Advanced ground infrastructure to simulate altitude, velocity, and thermal environments for aerospace propulsion systems.
Render: Cross-section of our recirculating test tunnel and cryo testbed
Purpose-Built Testing Infrastructure
Our in-house Engine Testing Facility is engineered to validate high-performance propulsion systems under real-world conditions.
Designed for flexibility, the facility supports both **aerodynamic engine testing** and **cryogenic propulsion verification** through
a modular architecture and controlled environmental feedback loops.
Recirculating High-Velocity Air Tunnel
๐ Closed-Loop Recirculation: A hybrid metal-concrete structure forms a high-durability air circuit
๐จ Velocity Simulation: Airflow is accelerated to 750 km/h using axial booster fans and thermal preconditioning
๐ก๏ธ Altitude Mimicry: Pressure and temperature controls replicate upper-atmosphere density and composition
๐ Efficient Air Cycling: Recirculated air reduces resource usage and enables continuous test cycles
๐ซ Aero Engine Support: Ideal for testing FADEC-controlled jet and turbofan engines under real dynamic load
Cryogenic Propulsion Test Bay
Adjacent to the air tunnel, our cryogenic bay is designed for static fire and pressure-fed system trials. Shielded, sensor-rich,
and deeply instrumented, this zone enables safe, repeatable tests of **LOX/LHโ** engines with regenerative cooling jackets.
๐ Stage-Agnostic: Supports single engine modules or integrated vehicle cores
๐ Thrust Capacity: Rated for up to 100 tons static load with active thrust-vector logging
๐ง Fueling Support: Liquid oxygen and liquid hydrogen cryo tankage with boil-off management
๐ก Sensor Integration: 300+ channels of thermal, vibrational, and vector telemetry
Instrumentation & Control Systems
๐ถ Real-time data streaming to mission control interface
โ ๏ธ Automated abort and safety envelope response system
๐ฏ PID-tuned airflow control for replicating engine load curves
๐ Full-flight profile emulation for high-altitude conditions
Use Cases
๐ ๏ธ Turbine engine development and stress validation
๐ฅ Hot-section durability trials under scaled air loads
๐งช Cryogenic engine startup/shutdown sequencing
๐ Preflight checkout for reusable stage core qualification
๐งฉ Thermal margin testing for regenerative cooled heat shields
Collaboration & Future Expansion
The facility is available for joint development with governmental, academic, and private partners. Future upgrades include vacuum
simulation chambers and variable-angle gimbal testing for orbital-stage reentry trials.
