Simulation Visualization
Watch the oil injection simulation in the hot sphere geometry. This visualization shows the complex multiphase flow patterns and heat transfer phenomena.
Project Overview
This comprehensive analysis presents a Conjugate Heat Transfer (CHT) simulation for oil injection in a hot sphere geometry. The study demonstrates advanced multiphase flow modeling techniques, combining fluid dynamics with thermal analysis to understand complex heat transfer phenomena in industrial applications.
Key Features:
- Conjugate Heat Transfer Analysis
- Multiphase Flow Modeling
- Oil Injection Simulation
- Thermal-Fluid Coupling
Technical Highlights:
- Advanced CFD Solver
- VOF Method Implementation
- Heat Transfer Coefficients
- Temperature Distribution Analysis
Methodology
The simulation employs state-of-the-art computational fluid dynamics techniques to model the complex interaction between oil injection and heat transfer in a spherical geometry. The methodology includes:
Heat Transfer
Conjugate heat transfer analysis with thermal boundary conditions and heat flux calculations.
Multiphase Flow
Volume of Fluid (VOF) method for tracking oil-air interface and phase distribution.
Geometry Modeling
Complex spherical geometry with injection ports and thermal boundary conditions.
Results Summary
The analysis provides detailed insights into the thermal and fluid dynamic behavior of oil injection in hot sphere conditions. Key findings include temperature distribution patterns, heat transfer coefficients, and flow characteristics that are essential for industrial design optimization.