At Orbital Operations, we’re developing a high thrust space vehicle for satellite defense. Our mission is to enable rapid-response orbital capabilities, executing maneuvers without hesitation and without regret.

About Orbital Operations

At Orbital Operations, we’re building the future of dynamic space maneuvering. Our mission is to enable rapid-response orbital capabilities, executing maneuvers without hesitation and without regret.

Our flagship technology, the Cryogenic Propulsion Management System (CPMS), is redefining what’s possible in space mobility. Designed for military and commercial spacecraft, CPMS delivers sustained, high-thrust maneuverability in geosynchronous and cislunar orbits. It integrates low-loss cryogenic storage, reverse Brayton cycle (RBC) thermal control, and turbomachinery-driven propulsion to make spacecraft more agile, resilient, and responsive.

Beyond defense, CPMS is poised to transform commercial orbital logistics. By powering next-generation orbital transfer vehicles (OTVs), it can slash LEO-to-GEO transit times from six months to just eight hours—unlocking new possibilities for satellite servicing, deployment, and beyond.

Join us in building the infrastructure for a more maneuverable and mission-ready space domain.

Description

As a Structures Design Engineer on this space vehicle program, you’ll play a key technical role and contribute to shaping engineering standards for pressurized structures, thrust frames, and integrated fluid systems. You’ll serve as the Responsible Engineer for major vehicle subsystems—owning the hardware from initial requirements through design, development, analysis, fabrication, testing, vehicle integration, and ultimately flight. We’re a small, driven team, so you’ll need to collaborate closely across disciplines with both engineers and technicians to move quickly. You’ll also be hands-on with your designs, with opportunities to build and test your own hardware—so expect to roll up your sleeves and work shoulder-to-shoulder with the shop and integration teams.

Qualifications

• 3+ years minimum experience in working in aerospace structures or fluids
• Designed, built and tested hardware
• Demonstrated proficiency with CAD software and analysis software (ANSYS preferred), should be able to talk to multiple examples of both
• Ability to determine appropriate level of work for a problem (from hand calcs to multi-physics finite element solutions) and execute the work accordingly
• Familiarity with launch vehicle design desired (cryogenic propellant familiarity preferred)
• Excellent written and verbal communication
• Bachelor’s degree in engineering

Responsibilities

• Define the structural and major fluids design of the rocket in coordination with owners of other portions of the vehicle
• Procure and manage all hardware for components and structures that you own
• Work to get your hardware built, tested and integrated onto the vehicle
• Help build design tools and guidelines that will accelerate development of components

Our Cryogenic Propellant Management System (CPMS) allows us to store liquid hydrogen and liquid oxygen out in orbit. Designed for our Astraeus spacecraft, the CPMS paired with a 10,000 lbf engine enables high efficiency, high-thrust maneuverability in low earth, geosynchronous, and cislunar orbits.

Beyond defense, Astraeus is poised to transform commercial orbital logistics. It can slash LEO-to-GEO transit times from six months to just eight hours—unlocking new possibilities for satellite servicing, deployment, and beyond.