Compressed Air: Difference between revisions
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* [http://openfarmtech.org/wiki/Compressed_Air_Water_Pump compressed air water pump] | * [http://openfarmtech.org/wiki/Compressed_Air_Water_Pump compressed air water pump] | ||
* various '''ventilation''' uses (e.g. air exchange in greenhouses, [http://en.wikipedia.org/wiki/Passivhaus Passivhaus] etc.), as an alternative to electric fans | * various '''ventilation''' uses (e.g. air exchange in greenhouses, [http://en.wikipedia.org/wiki/Passivhaus Passivhaus] etc.), as an alternative to electric fans | ||
* '''drying of biomass''' (... | * '''drying of fuel biomass''' (... wood, manure, etc.) before further uses, such as combustion, pyrolysis | ||
* '''drying and processing''' of materials using [http://vortexdehydration.com/index.htm vortex dehydration] | * '''drying and processing''' of (bio-)materials using [http://vortexdehydration.com/index.htm vortex dehydration] ''[http://en.wikipedia.org/wiki/Windhexe ("Windhexe")]'' | ||
* using '''vortex tube''' for separation of atmospheric gases: yields nitrogen (for food preservation) and oxygen (to co-fire with gas and reach higher temperatures for metallurgical applications) | |||
* '''aeration of water''' in [http://openfarmtech.org/wiki/Aquaculture aquaculture] | * '''aeration of water''' in [http://openfarmtech.org/wiki/Aquaculture aquaculture] | ||
* control air flow in updraft and other [http://openfarmtech.org/wiki/Gasifier '''gasifiers'''] such as TLUD | * control air flow in updraft and other [http://openfarmtech.org/wiki/Gasifier '''gasifiers'''] such as a [http://www.appropedia.org/SAPL_TLUD_gasifier_stove TLUD] | ||
* '''inflatable structures''' (greenhouses, tents, other temporary installations) | * '''inflatable structures''' (greenhouses, tents, other temporary installations) | ||
* '''cooling''' (possibly via [http://en.wikipedia.org/wiki/Vortex_tube vortex tube]); for making [http://openfarmtech.org/wiki/Freeze_Dried_Fruit_Powders freeze-dried] fruit powders | * '''cooling''' (possibly via [http://en.wikipedia.org/wiki/Vortex_tube vortex tube]); for making [http://openfarmtech.org/wiki/Freeze_Dried_Fruit_Powders freeze-dried] fruit powders | ||
* generate compressed air via (solar) '''heat engine''' that directly powers an air compressor | * generate compressed air via (solar) '''heat engine''' that directly powers an air compressor | ||
* | * various '''[http://openfarmtech.org/wiki/Category:Metalworks metallurgy]''' applications benefit from having very hot flames (compressed air provides increased oxygen for hotter combustion) | ||
* | * hypothetical device that precisely controls the temperature of a flame by regulating the flow of compressed air into flame and using a feedback mechanism that is controlled by an Arduino (useful to generate precisely carbonized materials for example) | ||
[[Category:Energy]] | [[Category:Energy]] | ||
Revision as of 18:28, 30 January 2011
Compressed air is one of the basic utilities, next to water, electricity and gas. In some situations, it can replace these other utilities, providing flexibility (see product ecology, below). It could be generated by small wind installations which are mechanically coupled to air compressor. Alternatively, solar photovoltaic cells could power an electric air compressor, although this arrangement is likely more expensive.
Applications and product ecology
- for energy storage (CAES, compressed air energy storage), see energy storage Wikipedia
- compressed air could be "co-fired" with biogas for electricity generation, saving gas
- pneumatic motors for all sorts of uses, replacing electric or hydraulic motors
- run power tools, examples here and also here
- pneumatic transportation (see Treehugger article on FoodTubes)
- compressed air water pump
- various ventilation uses (e.g. air exchange in greenhouses, Passivhaus etc.), as an alternative to electric fans
- drying of fuel biomass (... wood, manure, etc.) before further uses, such as combustion, pyrolysis
- drying and processing of (bio-)materials using vortex dehydration ("Windhexe")
- using vortex tube for separation of atmospheric gases: yields nitrogen (for food preservation) and oxygen (to co-fire with gas and reach higher temperatures for metallurgical applications)
- aeration of water in aquaculture
- control air flow in updraft and other gasifiers such as a TLUD
- inflatable structures (greenhouses, tents, other temporary installations)
- cooling (possibly via vortex tube); for making freeze-dried fruit powders
- generate compressed air via (solar) heat engine that directly powers an air compressor
- various metallurgy applications benefit from having very hot flames (compressed air provides increased oxygen for hotter combustion)
- hypothetical device that precisely controls the temperature of a flame by regulating the flow of compressed air into flame and using a feedback mechanism that is controlled by an Arduino (useful to generate precisely carbonized materials for example)