Battery Storage: Difference between revisions
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*Question is more important than the answer in the talk above. | *Question is more important than the answer in the talk above. | ||
*''Future should not be about solving one problem after another. It should be something that gets you excited'' | *''Future should not be about solving one problem after another. It should be something that gets you excited'' | ||
=OSE Notes= | |||
*Available reserves of Lithium, and for that matter nickel in [[Nickel-Iron Batteries]] - are not sufficient to provide energy storage for transportation - with quick first-principle calculations considered. See [[World Lithium Reserves]] | |||
*OSE does not promote battery storage for the bulk of humanity's needs - but instead - [[Solar Hydrogen Storage]] | |||
*Batteries are still useful for many electric devices and power tools, such as the [[Electric Power Cube]] | |||
[[Category: Battery]] [[Category: Energy]] | |||
Latest revision as of 01:50, 24 April 2022
- 300TWhr of battery storage is necessary to transition to a renewable storage situation [1]
- Question is more important than the answer in the talk above.
- Future should not be about solving one problem after another. It should be something that gets you excited
OSE Notes
- Available reserves of Lithium, and for that matter nickel in Nickel-Iron Batteries - are not sufficient to provide energy storage for transportation - with quick first-principle calculations considered. See World Lithium Reserves
- OSE does not promote battery storage for the bulk of humanity's needs - but instead - Solar Hydrogen Storage
- Batteries are still useful for many electric devices and power tools, such as the Electric Power Cube