Difference between revisions of "Energy storage cell"
(better organisation - split off flywheels) |
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AP systems can often avoid high energy densities which always are potentially dangerous | AP systems can often avoid high energy densities which always are potentially dangerous | ||
since energy can be transmitted quite fast and efficiently (e.g. with [[energy transport cables]]) | since energy can be transmitted quite fast and efficiently (e.g. with [[energy transport cables]]) | ||
| + | |||
| + | Cells may be have various sizes sub equal or super [[microcomponent]] size. | ||
== Forms == | == Forms == | ||
| + | |||
| + | === for [[chemomechanical converters]] === | ||
* radicals zip cells | * radicals zip cells | ||
| Line 13: | Line 17: | ||
* micro to nano sized high pressure hydrogen capsules | * micro to nano sized high pressure hydrogen capsules | ||
* nitrogen based compounds cells (avoiding explosiveness) | * nitrogen based compounds cells (avoiding explosiveness) | ||
| − | * | + | * many more ... |
| − | + | ||
| + | === for [[elektromechanical converters]] === | ||
| + | |||
| + | '''Capacitors:''' Todays capacitors already do a good job. | ||
| + | |||
| + | === no conversion === | ||
| + | |||
| + | '''Flywheels cells:''' Like in all other cases an additional gear transmission (mechanomechanical conversion) is possible. | ||
| + | Scaringly high power-spikes are possible. | ||
== Notes == | == Notes == | ||
Cryogenic hydrogen storage is inherently macroscopic. | Cryogenic hydrogen storage is inherently macroscopic. | ||
| − | Nano-sized capsules have a huge surface to mass ratio making individual thermal isolation effectively | + | Nano-sized capsules have a huge surface to mass ratio making individual thermal isolation effectively infeasible. <br> |
| − | [Todo: discuss (known) potential losses of | + | [Todo: discuss (known) potential losses of cryogenic storage in an AP product]. <br> |
| − | + | Advanced AP systems can easily produce cryogenic temperatures via [[diamondoid heat pump system]]s. | |
| − | + | ||
Revision as of 12:44, 3 May 2014
In advanced AP systems energy storage and conversion is more clearly distinct than in e.g. todays bulk electric accumulators.
Energy storage cells need chemomechanical converters or elektromechanical converters
and often some form of mechanical macroscopification to form a complete system.
AP systems can often avoid high energy densities which always are potentially dangerous since energy can be transmitted quite fast and efficiently (e.g. with energy transport cables)
Cells may be have various sizes sub equal or super microcomponent size.
Contents
Forms
for chemomechanical converters
- radicals zip cells
- chainmolecule stretcher cells
- micro to nano sized high pressure hydrogen capsules
- nitrogen based compounds cells (avoiding explosiveness)
- many more ...
for elektromechanical converters
Capacitors: Todays capacitors already do a good job.
no conversion
Flywheels cells: Like in all other cases an additional gear transmission (mechanomechanical conversion) is possible. Scaringly high power-spikes are possible.
Notes
Cryogenic hydrogen storage is inherently macroscopic.
Nano-sized capsules have a huge surface to mass ratio making individual thermal isolation effectively infeasible.
[Todo: discuss (known) potential losses of cryogenic storage in an AP product].
Advanced AP systems can easily produce cryogenic temperatures via diamondoid heat pump systems.
