flipoyo/MOLONARI1D
Oct 2025 – Nov 2025
2 Months active
Languages Used
MarkdownPython
Technical Skills
Jupyter NotebookPythonPython programmingboundary condition analysisdata analysisdata visualization
Eliot Delachaux
PROFILE
Eliot Delachaux
Eliot Delachaux enhanced the flipoyo/MOLONARI1D repository by developing a 2D numerical solver for the Molonari equations, enabling simulation of lateral water flow effects on temperature and charge distributions. He approached this by extending the existing Python codebase and leveraging Jupyter Notebook for data analysis and visualization, while also restructuring documentation to clarify boundary condition coefficients and numerical methods. Eliot further improved onboarding and maintainability by updating READMEs and removing outdated files. In November, he focused on refining documentation, correcting descriptions of numerical schemes and stability conditions, which reduced onboarding time and minimized misconfiguration risks for future contributors.
Overall Statistics
Feature vs Bugs
67%Features
Repository Contributions
7Total
Bugs
1
Commits
7
Features
2
Lines of code
2,243
Activity Months2
Your Network
45 peopleShared Repositories
45
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Ombline BrunetMember
Work History
November 2025
1 Commits
Nov 1, 2025November 2025 monthly summary for flipoyo/MOLONARI1D focused on documentation quality improvements for numerical schemes. Updated the README to correct descriptions of numerical schemes related to the parameter α in the linear system equations and clarified the associated stability conditions. These changes enhance accuracy, reduce onboarding time, and lower the risk of misconfiguration for implementers.
1 Commits
Nov 1, 2025November 2025 monthly summary for flipoyo/MOLONARI1D focused on documentation quality improvements for numerical schemes. Updated the README to correct descriptions of numerical schemes related to the parameter α in the linear system equations and clarified the associated stability conditions. These changes enhance accuracy, reduce onboarding time, and lower the risk of misconfiguration for implementers.
November 2025
October 2025
6 Commits • 2 Features
Oct 1, 2025Month 2025-10 focused on delivering core solver enhancements and improving project maintainability for flipoyo/MOLONARI1D. Key deliverables include a 2D Molonari Equation Solver Enhancement that introduces a 2D numerical resolution, emphasizing lateral water flow contributions to temperature and charge equations. Documentation and project structure updates were completed to clarify calculations, reorganize the repository, explain boundary condition coefficients, add a dedicated 1D numerical resolution README, and remove an outdated notebook to streamline the codebase. No major bugs were reported this month; the work substantially improves modeling capabilities, onboarding, and maintainability.
October 2025
6 Commits • 2 Features
Oct 1, 2025Month 2025-10 focused on delivering core solver enhancements and improving project maintainability for flipoyo/MOLONARI1D. Key deliverables include a 2D Molonari Equation Solver Enhancement that introduces a 2D numerical resolution, emphasizing lateral water flow contributions to temperature and charge equations. Documentation and project structure updates were completed to clarify calculations, reorganize the repository, explain boundary condition coefficients, add a dedicated 1D numerical resolution README, and remove an outdated notebook to streamline the codebase. No major bugs were reported this month; the work substantially improves modeling capabilities, onboarding, and maintainability.
Activity
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Quality Metrics
Correctness100.0%
Maintainability94.4%
Architecture97.0%
Performance94.4%
AI Usage20.0%
Skills & Technologies
Programming Languages
MarkdownPython
Technical Skills
Jupyter NotebookPythonPython programmingboundary condition analysisdata analysisdata visualizationdocumentationfile managementhydraulic engineeringmathematicsnumerical analysisnumerical methodsnumerical modelingscientific computingthermodynamics
Repositories Contributed To
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