Giant nuclear powered combustion engine

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Discussion Overview

The discussion explores the concept of a giant nuclear-powered piston engine, examining theoretical possibilities and existing projects like Project ORION and Project Pacer. Participants consider the feasibility of using nuclear explosions for propulsion in various forms, including piston engines and turbines, while addressing technical challenges and limitations.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • Some participants propose the idea of a nuclear piston engine, questioning its feasibility and suggesting it could be possible in theory.
  • Project ORION is mentioned as a relevant example of nuclear propulsion, where a spacecraft is propelled by nuclear detonations, but some argue that it does not represent a true piston engine.
  • Concerns are raised about the extreme heat and energy of nuclear explosions, which may render traditional piston engine designs impractical due to the vaporization of components.
  • Others suggest that a nuclear-powered reciprocating heat engine could be theorized, noting that turbines are generally more efficient, and referencing Project Pacer as a design that utilizes nuclear explosions to power turbines.
  • A participant introduces the idea of using electromagnetic fields to contain nuclear blasts and mentions a new material, carbon-carbon, that could withstand extreme heat.
  • There is a discussion about the potential for a fission-powered piston engine, but challenges related to neutron sources and energy efficiency are highlighted.
  • Concerns are raised regarding the overall efficiency of using nuclear devices for propulsion, questioning whether the energy required for detonation would offset the benefits.
  • Some participants clarify aspects of Project ORION, including the ablation of the pusher plate and the challenges associated with using a large number of detonators.

Areas of Agreement / Disagreement

Participants express a range of views on the feasibility of nuclear piston engines, with some supporting the idea and others arguing against it based on technical limitations. The discussion remains unresolved, with multiple competing perspectives on the topic.

Contextual Notes

Participants note various technical challenges, such as the containment of nuclear explosions, the efficiency of different propulsion methods, and the practicalities of using fissile materials. There are also references to specific designs and historical projects that inform the discussion.

Antiphon
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Has enyone (in the realm of fiction even) proposed making an enourmous
piston engine that would use nuclear weapons instead of atomized
hydrocarbons? (Sure, it would have to be BIG. But its possible, no?)
 
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You could consider Project ORION a nuclear-piston engine, without the engine-proper. :-p
 
Antiphon said:
Has enyone (in the realm of fiction even) proposed making an enourmous
piston engine that would use nuclear weapons instead of atomized
hydrocarbons? (Sure, it would have to be BIG. But its possible, no?)

Antiphon,

With the exception of Project ORION - in which a spacecraft is propelled
by ejecting a nuclear weapon and when the weapon exploded some distance
away and some momentum recovered by a big "pusher plate" - I would say
that a nuclear piston engine is NOT possible.

The problem is that any nuclear explosion; even the smallest that we could
ever make; is much too large and hot to contain with any kind of piston
and cylinder as in an engine.

In ORION, one only recovers a portion of the energy - which saves the ship.

The "first wall" of any type of piston engine is going to be vaporized
when it sees the nuclear device explode. [ It's a tough enough job to
consruct the "first wall" for a BB-sized fusion capsule. ]

Dr. Gregory Greenman
Physicist
 
Morbius said:
The "first wall" of any type of piston engine is going to be vaporized when it sees the nuclear device explode.
Yet the Orion pusher plate would not be vaporized.
 
Project Pacer fitted with piston engines instead of turbines

Antiphon said:
Has enyone (in the realm of fiction even) proposed making an enourmous piston engine that would use nuclear weapons instead of atomized hydrocarbons?
I would call it a reciprocating heat engine. I suspect the reason why nuclear-powered reciprocating heat engines have not been theorized is that turbines tend to be more efficient. There are designs for nuclear explosions powering turbines. Richard Garwin described one called Project Pacer in his book . That design involved a large excavated cavern lined with steel and fitted with turbines. Water is injected in-between explosions. This helps keep things cool and provides steam for the turbines. Explosions occur once per day. Fusion bombs are used, instead of fission bombs, for greater efficiency. 365 fusion bombs are used per year.

If you could make a fusion-explosion turbine power plant such as this, there seems to be no reason why you could not make a fusion-explosion reciprocating power plant. There would be a difference, though, in that you are thinking of one giant piston, whereas a truer analog of the Project Pacer power plant would be a steel-lined cavity with many small reciprocating steam engines fitted to it.
 
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what if instead of turbines or pistons couldn't u contain such a blast with an electromagnetic field then as far as heat goes couldn't u use that new metal we discovered called carbon carbon which is supposed to with stand the heat of the sun?
 
Well I suppose you could make a fission-powered piston engine if you use very small amounts of fissile material and an external neutron source to "ignite" it. How to get a very high flux of thermal neutrons that you can turn on and off on demand without using more energy then the engine makes would be a problem though.
 
Even if you could get it to work, wouldn't the amount of energy you'd need to create, move and detonate the nuclear devices severely offset the total efficiency of the whole process?
 
hitssquad said:
Yet the Orion pusher plate would not be vaporized.
With Orion they allowed for some ablation of the pusher plate, but even that was minimized by spraying a thin layer of oil on the plate before each shot.

You can read some details here:
http://en.wikipedia.org/wiki/Project_Orion_(nuclear_propulsion)"

There are some nice illustrations here:
http://www.flickr.com/photos/xeni/sets/72157594329917915/"

There is also a book: Project Orion: The True Story of the Atomic Spaceship By George Dyson
 
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  • #10
Orion was problematic for a number of reasons - mass of a huge number of detonators being one.

Please also note that the thread to which robo warrior responded has a last post of Jul15-05. It is 4 years, 4 months old.
 

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