Nuclear-powered laser satellite is science fiction
A nuclear-powered laser satellite is science fiction. It is difficult enough to operate a nuclear reactor on the ground. It is currently virtually-impossible to operate a nuclear reactor in the cold of space at −270 °C.
Look at the above diagrams for a nuclear reactor.
1. Where are you going to find gigantic cooling towers to quickly remove the heat from the reactor coolant in space?
2. For that matter, what coolant will you use? Water freezes at 32 °C. Space is −270 °C. The primary water supply exits the reactor core at 330 °C. How do you insulate the reactor at exactly the right temperature from −270 °C? If the insulation is insufficient, all of the heat escapes to space. If the insulation is excessive, heat builds up and the nuclear reactor will eventually start to melt.
3. There is no gravity. Compressors will be needed to pump the coolant every step of the way. Greater number of compressors increases the probability of a pump failure. Who's going to expeditiously diagnose failures of an orbiting nuclear reactor and make the repairs?
4. Experience has shown that they can't reliably fix the toilet on the International Space Station. What makes you think that they can reliably maintain and operate an extremely-complex nuclear reactor in space?
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Crisis in Orbit: Space-Station Toilet Breaks Down
Wednesday, May 28, 2008"
5. Nuclear reactors have thick containment buildings in the event of an accident. Are you proposing to place a nuclear reactor into space without extremely thick containment? How will you manage to launch all those unimaginable tons of containment into space?
6. How do you plan on removing the nuclear waste from the orbiting nuclear reactor? How do you plan on replacing the nuclear fuel rods?
7. Earth-based nuclear reactors have operators that monitor them constantly. Do you feel comfortable with only remote monitoring? In other words, whatever the instrument data tells you, that's all you've got. What if there is a malfunction among the gazillion sensors? Unlike Earth-based nuclear reactors, how will you handle routine maintenance and repairs?
8. Just exactly how do you proceed with a major overhaul of a nuclear reactor in space? How do you dismantle the numerous and critical parts and replace them with only two astronauts in bulky space suits with limited spacewalk time and who are not experts in nuclear reactor maintenance?
9. Near-Earth outer space pressure is 100 micro-Pascals. The primary water of the reactor core exits at 16 Mega-Pascals. How do you intend to resolve the pressure differences?
10. It takes days to fuel and power up a nuclear reactor. I will assume that you want the space-based nuclear reactor on standby to power a laser. Since the reactor is constantly in operation, how do you intend to get rid of the mega-watts of power that is generated?
11. There are constant coolant leaks from nuclear reactors. However, a coolant leak in a closed-system in space would be catastrophic. How do you intend to build a nuclear reactor with guaranteed "no coolant leaks"?
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Leaking Vermont Yankee nuclear power plant shutdown ordered as Obama pledges $50 billion for nuclear power
February 25, 2010"
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Coolant leak reported at Takahama nuclear power plant
Saturday 08th May, 05:03 AM JST
FUKUI —
About 2.5 liters of primary coolant containing radioactive substances leaked in April in a facility housing the coolant tank for one of four reactors at the Takahama nuclear power plant in Fukui Prefecture, its operator Kansai Electric Power Co said Friday.
Kansai Electric said the coolant leakage at the No. 4 reactor did not affect the environment as the amount of radioactive leakage was small and below the level required for reactor operators to report to the central government. Company technicians confirmed the coolant leakage after an alarm went off at around 3:45 p.m. on April 16 while the reactor was undergoing regular checking, it said.
© 2010 Kyodo News. All rights reserved. No reproduction or republication without written permission."
12. Can you cite an example of a nuclear reactor of any size that has been proven to reliably operate in space for years?
13. Can you cite an example of a compact nuclear reactor that has been proven to reliably operate on Earth for years?
14. There is no margin for error in a space-based closed-system nuclear reactor. How will you guarantee a no-defect and perfect system for many years of operation? Can you cite an example of an extremely complex system with innumerable parts that operate at extremely high temperatures and pressures without fail for years at a time?
15. An orbiting nuclear reactor will require heavy shielding. On Earth, heavy shielding protects human workers and nearby residents. In space, heavy shielding is necessary to prevent irradiation of other orbiting satellites. How do you plan on launching and installing unimaginable tons of heavy shielding into space?
16. What is your contingency plan in the event that the nuclear reactor de-orbits and is headed for a populated city? How do you plan on paying for the astronomical damages?
17. To serve an useful purpose, a space-based nuclear-powered satellite will have to pass over its intended targets in China. When the orbiting satellite passes over China, it is vulnerable to being shot down by ASAT.
18. In low earth orbit, at an altitude of roughly 500 km, the satellite will be traveling at 22,000 miles per hour. How do you intend on keeping a steady beam on an ICBM for two minutes from a platform that is moving at extreme speed?
"When a satellite circles close to Earth we say it's in Low Earth Orbit (LEO). Satellites in LEO are just 200 - 500 miles (320 - 800 kilometers) high. Because they orbit so close to Earth, they must travel very fast so gravity won't pull them back into the atmosphere. Satellites in LEO speed along at 17,000 miles per hour (27,359 kilometers per hour)! They can circle Earth in about 90 minutes."
19. Hypothetically speaking, let's pretend that you've solved all of the unbelievable engineering problems. What is the point in building an unimaginably expensive space-based nuclear-powered laser satellite? How are you going to stop all of those expected Chinese killer-satellites?
Space favors the attacker. A destroyed satellite spews tens of thousands of high-speed fragments. China can easily send one of its satellites on an intercept trajectory and detonate it to create a cone of destruction headed for the nuclear-powered satellite.
My final verdict: Nuclear-powered laser satellite is science fiction.
