Bipropellant Thrusters
Rocket Engines Designed for Demanding Rapid-Response Operations
Bipropellant Thrusters
ECAPS delivers bipropellant propulsion systems engineered for missions requiring higher thrust, rapid ignition, and performance tuning beyond monopropellant architectures.
Built on ECAPS’ ADN-based propulsion heritage, these systems combine advanced fuels, including LMP-103S, with selected oxidizers to achieve optimized performance across space, high-altitude, and demanding terrestrial environments.
Mission Capabilities
High-performance propulsion tailored for time-critical and high-demand mission requirements.
Higher thrust levels within compact propulsion systems
Short-to-intermediate and long burn durations
Rapid-response or time-critical maneuvers
Performance optimization through fuel–oxidizer pairing
Supported Operational Environments
Designed for reliable operation across atmospheric, high-altitude, and exo-atmospheric environments.
Critical Mobility Applications
Upper Stage Mobilization
Orbital Transfers & Pointing Mechanisms
Advanced Aircraft Mobility
Advanced Tug Operations
Thrust Capability Envelope
Indicative thrust classes and operational profiles illustrating the configurability of ECAPS bipropellant propulsion systems.
System Customizability & Performance Tuning
Thruster configuration and integration based on missions requirements
Mission-Driven Propellant & Oxidizer Tuning: Performance optimisation aligned to mission requirement
Configurable Thrust & Duty Cycles:
Adaptation to mission duration and response needs
Modular Thruster & Feed-System Architecture: System scalability and integration flexibility
Ignition & Thermal Management Optimisation: Reliable performance across operational environments
Adaptable Interfaces & Integration Support: Alignment with diverse spacecraft and platform architectures
Learn more about ECAPS’ bipropellant thrusters
ECAPS technologies power critical mobility in space and defense.