Difference between revisions of "Cargo:Fuel Cell"
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| text = A fuel cell using the hydrogen+oxygen=water chemical reaction. Conversion of the gases to water produces direct current electricity, with the water produced being collected in a secondary chamber for conversion back into constituent gases via external electrolysis. Waste heat is captured thermoelectrically as an additional power supply. Highly durable and environment-friendly, but eventual failure through heat loss and filament decay, plus a comparatively low power output, means such cells are used only in portable electronic devices and for backup power. | | text = A fuel cell using the hydrogen+oxygen=water chemical reaction. Conversion of the gases to water produces direct current electricity, with the water produced being collected in a secondary chamber for conversion back into constituent gases via external electrolysis. Waste heat is captured thermoelectrically as an additional power supply. Highly durable and environment-friendly, but eventual failure through heat loss and filament decay, plus a comparatively low power output, means such cells are used only in portable electronic devices and for backup power. | ||
| − | |image=water_dynamo. | + | |image=water_dynamo.jpg |
| − | |name= | + | |name=Fuel Cell |
| − | |price= | + | |price=70 |
| − | |mass= | + | |mass=2 |
|space=1 | |space=1 | ||
}} | }} | ||
| − | [[Category:Cargo:Industrially Manufactured Goods| | + | [[Category:Cargo:Industrially Manufactured Goods|Fuel Cell]] |
| − | [[Category:Cargo:Power Utilities| | + | [[Category:Cargo:Power Utilities|Fuel Cell]] |
Latest revision as of 05:53, 17 August 2007
 Power Utilities
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Description
A fuel cell using the hydrogen+oxygen=water chemical reaction. Conversion of the gases to water produces direct current electricity, with the water produced being collected in a secondary chamber for conversion back into constituent gases via external electrolysis. Waste heat is captured thermoelectrically as an additional power supply. Highly durable and environment-friendly, but eventual failure through heat loss and filament decay, plus a comparatively low power output, means such cells are used only in portable electronic devices and for backup power.
