.mat" Matlab file. This can be directly loaded into the Matlab Workspace using the "Load()" command.
- The timetable variables "electrical_model_downsampled" is the model results and the "electrical_limited" is the experimental data from the TRTS.

Citation Formats

TY - DATA AB - Simulink model for a New Energy 5kW hydropower turbine. ADCP data ("ds_streamwise_7_13.nc") and DC voltage, DC current, and rotor rotation observed from the New Energy EVG-005 Current Energy Converter (CEC) ("electrical_7_13_10ohms.nc") were collected at the Tanana River Test Site (TRTS) near Nenana Alaska. - Data was collected on July 13th, 2023 with a constant 10 ohms resistance applied with a DC load bank. - Simulink model is meant to resemble the electrical setup at the TRTS. - Model is initialized by running the "NewEnergy_2023_10hz.m" Matlab script. Then the Simulink model ("New_Energy_Model_PMSM.slx") can be run. - Results are processed with the "NewEnergy_2023_processing.m" Matlab code. The Matlab results are also saved in the "New_Energy_7_13_model_validation_results.mat" Matlab file. This can be directly loaded into the Matlab Workspace using the "Load()" command. - The timetable variables "electrical_model_downsampled" is the model results and the "electrical_limited" is the experimental data from the TRTS. AU - Browning, Emily A2 - Cicilio, Phylicia A3 - Kasper, Jeremy A4 - Cotilla-Sanchez, Eduardo A5 - Jackson, Derek DB - Marine and Hydrokinetic Data Repository DP - Open EI | National Renewable Energy Laboratory DO - 10.15473/2008045 KW - MHK KW - Marine KW - Hydrokinetic KW - energy KW - power KW - CEC KW - cross flow turbine KW - technology KW - system model KW - processed data KW - code KW - MATLAB KW - Tanana River KW - Tanana River Test Site KW - Nenana KW - Alaska LA - English DA - 2023/07/13 PY - 2023 PB - University of Alaska Fairbanks T1 - Simulink Model of a New Energy EVG-005 5kW Hydropower Turbine UR - https://doi.org/10.15473/2008045 ER -
Export Citation to RIS
Browning, Emily, et al. Simulink Model of a New Energy EVG-005 5kW Hydropower Turbine. University of Alaska Fairbanks, 13 July, 2023, Marine and Hydrokinetic Data Repository. https://doi.org/10.15473/2008045.
Browning, E., Cicilio, P., Kasper, J., Cotilla-Sanchez, E., & Jackson, D. (2023). Simulink Model of a New Energy EVG-005 5kW Hydropower Turbine. [Data set]. Marine and Hydrokinetic Data Repository. University of Alaska Fairbanks. https://doi.org/10.15473/2008045
Browning, Emily, Phylicia Cicilio, Jeremy Kasper, Eduardo Cotilla-Sanchez, and Derek Jackson. Simulink Model of a New Energy EVG-005 5kW Hydropower Turbine. University of Alaska Fairbanks, July, 13, 2023. Distributed by Marine and Hydrokinetic Data Repository. https://doi.org/10.15473/2008045
@misc{MHKDR_Dataset_511, title = {Simulink Model of a New Energy EVG-005 5kW Hydropower Turbine}, author = {Browning, Emily and Cicilio, Phylicia and Kasper, Jeremy and Cotilla-Sanchez, Eduardo and Jackson, Derek}, abstractNote = {Simulink model for a New Energy 5kW hydropower turbine.

ADCP data ("ds_streamwise_7_13.nc") and DC voltage, DC current, and rotor rotation observed from the New Energy EVG-005 Current Energy Converter (CEC) ("electrical_7_13_10ohms.nc") were collected at the Tanana River Test Site (TRTS) near Nenana Alaska.

- Data was collected on July 13th, 2023 with a constant 10 ohms resistance applied with a DC load bank.
- Simulink model is meant to resemble the electrical setup at the TRTS.
- Model is initialized by running the "NewEnergy_2023_10hz.m" Matlab script. Then the Simulink model ("New_Energy_Model_PMSM.slx") can be run.
- Results are processed with the "NewEnergy_2023_processing.m" Matlab code. The Matlab results are also saved in the "New_Energy_7_13_model_validation_results.mat" Matlab file. This can be directly loaded into the Matlab Workspace using the "Load()" command.
- The timetable variables "electrical_model_downsampled" is the model results and the "electrical_limited" is the experimental data from the TRTS.}, url = {https://mhkdr.openei.org/submissions/511}, year = {2023}, howpublished = {Marine and Hydrokinetic Data Repository, University of Alaska Fairbanks, https://doi.org/10.15473/2008045}, note = {Accessed: 2025-04-23}, doi = {10.15473/2008045} }
https://dx.doi.org/10.15473/2008045

Details

Data from Jul 13, 2023

Last updated Oct 10, 2023

Submitted Sep 22, 2023

Organization

University of Alaska Fairbanks

Contact

Emily Browning

605.691.9842

Authors

Emily Browning

University of Alaska Fairbanks

Phylicia Cicilio

University of Alaska Fairbanks

Jeremy Kasper

University of Alaska Fairbanks

Eduardo Cotilla-Sanchez

Oregon State University

Derek Jackson

Oregon State University

DOE Project Details

Project Name Modeling the Integration of Marine Energy into Microgrids

Project Lead Bill McShane

Project Number EE0009445

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