Peripherals/Energy Storage: Difference between revisions
Jump to navigation
Jump to search
| Line 28: | Line 28: | ||
| Compressed Air || Text || Text |
| Compressed Air || Text || Text |
||
|- |
|- |
||
| Super/Ultracapacitors || Ability to release quick jolts of electricity and to absorb this energy just as fast || Less energy storage capacity per Kg compaired to Batteries (25 times less [ |
| Super/Ultracapacitors || Ability to release quick jolts of electricity and to absorb this energy just as fast || Less energy storage capacity per Kg compaired to Batteries (25 times less [http://www.technologyreview.com/Biztech/18086/]) |
||
|- |
|- |
||
| Technology || Text || Text |
| Technology || Text || Text |
||
Revision as of 22:22, 7 January 2008
In an environment where grid power may only be available for a few hours a day, or where energy generation is available but either generation or usage isn't constant an energy storage system is required.
A desirable storage technology would allow easy top-up and extraction of electricity. The input to the storage system wouldn’t necessarily need to be electrical but does need to be something that is available without considerably destruction systems to be set-up.
For example, zinc-air fuel cells offer some interesting advantages over standard batteries, but require a zinc distribution system to be setup in conjunction with the technology.
Below is a list of technologies which offer possible solutions;
- Car Batteries
- Deep Cycle Batteries
- Compressed Air
- Supercapacitors / Ultracapacitors
- Nanoengineered Battery
- Flywheel Storage
Advantages and Disadvantages
| Storage Type | Advantages | Disadvantages |
|---|---|---|
| Car Batteries | Text | Text |
| Deep Cycle Batteries | Text | Text |
| Compressed Air | Text | Text |
| Super/Ultracapacitors | Ability to release quick jolts of electricity and to absorb this energy just as fast | Less energy storage capacity per Kg compaired to Batteries (25 times less [1]) |
| Technology | Text | Text |