Karim-bakhtyar/Optimus-Syria-WEC
Sep 2025 – Oct 2025
2 Months active
Languages Used
FortranGitignoredatConfigurationMATLABN/AText
Technical Skills
AerodynamicsCFDControl SystemsVersion ControlWind Energy SimulationWind Turbine Simulation
MirzaDincer
PROFILE
Mirzadincer
Karim Bakhtyar developed robust wind turbine simulation workflows in the Karim-bakhtyar/Optimus-Syria-WEC repository, focusing on both the IEA-15-240-RWT and IEA 3.4 MW models. He consolidated aerodynamic and control system configurations using OpenFAST and ROSCO, integrating extensive airfoil and polar data to improve simulation fidelity. Karim tuned startup conditions, aligned controller compatibility, and enhanced repository hygiene through code cleanup and .gitignore updates. He also authored clear documentation to streamline onboarding and reproducibility. His work, primarily in MATLAB, Fortran, and configuration files, delivered stable, high-fidelity simulation environments that support accurate performance analysis and efficient future development for wind energy research.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
15Total
Bugs
0
Commits
15
Features
8
Lines of code
245,766
Activity Months2
Work History
October 2025
8 Commits • 5 Features
Oct 1, 2025October 2025 monthly summary for Karim-bakhtyar/Optimus-Syria-WEC: Focused on delivering a stable OpenFAST/ROSCO-based workflow for the IEA 3.4 MW model, with foundational data, configuration compatibility updates, startup tuning, repository cleanup, and enhanced documentation. These efforts deliver business value by enabling accurate simulations, reducing integration risk, and accelerating future development.
8 Commits • 5 Features
Oct 1, 2025October 2025 monthly summary for Karim-bakhtyar/Optimus-Syria-WEC: Focused on delivering a stable OpenFAST/ROSCO-based workflow for the IEA 3.4 MW model, with foundational data, configuration compatibility updates, startup tuning, repository cleanup, and enhanced documentation. These efforts deliver business value by enabling accurate simulations, reducing integration risk, and accelerating future development.
October 2025
September 2025
7 Commits • 3 Features
Sep 1, 2025September 2025 monthly summary for Karim-bakhtyar/Optimus-Syria-WEC: Focused on delivering robust OpenFAST-based wind turbine simulation capabilities and improving repository hygiene to enhance reproducibility and collaboration. Key features delivered include a consolidated IEA-15-240-RWT wind turbine simulation setup with ElastoDyn, ServoDyn, and OpenFAST configurations plus expanded AF00-AF49 airfoil and polar data to improve aerodynamic fidelity; a gust-resilient controller demonstration (FB, FBFF) with MATLAB scripts to illustrate performance under extreme gusts; and a repository hygiene update to ignore temporary simulation outputs. No major defects were reported; instead, the month delivered tangible business value by enabling higher fidelity simulations, repeatable analyses under gust conditions, and cleaner version control. Technologies demonstrated: OpenFAST suite, MATLAB scripting, airfoil/polar data management, and Git hygiene.
September 2025
7 Commits • 3 Features
Sep 1, 2025September 2025 monthly summary for Karim-bakhtyar/Optimus-Syria-WEC: Focused on delivering robust OpenFAST-based wind turbine simulation capabilities and improving repository hygiene to enhance reproducibility and collaboration. Key features delivered include a consolidated IEA-15-240-RWT wind turbine simulation setup with ElastoDyn, ServoDyn, and OpenFAST configurations plus expanded AF00-AF49 airfoil and polar data to improve aerodynamic fidelity; a gust-resilient controller demonstration (FB, FBFF) with MATLAB scripts to illustrate performance under extreme gusts; and a repository hygiene update to ignore temporary simulation outputs. No major defects were reported; instead, the month delivered tangible business value by enabling higher fidelity simulations, repeatable analyses under gust conditions, and cleaner version control. Technologies demonstrated: OpenFAST suite, MATLAB scripting, airfoil/polar data management, and Git hygiene.
Activity
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Quality Metrics
Correctness96.0%
Maintainability97.4%
Architecture97.4%
Performance93.4%
AI Usage20.0%
Skills & Technologies
Programming Languages
ConfigurationFortranGitignoreMATLABN/ATextdat
Technical Skills
Aerodynamic ModelingAerodynamicsCFDCode CleanupConfiguration ManagementControl SystemsControl Systems ConfigurationData ManagementDocumentationFile ManagementOpenFASTROSCOROSCO ControllerVersion ControlWind Energy Simulation
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