The Effects of Dumping Nuclear Waste into the Sun

In summary: Earth distance is actually 26 miles per second. So according to my calcs, it requires less delta v to drop it in than boost it out.
  • #1
SHISHKABOB
541
1
okay so I don't want this to be an argument on whether dumping nuclear waste into the sun is feasible or practical or not, as I'm pretty sure it's not

rather I'd like to ask a question that my mom asked me once when I was trying to argue the idea to her. She asked me: "well if you dumped so much radioactive material into the sun, how do you know what will happen if you do that? What if something terrible happens that we could not have predicted?"

My opinion was that the sun is a giant furnace and is already emitting radiation in all sorts of forms and adding a relatively tiny amount of heavy elements to it is not going to have a profound effect on the sun's behavior. She was not convinced, basing her opinion on the fact that I really had no idea what I was talking about, and I really don't.

So, would anything bad happened if we dumped all of our radioactive waste material into the sun? http://ca.answers.yahoo.com/question/index?qid=20100205151923AAzOMTF this guy gives an estimate around the middle of his post that there's 60,000 tons of radioactive waste in the world.

if the sun is about 2x10^30 kg, and 60,000 tons is 54.4x10^6 kg, will dumping 2.72e-23% of the sun's mass of radioactive material do anything? What if we had a hell of a lot more nuclear waste, let's say 60 trillion tons, over the course of many years and a big increase in nuclear power plant production, would that much do anything?

What if we dump it all in at once? Will that be different from dumping over a relatively long period of time?

I guess the basic question here is: what happens to nuclear waste if you vaporize it? And then also would it come spraying out of the sun back at us?

EDIT: maybe this should have gone in the nuclear part of the forums, but I was particularly interested in the sun part of the question
 
Last edited:
Astronomy news on Phys.org
  • #2
Dumping nuclear waste of any REALISTIC amount into the Sun would have absolutely no noticeable effect. The Sun could swallow something the size and mass of our Moon and it would have a negligible effect on the overall workings of the Sun.

Throwing waste into the Sun would turn the material into a plasma, meaning that the atoms that make it up would be partially or completely ionized. They would still be radioactive, and would decay as normal, but given the amount compared to the size of the Sun it would do almost nothing.

As for your Mom, you can tell her that we DO know what would happen. We know exactly what would happen because we can study the Sun, perform experiments here on Earth at the same temperatures, and plenty of other reasons.
 
  • #3
I haven't done any quantitative analysis, but I suspect if the entire Earth was dumped into the sun nit much would happen.
 
  • #4
so it wouldn't shoot out any nasty radiation because of the vaporization of the radioactive material?
 
  • #5
SHISHKABOB said:
okay so I don't want this to be an argument on whether dumping nuclear waste into the sun is feasible or practical or not, as I'm pretty sure it's not
I can't let this part go unchallenged.

Dumping nuclear waste is silly, and not because of the supposed problems with regard to what that dumping would do to the Sun. It's silly because it would be much, much cheaper to send the waste out of the solar system than to dump it into the Sun.

That we don't have the ability to put 60,000 tons of payload into space, period, is a different question.
 
  • #6
Why is it cheaper to send out of the Solar System instead of into the Sun DH?
 
  • #7
Drakkith said:
Why is it cheaper to send out of the Solar System instead of into the Sun DH?

Hm. At first I agreed with D_H but I'm missing something.

To drop it into the sun, you'd need to slow it by the Earth's speed of revolution about the sun - 67,000mph or 18 miles per second.

But escape velocity from the sun at Earth distance is actually 26 miles per second.

So according to my calcs, it requires less delta v to drop it in than boost it out.

D_H?
 
  • #8
Is there not a way to use the planets to slow it down further and use less energy? (Edit, of course, this wouldn't be reliable since the planets move, so I guess it doesn't matter) Also, what is the escape velocity of the Solar System from Earth's distance?
And yes, it does make a lot more sense now. If we don't slow it down enough it simply goes into an elliptical orbit of the Sun correct?
 
  • #9
DaveC426913 said:
To drop it into the sun, you'd need to slow it slow by the Earth's speed of revolution - 67,000mph. We don't need nearly that speed to exit the solar system.

whoah, why? Why not just, well, point it at the sun after it achieves Earth's escape velocity?

I'm betting it has something to do with conservation of kinetic and gravitational potential energy, right?
 
  • #10
Drakkith said:
Why is it cheaper to send out of the Solar System instead of into the Sun DH?
Escape velocity is √2 times circular orbital velocity. We're already going at circular orbit velocity, so the required Δv is (√2-1)*orbital velocity. In other words about 41.4% of orbital velocity. To send something plunging into the Sun entails canceling almost all of that orbital velocity. 41.4% is a whole lot less than 100%, particularly given the exponential nastiness of the ideal rocket equation.
 
  • #11
SHISHKABOB said:
whoah, why? Why not just, well, point it at the sun after it achieves Earth's escape velocity?

I'm betting it has something to do with conservation of kinetic and gravitational potential energy, right?
Yes. It's moving in an orbit at 67,000mph, just like Earth is. You've got to cancel that.
 
  • #12
SHISHKABOB said:
I'm betting it has something to do with conservation of kinetic and gravitational potential energy, right?
Nope. It's all about the required delta V, how much one needs to change the velocity.By the way, this is the reason mankind has sent so few space vehicles to Mercury compared to the outer planets. Sending a vehicle to Mercury is expensive.
 
  • #13
okay, so I can understand that in order to get into orbit around Mercury, you need to change the orbital velocity (relative to the sun) of the rocket to the orbital velocity of Mercury, but...

oh I just answered my own question. To get it to "orbit," and by orbit I mean crash into, the Sun, its orbital velocity would have to be 0, therefore... yeah

thanks, makes sense now!
 
  • #14
D H said:
Nope. It's all about the required delta V, how much one needs to change the velocity.
Right. Of course.

To escape the SS, we've already got 18mi/s from Earth's orbit. Only 6mi/s more and we're outta there.

Whereas hitting the sun requires cancelling the full 18mi/s.
 
  • #15
Why not slow it just enough to place it in a decaying orbit around the sun? You don't have to send it plunging directly in.
 
  • #16
Where does this "decaying orbit" come from? What is the force causing it to decay?
 
  • #17
Sci fi movies...
 
  • #18
I am concerned about the initial phase of this proposal: the launch phase. What would be the risk to us and our environment if the launch vehicle exploded? Seems to me it would be a huge risk of radiation contamination; so great that I would not agree with the idea at all.
 
  • #19
Bobbywhy said:
I am concerned about the initial phase of this proposal: the launch phase. What would be the risk to us and our environment if the launch vehicle exploded? Seems to me it would be a huge risk of radiation contamination; so great that I would not agree with the idea at all.

Conversely if we had the technology to put 60,000 tons of highly radioactive waste into space with zero probability of failure, then I'm pretty sure we could think of something easier mechanism to deal with this. For example, if we had that level of space technology, we could probably build solar power microwave satellites so that we wouldn't have to worry about nuclear waste at all.

One thing that I wonder about is that I'm wondering if the environment impact of all of those rockets would be worse than than the impact of the radioactive waste.
 
  • #20
Vanadium 50 said:
Where does this "decaying orbit" come from? What is the force causing it to decay?

Sorry, I'm not familiar with orbits. I assumed that under a certain critical velocity an object would just continue spiraling inwards, but I suppose the orbit would just get more eccentric?
 
  • #21
It would be colossally stupid to rocket radioactive waste into space, regardless of the destination.
 
  • #22
SHISHKABOB said:
okay so I don't want this to be an argument on whether dumping nuclear waste into the sun is feasible or practical or not, as I'm pretty sure it's not

rather I'd like to ask a question that my mom asked me once when I was trying to argue the idea to her. She asked me: "well if you dumped so much radioactive material into the sun, how do you know what will happen if you do that? What if something terrible happens that we could not have predicted?"

My opinion was that the sun is a giant furnace and is already emitting radiation in all sorts of forms and adding a relatively tiny amount of heavy elements to it is not going to have a profound effect on the sun's behavior. She was not convinced, basing her opinion on the fact that I really had no idea what I was talking about, and I really don't.

So, would anything bad happened if we dumped all of our radioactive waste material into the sun? http://ca.answers.yahoo.com/question/index?qid=20100205151923AAzOMTF this guy gives an estimate around the middle of his post that there's 60,000 tons of radioactive waste in the world.

if the sun is about 2x10^30 kg, and 60,000 tons is 54.4x10^6 kg, will dumping 2.72e-23% of the sun's mass of radioactive material do anything? What if we had a hell of a lot more nuclear waste, let's say 60 trillion tons, over the course of many years and a big increase in nuclear power plant production, would that much do anything?

What if we dump it all in at once? Will that be different from dumping over a relatively long period of time?

I guess the basic question here is: what happens to nuclear waste if you vaporize it? And then also would it come spraying out of the sun back at us?

EDIT: maybe this should have gone in the nuclear part of the forums, but I was particularly interested in the sun part of the question
Very impractical (as indicated by DH et al), although such limited mass would not affect the sun in any significant matter. Assuming one could get the waste to the surface of the sun, it would more or less stay there, unless it got caught in a CME.

The sun already produces prodigious amounts of radiation in the form of high energy protons, electrons and ions/nuclei. But of course, most nuclei are not radioactive, i.e., they are stable isotopes.

Other points to consider in such a plan - 1) the cost of launching material (~$10,000/kg) from the Earth to orbit, the first step before transporting from LEO to GEO to elsewhere in the solar system, and 2) the radiation pressure on any material object as it approaches the sun. In the former, compare the energy required to dispose of the waste to the energy derived from the waste. For the latter, determine if the waste could actually be deposited in the sun.
 
  • #23
It would make far more sense to dig a deep hole in a remote desert and dump the stuff in there - oh, that has already been proposed. Launching radioactive waste into space is not only expensive, but, illogical. One errant launch could contaminate an entire hemisphere. What are the odds of that happening - far too high for my comfort level.
 
  • #24
well, like I said, it was more a question of what would happen if the sun got a dose of radioactive material, not so much the practicality of eliminating nuclear waste via launching it into space
 
  • #25
SHISHKABOB said:
if the sun is about 2x10^30 kg, and 60,000 tons is 54.4x10^6 kg, will dumping 2.72e-23% of the sun's mass of radioactive material do anything? What if we had a hell of a lot more nuclear waste, let's say 60 trillion tons, over the course of many years and a big increase in nuclear power plant production, would that much do anything?
2.72e-23% of fission products and transuranics would have no significant effect, and neither would 1 e-14%. The fusion process already produces gamma and beta (positron) radiation.

http://csep10.phys.utk.edu/astr162/lect/energy/ppchain.html
http://csep10.phys.utk.edu/astr162/lect/energy/cno.html

Locally, there would be a reduction in pp-fusion, or CNO-fusion, and there would be a change in emission spectrum based on the range of Z-values, but the additional lines would be rather weak compared to H, He lines.
 
  • #26
Chronos said:
It would make far more sense to dig a deep hole in a remote desert and dump the stuff in there - oh, that has already been proposed. Launching radioactive waste into space is not only expensive, but, illogical. One errant launch could contaminate an entire hemisphere. What are the odds of that happening - far too high for my comfort level.
Rocket technology isn't all that reliable. Odds of a failure are somewhere between 1/50 to 1/200. With thousands of launches needed to get 60,000 tons of material into space, there's a near certainty that several failures will occur. Dumping nuclear waste into space just isn't logical.
 
  • #27
SHISHKABOB said:
okay so I don't want this to be an argument on whether dumping nuclear waste into the sun is feasible or practical or not, as I'm pretty sure it's not

rather I'd like to ask a question that my mom asked me once when I was trying to argue the idea to her. She asked me: "well if you dumped so much radioactive material into the sun, how do you know what will happen if you do that? What if something terrible happens that we could not have predicted?"

My opinion was that the sun is a giant furnace and is already emitting radiation in all sorts of forms and adding a relatively tiny amount of heavy elements to it is not going to have a profound effect on the sun's behavior. She was not convinced, basing her opinion on the fact that I really had no idea what I was talking about, and I really don't.

So, would anything bad happened if we dumped all of our radioactive waste material into the sun? http://ca.answers.yahoo.com/question/index?qid=20100205151923AAzOMTF this guy gives an estimate around the middle of his post that there's 60,000 tons of radioactive waste in the world.

if the sun is about 2x10^30 kg, and 60,000 tons is 54.4x10^6 kg, will dumping 2.72e-23% of the sun's mass of radioactive material do anything? What if we had a hell of a lot more nuclear waste, let's say 60 trillion tons, over the course of many years and a big increase in nuclear power plant production, would that much do anything?

What if we dump it all in at once? Will that be different from dumping over a relatively long period of time?

I guess the basic question here is: what happens to nuclear waste if you vaporize it? And then also would it come spraying out of the sun back at us?

EDIT: maybe this should have gone in the nuclear part of the forums, but I was particularly interested in the sun part of the question

The Earth and Sun are made of roughly the same stuff, but Earth lost most of the hydrogen/helium that makes up most of the Sun. Heavier elements make up about 2% of the Sun, the equivalent of about 7,000 times the mass of the Earth. That's a lot of heavy stuff to dilute a tiny, tiny fraction of the Earth's uranium in.

If all the radioactive waste dropped into the Sun and was sprayed back out at the Earth, how wide an area would it spread out over? At 6 atoms of solar wind per cc, streaming out of the Sun at 400 km/s that 60,000 tons (assume its atomic mass is 238) will spread out over a circular area about 9 million kilometres across if it all came flying back out at once. Diluted over such an area, with Earth a tiny fraction, the rise in radioactivity of the planet would be barely noticed, let alone hazardous.
 
  • #28
Chronos said:
It would make far more sense to dig a deep hole in a remote desert and dump the stuff in there - oh, that has already been proposed. Launching radioactive waste into space is not only expensive, but, illogical. One errant launch could contaminate an entire hemisphere. What are the odds of that happening - far too high for my comfort level.
+1.0 To this. Whenever I hear a proposal that involves launching something into space to achieve the goal I always think about whether or not those billions of dollars could be better spent doing the job on Earth. At the cost of developing a system of fail-safe rockets capable of transporting kilotonnes of material we could just build deep vaults.
 
  • #29
With the right gravity assist from Jupiter a payload can be dropped into the Sun for a much, much lower fuel bill than doing a direct mission. But as most of the "waste" is potential fuel for future reactor designs the idea of dumping it is stupid. Likewise indefinite burial.
 
  • #30
hello everyone,

I've been reading through the thread as a search got me here and of course, I love PF!

Anyway, I have a problem to solve and so I thought I'd tried a revive this thread!

Here is the problem statement:

A nuclear waste disposal spacecraft is to be sent from Earth in order to carry radioactive waste either out of the solar system or into the Sun. Which alternative is cheaper in terms of delta v requirements ? The lesser delta v, the cheaper!

Remember that planetary fly-bys are allowed which means Venus and Mercury for this specific problem going to Sun. We will assume that whenever the spacecraft reaches Venus's sun orbit, venus will be there and the same for mercury. In case we are dumping outside the Solar System, we need to consider all planets beyond Earth. These should be used to minimize the required delta v.

Further, both trajectories lie in the elliptic.

Can people get me started off on how to go about designing the orbits and then figuring out which one is ultimately cheaper?

I will also need to use STK to design the orbits!

I'm sure now you understand why I came upon this thread! I would be very appreciative of any guidance! Thanks!
 
  • #32
hello Bobby,

sorry, I meant all trajectories are elliptical.
 
  • #33
For those who wish to help oxraider, please do so in this thread: [thread]656422[/thread].
 
  • #34
mathman said:
I haven't done any quantitative analysis, but I suspect if the entire Earth was dumped into the sun nit much would happen.

Dumping all of the planets in there would not have any significant effect, I think. I have read that a small black hole passing through the Sun would not have all that much of an effect.
 
  • #35
re: "decaying orbit"
It can be done - just design the orbit so that the perihelion dips into the outer atmosphere (whatever it's called) of the Sun. With each pass, it loses a little v due to drag, until it finally crashes and burns.
Of course, the difference in delta-v to get from that orbit to a directly-intersecting one is minor, so there's not really any point.
 
<h2>1. What are the potential environmental impacts of dumping nuclear waste into the Sun?</h2><p>The main environmental impact of dumping nuclear waste into the Sun would be the release of radioactive particles and gases into the solar system. This could potentially disrupt the delicate balance of the Sun and other planets, and could have unknown consequences for the overall health of our solar system.</p><h2>2. Is it safe to dump nuclear waste into the Sun?</h2><p>While it may seem like a convenient solution, dumping nuclear waste into the Sun is not considered safe. The extreme temperatures and pressures of the Sun's core would not be enough to completely destroy the radioactive materials, and they could still pose a threat to the environment and any future space missions.</p><h2>3. How would we transport nuclear waste to the Sun?</h2><p>Transporting nuclear waste to the Sun would require a specialized spacecraft that is capable of withstanding the intense heat and radiation of the Sun. This would be a complex and expensive undertaking, and the risk of accidents or malfunctions during the journey would also need to be considered.</p><h2>4. What are the alternatives to dumping nuclear waste into the Sun?</h2><p>There are several alternatives to dumping nuclear waste into the Sun, including deep geological disposal, reprocessing and recycling, and advanced nuclear reactors that can use nuclear waste as fuel. These methods are considered safer and more sustainable in the long run.</p><h2>5. Would dumping nuclear waste into the Sun solve our nuclear waste problem?</h2><p>No, dumping nuclear waste into the Sun would not completely solve our nuclear waste problem. It would only be a temporary solution, as we continue to produce more nuclear waste. Additionally, the potential risks and consequences of dumping nuclear waste into the Sun outweigh any potential benefits.</p>

1. What are the potential environmental impacts of dumping nuclear waste into the Sun?

The main environmental impact of dumping nuclear waste into the Sun would be the release of radioactive particles and gases into the solar system. This could potentially disrupt the delicate balance of the Sun and other planets, and could have unknown consequences for the overall health of our solar system.

2. Is it safe to dump nuclear waste into the Sun?

While it may seem like a convenient solution, dumping nuclear waste into the Sun is not considered safe. The extreme temperatures and pressures of the Sun's core would not be enough to completely destroy the radioactive materials, and they could still pose a threat to the environment and any future space missions.

3. How would we transport nuclear waste to the Sun?

Transporting nuclear waste to the Sun would require a specialized spacecraft that is capable of withstanding the intense heat and radiation of the Sun. This would be a complex and expensive undertaking, and the risk of accidents or malfunctions during the journey would also need to be considered.

4. What are the alternatives to dumping nuclear waste into the Sun?

There are several alternatives to dumping nuclear waste into the Sun, including deep geological disposal, reprocessing and recycling, and advanced nuclear reactors that can use nuclear waste as fuel. These methods are considered safer and more sustainable in the long run.

5. Would dumping nuclear waste into the Sun solve our nuclear waste problem?

No, dumping nuclear waste into the Sun would not completely solve our nuclear waste problem. It would only be a temporary solution, as we continue to produce more nuclear waste. Additionally, the potential risks and consequences of dumping nuclear waste into the Sun outweigh any potential benefits.

Similar threads

  • Astronomy and Astrophysics
Replies
10
Views
2K
  • Science Fiction and Fantasy Media
Replies
14
Views
2K
  • High Energy, Nuclear, Particle Physics
Replies
5
Views
1K
  • Nuclear Engineering
Replies
7
Views
2K
  • Astronomy and Astrophysics
Replies
11
Views
2K
  • Nuclear Engineering
Replies
19
Views
2K
  • High Energy, Nuclear, Particle Physics
Replies
7
Views
1K
Replies
26
Views
7K
  • Nuclear Engineering
Replies
9
Views
2K
  • Astronomy and Astrophysics
Replies
6
Views
2K
Back
Top