Hydrogen to Helium Reactor, how much hydrogen to power earth?

AI Thread Summary
The discussion centers on calculating the amount of hydrogen needed to power Earth's electricity consumption using a hydrogen to helium fusion reactor. Participants explore the energy output from the fusion process, with one user calculating the mass converted to energy using the equation E=mc². They clarify that 1 gram of hydrogen yields approximately 650 million kilowatts of energy, although there is confusion about using power versus energy units. The calculations suggest that around 1.7 grams of hydrogen per second may be necessary to meet the global energy demand, leading to further discussions on the accuracy of these estimates. Overall, the thread emphasizes the importance of precise calculations and understanding the underlying physics of fusion energy.
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Homework Statement



Suppose we succeed in building a H-->He fusion reactor. How much hydrogen would have to be converted per second to supply the world's electricity consumption of 10^13kwh.

Homework Equations



This is what I am looking for, I think i can figure it out once I know the appropriate equation

The Attempt at a Solution



My attempt is to first figure out the energy output of when hydrogen turns into helium. So i take 4 hydrogen at 1.00794 amu a piece, then 1 helium at 4.002602 amu and subtract the totals. Thus:

(1.00794 x4) - 4.002602 = .029158 amu I assume this number is the mass converted to energy?

From my book 1g of H--> HE is 650,000,000 kw of energy output (converted from 6.5x10^18 erg) So from there couldn't I figure this problem out by just finding how many seconds are in a year. Then dividing 10^13kwh by the total amount of seconds, then with knowing the output of 1g convert my Kw per second into amount of material?

I would like to know if I am on the right track or if I am disregarding something important (efficiency isn't involved).
 
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That all sounds like it will work, but it is tricky.
My instinct is to work with energy, converting 10^13kwh into Joules.
"1g of H--> HE is 650,000,000 kw of energy" is not clear - the units kw are for power, not energy. Anyway, kind of awkward so better to use E = mc² to convert the .029158 amu (change to kg first) into Joules. Then you can divide to see how many 4-hydrogens must be fused.

Are you sure of your reaction and the mass converted to energy?
It might be worth reading
http://en.wikipedia.org/wiki/Proton–proton_chain_reaction
 
haha just so happen to be reading that as you posted..
 
So I took E=mc^2 and i plugged in:

(0.2916 amu x 1.66053 x10^-27 ) to convert amu to Kg

then that by c^2 which is 9x10^16 m/s

and got 4.358x10^-12

is that joules released by combining 4H to 1 he?
 
With my previous method before your help, I came to about 1.7g per second needed. That seem reasonable?
 
Yes to the 4.358 E-12 for converting 4H.
I end up with a 1000 times less mass per second than you got, but I'm not so great at calculating these days. When I converted the 1E13 KWH to Joules I got 4.35 E -12. Dividing by the energy of 4H gave me 8.28 E27 4H's that must be converted per year.
 

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