GS 3: Science & TechnologyGS 2: International RelationsPrelims

The science, technology, and pitfalls of using nuclear power in space, PgII

Lunar Fission Surface Power Project aims to deploy nuclear reactor on moon, sparking debate on safety and legal framework.

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Key Highlights:

  • The US plans to deploy a small nuclear reactor on the moon by the early 2030s under the Lunar Fission Surface Power Project.
  • Radioisotope thermoelectric generators (RTGs) have powered spacecraft like Voyager, but produce limited power.
  • Compact fission reactors, about the size of a shipping container, can generate tens to hundreds of kilowatts.
  • The 1992 United Nations Principles offer a framework for nuclear power in space but have limitations.
  • India has the potential to lead in deep-space innovation by developing a space reactor through ISRO and the Department of Atomic Energy.

Detailed Insights:

  • Lunar nights lasting two weeks and limited sunlight at the poles constrain solar energy, making nuclear power essential for sustained lunar and Mars presence.
  • Nuclear reactors buried beneath the Martian regolith could provide shielding from cosmic radiation while producing large amounts of energy for habitats and resource utilization.
  • Nuclear thermal propulsion could shorten trips to Mars, reducing crew exposure to cosmic rays, while nuclear electric propulsion offers efficient thrust for deep-space probes.
  • The 1992 UN Principles lack binding technical standards for reactor design, operational limits, and disposal, creating governance gaps in space nuclear activities.
  • The Outer Space Treaty, the Liability Convention, and the Nuclear Non-Proliferation Treaty offer partial coverage but lack protocols for preventing radioactive contamination of celestial bodies.
  • Updating the legal framework to include propulsion reactors, establish safety benchmarks, and define disposal standards is crucial to prevent accidents and ensure responsible nuclear practices.
  • A multilateral oversight mechanism, similar to the International Atomic Energy Agency, could certify designs, verify compliance, and enhance transparency in space nuclear activities.

Key Concepts Involved:

  • Radioisotope Thermoelectric Generators (RTGs): Devices converting heat from radioactive decay into electricity.
  • In-Situ Resource Utilisation: Converting resources available on other planets into useful materials.
  • Nuclear Thermal Propulsion: Heating a propellant with nuclear decay and expelling it for thrust.
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