Hydrogen Storage: Difference between revisions
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* Dimethyl Ether Can be Catalytically Converted to Hydrocarbons such as Gasoline [https://en.wikipedia.org/wiki/Syngas_to_gasoline_plus This Details How] | * Dimethyl Ether Can be Catalytically Converted to Hydrocarbons such as Gasoline [https://en.wikipedia.org/wiki/Syngas_to_gasoline_plus This Details How] | ||
* Hydrogen + Carbon Monoxide can be directly converted to hydrocarbons via the [https://en.wikipedia.org/wiki/Fischer–Tropsch_process Fischer Tropsch Process] | * Hydrogen + Carbon Monoxide can be directly converted to hydrocarbons via the [https://en.wikipedia.org/wiki/Fischer–Tropsch_process Fischer Tropsch Process] | ||
=Links= | |||
*This reports the cost of tanks at low-thousands scale for a car - [http://energypost.eu/the-lowdown-on-hydrogen-part-1-transportation/] | |||
Revision as of 23:55, 26 January 2018
- Electrolyzers can produce hydrogen at pressure, so a compressor is not needed.
Storage Tank Suppliers
- In-ground storage, 2200 PSI - 14"x40' - [1]
- Low, medium, and high pressure storage options - [2]
- Pictures of storage tanks - [3]
Cryogenic Storage
- Ultra High Density
- Can be done using a Delwar, a pure hydrogen gas source, and a cheap cryocooler
- A diy cryocooler could possibly be made to reduce costs further
Storage as a Synthesized Fuel
- Convert to Methane by the Sabatier Reaction
- That can be compressed/liquified as is or it could be further converted into other fuels
- Methanol can be made from methane via the following process Listed Here
- Dimethyl Ether can be made from Methanol This Details How
- Dimethyl Ether Can be Catalytically Converted to Hydrocarbons such as Gasoline This Details How
- Hydrogen + Carbon Monoxide can be directly converted to hydrocarbons via the Fischer Tropsch Process
Links
- This reports the cost of tanks at low-thousands scale for a car - [4]