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High Bit
Initialized Capital
Orbital Operations: Rewriting Orbital Physics for Space Mobility
37 minutes Posted Oct 16, 2025 at 8:47 pm.
Orbital Operations is building high-thrust, cryogenic spacecraft designed to move freely in orbit—reshaping how we think about mobility, defense, and logistics in space.Cofounder & CEO Benjamin Schleuniger joins Initialized Managing Partner Brett Gibson on High Bit to talk about the next generation of spacecraft that will move, refuel, and think for themselves:Why satellites need to move — the rise of in-space mobilityHow cryogenic propulsion unlocks long-duration missionsThe refrigeration-cycle tech enabling propellant storage in orbitMilitary and logistics use cases driving demandRefueling with water to extend mission lifeThe third age of space mobility and what it enablesHow AI and autonomy will power future spacecraftChapters
Intro
What Orbital Operations is building and why it matters
Ben’s path: NASA → SpaceX → Relativity
Why satellites need to move now
Basics of propulsion and why mobility is limited in space
Satellites vs rockets: propellant tradeoffs
Choosing cryogenic propellants and rethinking storage
The refrigeration-cycle system that makes it possible
Thermal management and engineering challenges in orbit
Military and logistics use cases for in-space mobility
Refueling with water and the future of orbital logistics
Engineering vs. business challenges of building in space
Scaling missions and the path to commercial viability
The third age of space mobility and what comes next
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Orbital Operations is building high-thrust, cryogenic spacecraft designed to move freely in orbit—reshaping how we think about mobility, defense, and logistics in space.Cofounder & CEO Benjamin Schleuniger joins Initialized Managing Partner Brett Gibson on High Bit to talk about the next generation of spacecraft that will move, refuel, and think for themselves:Why satellites need to move — the rise of in-space mobilityHow cryogenic propulsion unlocks long-duration missionsThe refrigeration-cycle tech enabling propellant storage in orbitMilitary and logistics use cases driving demandRefueling with water to extend mission lifeThe third age of space mobility and what it enablesHow AI and autonomy will power future spacecraftChapters(00:00) Intro(01:10) What Orbital Operations is building and why it matters(01:26) Ben’s path: NASA → SpaceX → Relativity(02:17) Why satellites need to move now(04:30) Basics of propulsion and why mobility is limited in space(05:55) Satellites vs rockets: propellant tradeoffs(08:30) Choosing cryogenic propellants and rethinking storage(10:15) The refrigeration-cycle system that makes it possible(17:00) Thermal management and engineering challenges in orbit(22:30) Military and logistics use cases for in-space mobility(25:40) Refueling with water and the future of orbital logistics(27:50) Engineering vs. business challenges of building in space(30:50) Scaling missions and the path to commercial viability(33:30) The third age of space mobility and what comes next(35:20) AI tools in aerospace and autonomy in orbitSubscribe to High Bit for more conversations with technical founders building what’s next, hosted by Brett Gibson of Initialized Capital.Follow Orbital Operations and Benjamin Schleuniger on X for more:@OrbitalOps_@BenSchleuniger