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Simulação de escoamento multifásico permanente e transiente.

Project description

drawing


Marlim3 is a 1D multiphase flow simulator developed by Petrobras.

Core capabilities (steady-state and transient)

  • Production wells
  • Injection wells: Water or gas injection wells, both single-phase and multiphase
  • Networks
    • Production networks
    • Injection networks
    • Gas lift loops
  • Artificial Lift models: gas lift valves, pumps

Advanced modeling

  • Natural convection: 2D solutions for natural convection analysis in confined spaces (single-phase or two-phase), such as pipeline cross-sections during production shutdowns
  • Compositional fluid model library
  • Near wellbore model: radial and 2D models to consider phenomena such as water coning
  • Thermal diffusion: 2D and 3D coupled to the 1D flow model

Installation

Option 1: Install via pip

Install Marlim3 as a Python package:

pip install marlim3

Option 2: Use the executable directly

You can download the Marlim3 executable for Linux, Windows or Mac from the Releases section on GitHub. This standalone executable allows you to run simulations directly from the terminal, without the need to install the Python package. Detailed instructions are provided below.

Option 3: Developer setup (uv)

For development, use uv to manage the Python environment and dependencies.

Step 1 — Install dependencies and the Python package:

uv sync --locked --group dev

This creates a .venv with Python 3.12+, installs all dev tools (pytest, flake8, jupyter, etc.), and installs marlim3 in editable mode. After this step you can already use import marlim3 in your scripts:

uv run python -c "import marlim3; print(marlim3.__version__)"

Step 2 — Build and register the C++/Fortran executable (required to run simulations):

See Compilation below. After building, copy build/Marlim3 to marlim3/ and run:

MARLIM3_SKIP_BUILD=1 uv sync --locked

MARLIM3_SKIP_BUILD=1 skips local CMake compilation. Set MARLIM3_SKIP_EXECUTABLE_RESOLUTION=1 only when an import must not resolve or download the executable.

Usage

Option 1: Python Package

Use Marlim3 as a Python library in your scripts:

import marlim3

# Your simulation code here
# Example: configure and run simulations programmatically

For examples, refer to the tutorials available in the docs folder.

Option 2: Command-Line Executable

Run Marlim3 directly from the terminal using the compiled executable available in the Releases section on GitHub.

Available Commands

There are four simulation types available:

1. Simple Production System

./executable_name -d directory_name -i input_file

2. Simple Injection System

./executable_name -d directory_name -i input_file -s INJETOR

3. Flow Network

./executable_name -d directory_name -i input_file -s REDE

4. Natural Convection in Cross-Section

./executable_name -d directory_name -i input_file -s CONVECNAT

Command-Line Arguments

  • -d directory_name: Output directory for simulation results
  • -i input_file: Input file name (JSON format)
  • -s SIMULATION_TYPE: Simulation type (INJETOR, REDE, or CONVECNAT)

Platform-Specific Notes

Linux/macOS:

./Marlim3 -d ./output -i simulation.json -s REDE

Windows:

Marlim3.exe -d .\output -i simulation.json -s REDE

Tip: To export results to the current working directory, use ./ (Linux/macOS) or .\ (Windows) as the directory name.

Compilation

Compilation is only necessary if you need to rebuild the executable from source.

Requirements

  • GCC/G++ >= 9.0
  • GFortran >= 9.0
  • CMake >= 3.16

Build the executable

The project uses CMake presets. Available presets:

Preset Platform Description
gcc-release / gcc-debug Linux / macOS GCC portable build with GNU runtime linking configured by CMake
mingw-release / mingw-debug Windows MinGW portable build with full static linking
clang-release / clang-debug Linux / macOS Clang 20 + GFortran portable build

Release assets are built and tested for Linux x64, Windows x64, and macOS ARM64.

Linux / macOS

cmake --preset gcc-release
cmake --build --preset gcc-release -j$(nproc)

Windows (MSYS2 / MinGW64)

Ensure g++ and gfortran are in your PATH (e.g., via MSYS2 with the mingw-w64-x86_64-gcc and mingw-w64-x86_64-gcc-fortran packages).

cmake --preset mingw-release
cmake --build --preset mingw-release -j%NUMBER_OF_PROCESSORS%

The resulting build/Marlim3.exe is fully statically linked and does not require external DLLs.

The compiled executable is placed at build/Marlim3.

To use it with the Python package, copy it to the marlim3/ directory:

cp build/Marlim3 marlim3/

Then activate the package locally (skipping recompilation):

MARLIM3_SKIP_BUILD=1 uv sync --locked

MARLIM3_SKIP_BUILD=1 skips local CMake compilation; installed packages can still download the release executable on import.

Run tests

uv run pytest tests/ -v

Run the GUI

uv sync --group gui
uv run streamlit run gui/app.py

The GUI auto-detects the executable from build/Marlim3.

Note

Several resources and portions of the source code are currently written in Portuguese. We plan to gradually translate all content into English.

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