h a l f b a k e r ynon-lame halfbakery tagline
add, search, annotate, link, view, overview, recent, by name, random
news, help, about, links, report a problem
browse anonymously,
or get an account
and write.
register,
|
|
|
| |
Baked: geothermal power is well known and best done in areas where the heat is close to the surface (and without a huge hole in the ground). Examples of extensive use of geothermal power are New Zealand and Iceland which have significant active geothermal activity. |
|
| |
That's a mighty deep well. |
|
| |
For non-Americans, Lake Superior is the largest of the so-called Great Lakes - a group of 5 lakes in the northeastern US. (link) |
|
| |
Where would you like this Km2 of tailings stacked? |
|
| |
Why would you want to cool down the earth? That would really give us some environmental headaches. |
|
| |
Be careful where you dig. Hot water is very agressive and tends to wash out nasty stuff from rock (Arsenic, Thorium, etc.) and you end up with sluge that is nearly as bad as nuclear waste. Single wall concrete tubes will not be enough, and keep the upper end of the hole real skinny for better protection. |
|
| |
I'm all for geothermal, but not in one single big hole. |
|
| |
True that it would mean massive conduction systems form the center, but lots of industry that relies on extreme amounts of energy coud be placed very close to the facility creating great resources like liquid hydrogen, aluminum and titanium. The truth is that in retrospect it would not cool the earth at all as the hole is realitivly minute compared to the core of the earth and therefor removes only realitivly minute amounts of heat. Thats a good point about the sludge and the tube thickness, but remember we have many potential uses for chemical compounds that involve simple high heat reactions, it's carbon chains that are the problems in polluting, that and radio active material, which there probably wont be much. this creates annother resource, the tube thickness just creates another initial expence that will pay off. |
|
| |
There are 3.28 feet in one meter and 1000 meters in a kilometer. A 20km hole is 65,600 feet deep, more than twice the height of mount everest. |
|
| |
Where do you plan on putting the 157000000m^3 of dirt and rock? |
|
| |
/Where do you plan on putting the 157000000m^3 of dirt and rock?/ |
|
| |
SPACE! Moon II - the Quickening! |
|
| |
don't forget, twice the height but a small fraction of the diameter of mt. everest, I'b be supprised if it rivaled Lake superior in volume (not that I plan to do the math.) I love the space Idea, I'v been saying that about garbage for years! Toss it at the sun, when it burns: we get some of the energy back! |
|
| |
Apart from the fact that geothermal energy has been known
and used for decades, there is also a problem with the
thermal conductivity of rock. Once the plant has been in
operation for a while, the rock surrounding the chamber
will be significantly cooler than it was. At that point, your
available power is limited by the rate of heat conduction
through rock, which is not very high. |
|
| |
My understanding is that geothermal plants designed to
produce high power rely on water circulating through rock
fissures, to effectively increase the available area for heat
collection. |
|
| |
I think that vavle systems are widely under-utilised for all kind of hydraulic and thermal applications. I am heartened to see their usefulness appreciated in this idea. |
|
| |
I think the vavle is there so that, if you accidentally drill too
deep, you don't flood the place with red-hot alva. |
|
| |
There's no such thing as accidentally drilling too deep. |
|
| |
Apparently you’ve never visited a dentist. |
|
| |
I want some hot alva, it sounds delicious. |
|
| |