Nuclear salt-water rocket

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A nuclear salt-water rocket is a type of nuclear thermal rocket designed by Robert Zubrin that would be fueled by water bearing dissolved salts of plutonium or U²³⁵. These would be stored in tanks that would prevent a critical mass from forming by some combination of geometry or neutron absorption. The rocket would be powered by a nuclear-thermal reaction when the water was injected into a reaction chamber.

Calculations show that this rocket would have both very high thrust (1.3 x 10⁷ N, for one design) and a very high specific impulse (66 kN·s/kg for the same design), a rare combination of traits in the rocket world.

The vessel's exhaust would contain radioactive isotopes, but these would be rapidly dispersed after traveling only a short distance; the exhaust would also be traveling at high speed (in Zubrin's scenario, faster than Solar escape velocity, allowing it to eventually leave the Solar System).

See also: spacecraft propulsion

[edit] External links

• Nuke Your Way to the Stars

[edit] References

• R. Zubrin, "Nuclear Salt Water Rockets: High Thrust at 10,000 sec ISP", Journal of the British Interplanetary Society 44, 371-376 (1991)

v • d • e Nuclear propulsion
Spacecraft	Antimatter catalyzed nuclear pulse propulsion • Bussard ramjet • Fission-fragment rocket • Fission sail • Fusion rocket • Gas core reactor rocket • Nuclear electric rocket • Nuclear photonic rocket • Nuclear pulse propulsion • Nuclear salt-water rocket • Nuclear thermal rocket • Radioisotope rocket • The Orion project
Sea vessels	Nuclear marine propulsion • Nuclear navy
Aircraft	Nuclear aircraft