Difference between revisions of "Geothermal energy"

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'''Geothermal energy''' is heat generated inside dense and rocky cosmic bodies. It can be generated by the immense pressure in the core of planets, creating nuclear processes and is constantly available with virtually no limit in time.
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'''Geothermal energy''' is heat generated inside dense and rocky cosmic bodies. It can be generated by the immense pressure in the core of planets and created by nuclear processes and is constantly available with virtually no limit in time.
  
On [[Earth]] there are a few installations to use geothermal energy for heating and for production of electricity. On [[Mars]] there might be usable geothermal energy, as well. Yet, it is unknown how deep to drill and what's the temperature in the depth. There are signs of geothermal energy, however.
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On [[Earth]] there are a few installations that use geothermal energy for heating and for the production of electricity. On [[Mars]] there might be usable geothermal energy as well. It is unknown how deep a Martian settlement would need to drill for practical Geothermal energy.
  
==Signs and theories==
 
  
[[Mars Global Surveyor]] has found fresh signs of flowing water in the [[Cerberus]] region near the equator of Mars. This has been probably happened 10 million years ago, which is geologically an extreme short time. Hopefully, the heat is still there in certain spots. <ref>[http://adsabs.harvard.edu/abs/1997JBIS...50..187F Fogg, Martyn J.: The utility of geothermal energy on Mars]</ref>
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==Availability==
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[[Mars Global Surveyor]] has found relatively fresh signs of flowing water in the [[Cerberus]] region near the equator of Mars. This probably happened 10 million years ago, which is geologically an extreme short time. Hopefully, the heat is still there in certain spots. <ref>[http://adsabs.harvard.edu/abs/1997JBIS...50..187F Fogg, Martyn J.: The utility of geothermal energy on Mars]</ref> <ref name=":0">https://www.researchgate.net/publication/287032434_Geothermal_Energy_on_Mars</ref> Martian Volcanoes are obvious examples that Mars once had large amounts of geothermal energy available and Mars still has a molten core<ref>https://en.wikipedia.org/wiki/Composition_of_Mars</ref>.  There is evidence that Mars' last active volcanoes erupted as recently as 53,000 years ago. <ref>https://en.wikipedia.org/wiki/Volcanism_on_Mars#:~:text=In%202020%2C%20astronomers%20reported%20evidence,needed%20to%20support%20life%20forms.</ref>
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It takes hundreds of millions of years for molten rocks buried deep to cool to the average temperature at that depth.  Therefore if volcanoes DID exist 10 million years ago, there is almost certainly geothermal energy available in those locations.  The cost of reaching that energy has to be compared to the cost of other energy sources to know if the use of geothermal energy on Mars is practical.  Since the atmospheric pressure and surface temperatures are very low on Mars, water from underground aquifers could be used by steam turbines to produce electrical energy.
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Heat generated in the martian mantle and core has been estimated<ref name=":0" /> at an average 20-30 milliwatts per m2.  The solar heat flux at the martian surface reaches 600 W/m<sup>2</sup>, roughly a twenty thousand time higher energy flow.  So at first glance solar power seems more practical.  Taking into account solar storms and nights as well as solar cell efficiencies actual average [[Photovoltaics|solar electricity]] availability might be about 40 W/m2 , still about 1000 times more.  A geothermal energy source on Mars would need to be a geological anomaly, such as some form of magmatic intrusion near the surface.  Are there spots with usable geothermal energy? [[Needed explorations#Geothermal energy|Additional exploration]] on Mars is required to identify possible sites.
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In 2021, the Insight lander detected Marsquakes which may have been caused by magma flows under the surface.  (These potential magma flows were 60 km under Cerberus Fossae, the geologically youngest area of Mars.)  If correct, this would confirm that Mars is still volcanically active and makes Geothermal energy (in some locations) far more likely.<ref>https://www.quantamagazine.org/rumbles-on-mars-raise-hopes-of-underground-magma-flows-20210201/</ref>
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==Generating Water==
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If Mars has hot aquifers, in addition to generating power, a geothermal facility could bleed off some water for life-support or industry.  This water might have minerals dissolved in it, another potential resource.
  
  
 
===References===
 
===References===
<references/>
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<references />
 
 
  
[[Category: Geology]]
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[[Category: Sources]]
[[Category: Energy]]
 

Latest revision as of 21:51, 23 August 2024

Geothermal energy is heat generated inside dense and rocky cosmic bodies. It can be generated by the immense pressure in the core of planets and created by nuclear processes and is constantly available with virtually no limit in time.

On Earth there are a few installations that use geothermal energy for heating and for the production of electricity. On Mars there might be usable geothermal energy as well. It is unknown how deep a Martian settlement would need to drill for practical Geothermal energy.


Availability

Mars Global Surveyor has found relatively fresh signs of flowing water in the Cerberus region near the equator of Mars. This probably happened 10 million years ago, which is geologically an extreme short time. Hopefully, the heat is still there in certain spots. [1] [2] Martian Volcanoes are obvious examples that Mars once had large amounts of geothermal energy available and Mars still has a molten core[3]. There is evidence that Mars' last active volcanoes erupted as recently as 53,000 years ago. [4]

It takes hundreds of millions of years for molten rocks buried deep to cool to the average temperature at that depth. Therefore if volcanoes DID exist 10 million years ago, there is almost certainly geothermal energy available in those locations. The cost of reaching that energy has to be compared to the cost of other energy sources to know if the use of geothermal energy on Mars is practical. Since the atmospheric pressure and surface temperatures are very low on Mars, water from underground aquifers could be used by steam turbines to produce electrical energy.

Heat generated in the martian mantle and core has been estimated[2] at an average 20-30 milliwatts per m2. The solar heat flux at the martian surface reaches 600 W/m2, roughly a twenty thousand time higher energy flow. So at first glance solar power seems more practical. Taking into account solar storms and nights as well as solar cell efficiencies actual average solar electricity availability might be about 40 W/m2 , still about 1000 times more. A geothermal energy source on Mars would need to be a geological anomaly, such as some form of magmatic intrusion near the surface. Are there spots with usable geothermal energy? Additional exploration on Mars is required to identify possible sites.

In 2021, the Insight lander detected Marsquakes which may have been caused by magma flows under the surface. (These potential magma flows were 60 km under Cerberus Fossae, the geologically youngest area of Mars.) If correct, this would confirm that Mars is still volcanically active and makes Geothermal energy (in some locations) far more likely.[5]

Generating Water

If Mars has hot aquifers, in addition to generating power, a geothermal facility could bleed off some water for life-support or industry. This water might have minerals dissolved in it, another potential resource.


References