Quantum CFD System for CubeSat in Space

1. Problem Definition

Define CubeSat parameters: mass, material, dimensions
Model environment: solar flares, EM fields
Set initial position of CubeSats in 3D space

2. Classical CFD Model

Select solver: FVM / FEM / LBM
Setup magnetic-hydrodynamic (MHD) equations
Input flare event as boundary condition

3. Quantum Algorithm Design

Quantum state encoding of fluid fields
Apply quantum linear solvers (HHL or custom)
Simulate entangled interactions & pathing

4. Hybrid Solver Execution

Classical preprocessing & mesh
Quantum computation for PDE solving
Post-process: EM field, torque, collision

5. Result Analysis

CubeSat reaction to solar flares
Probabilistic path prediction
Visualization: 3D plots, vector heatmaps

6. Applications

CubeSat shielding & orientation planning
Path prediction in space clusters
Quantum + space systems co-simulation