Asteroid Mining to Sustain a Mars Colony: A Logistics Point of View
Serena Suriano, Shamil Biktimirov, Dmitry Pritykin, Anton Ivanov
TLDR
This paper explores the feasibility of asteroid mining to supply metals and propellant for a sustainable Mars colony, optimizing supply chains.
Key contributions
- Feasibility study of supply chains delivering metals from asteroids to a Mars colony.
- Optimizes asteroid selection and mission parameters based on ΔV, metal mass, and propellant production.
- Integrates in-situ resource utilization, including propellant production from carbonaceous asteroids.
- Discusses additive manufacturing on Mars using mined materials for habitats and rovers.
Why it matters
This paper provides a crucial logistics framework for sustaining a Mars colony through asteroid mining. It addresses the challenge of material scarcity by proposing optimized supply chains for metals and propellants. This research is vital for future long-term space colonization efforts.
Original Abstract
Asteroid mining can become an enabling technology to establish a sustainable manned colony on Mars, which requires metallic materials more often than they are readily available in shipments from Earth. This paper describes a feasibility study of a supply chain that delivers metals extracted from metallic asteroids to Mars. The asteroids are selected to respect the $ΔV$ limits imposed by up-to-date spacecraft. The study is conducted with reference to the state of the art in space transportation technologies and in-situ resource utilization. A possibility for mining on carbonaceous asteroids to produce the propellant required for return trips is also taken into account. Different supply chains are computed through a multi-objective optimization routine that considers the mission $ΔV$, the mass of extracted metals and the mass of propellant produced on the asteroids. Schedules to visit the asteroids within reach are obtained and the total mass of the delivered material is evaluated for various mining rates. Finally, the use of the metallic material to build habitats and rovers on the Martian soil through additive manufacturing is discussed.
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