Difference between revisions of "Hydrogen"

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*Hydrogen can be used to react with [[iron ore]] or [[Aluminum|aluminium]] ore to create metals and water.
 
*Hydrogen can be used to react with [[iron ore]] or [[Aluminum|aluminium]] ore to create metals and water.
 
*Hydrogen can be combined with carbon to form [[methane]] or [[methanol]] to feed [[Biological_reactors#Methanotrophs|methanotrophs]], creating [[carbohydrates]], [[amino acids]] and [[hydrocarbons]], the building blocks of all living organisms.
 
*Hydrogen can be combined with carbon to form [[methane]] or [[methanol]] to feed [[Biological_reactors#Methanotrophs|methanotrophs]], creating [[carbohydrates]], [[amino acids]] and [[hydrocarbons]], the building blocks of all living organisms.
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== Related pages ==
  
 
[[Category:Materials]]
 
[[Category:Materials]]
 
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{{lunarp| Hydrogen}}
 
==References==
 
==References==
 
<references />
 
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Latest revision as of 14:21, 19 January 2021

H 1
 
Hydrogen

Abundance: 0.03% (as H2O)

Hydrogen (periodic table symbol: H1) is a chemical element that can be found in the atmosphere and in frozen water on Mars. Free hydrogen is usually in the form of the H2 molecule. Hydrogen is one proton with no neutrons. If a neutron is added to the nucleus the resulting isotope is known as Deuterium. If a second neutron is added the isotope is Tritium, a radioactive isotope that eventually decays into He3.

Liquid hydrogen has a density of 70 kg/m3. Gaseous hydrogen (H2) at standard atmospheric pressure and temperature has a density of 0,089 kg/m3.

Biological significance

The metabolism of human beings, animals and microbes depends on water, composed of hydrogen and oxygen. The human body contains about 70% water. Human beings need about 2 liters water per day for drinking, hard working people need even more. Some organisms, Xenotrophs, can directly metabolize hydrogen as a source of energy.

Production

Hydrogen can be produced by electrolysis of water, thermally via the Sulfur/Iodine cycle[1] or with CO to produce syngas in the Zinc/Sulfur/Iodine cycle[2]. Thermal production of hydrogen can be achieved using nuclear heat, enhanced with a turboinductor[3] to achieve the high required operating temperatures. Hydrogen can also be produced through the catalytic decomposition of ammonia[4], allowing for the non cryogenic storage of bulk hydrogen.

Use

Related pages

HydrogenLunarpedia new.png

References