Power-to-Chemicals: Difference between revisions
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*This is typically chemicals using [[Syngas]] or [[Hydrogen]] as a feedstock | *This is typically chemicals using [[Syngas]] or [[Hydrogen]] as a feedstock | ||
*[[Bioreactor]] using microbes and/or algae to make food and other valuable chemicals | *[[Bioreactor]] using microbes and/or algae to make food and other valuable chemicals | ||
=Internal Links= | =Internal Links= | ||
*[[Power-to-X]] | *[[Power-to-X]] | ||
Revision as of 02:21, 12 April 2022
Basics
- Conversion of Electricity (ie power) to Non-Fuel Chemicals
- This is typically chemicals using Syngas or Hydrogen as a feedstock
- Bioreactor using microbes and/or algae to make food and other valuable chemicals
Internal Links
External Links
- A Video by the Youtube Channel "Just Have a Think" Titled "Hydrogen energy storage in AMMONIA: Fantastic future or fossil fuel scam?" ( ~12 Minute Watch )
- Although framed moreso as a power storage media, they do mention agricultural/industrial/scientific use as well
- A Video by the Youtube Channel "Just Have a Think" Titled "Decarbonising AMMONIA production. Could a revolutionary new process be the key?" ( ~12 Minute Watch )
- Discusses a novel method of Direct Electrolytic Ammonia Production (Given it's like an Electrolyser it should work better with Intermittent Power unlike the Haber-Bosch Process which runs best continously supposedly (to prevent Catalyst Poisoning i guess) , but that may just be an economic need to keep the machine going not a technical like the poisoning explanation would suggest? Need to look into this). Either way since this is at STP / near it, it should be more energy efficient