Compressed Air Energy Storage: Difference between revisions
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*80 cu ft tanks cost $200. That is 2 cubic meters. They are rated for 3000 psi. Standard is 200 bar [https://www.google.com/search?q=what+is+pressure+is+nside+scuba+tank&oq=what+is+pressure+is+nside+scuba+tank&aqs=chrome..69i57j0l3.9658j0j4&client=ms-android-verizon&sourceid=chrome-mobile&ie=UTF-8] | *80 cu ft tanks cost $200. That is 2 cubic meters. They are rated for 3000 psi. Standard is 200 bar [https://www.google.com/search?q=what+is+pressure+is+nside+scuba+tank&oq=what+is+pressure+is+nside+scuba+tank&aqs=chrome..69i57j0l3.9658j0j4&client=ms-android-verizon&sourceid=chrome-mobile&ie=UTF-8] | ||
*For DIY - take schedule 80 steel pipe. | *For DIY - take schedule 80 steel pipe. | ||
*510 cubic meters reduced by 200x is 2.5 cubic meters or 90 cu ft | |||
Revision as of 19:54, 31 March 2020
- 3kW hr of energy storage at 8 bar requires 65 cubic meters of volume - [1]
- This is 510 cubic meters. But air is free.
- But - if you use high pressure, you can reduce that volume down to 300 bar simply using a $300, 1800W Scuba compressor.
- Scuba compressor on AliExpress - $300 - [2]
- 80 cu ft tanks cost $200. That is 2 cubic meters. They are rated for 3000 psi. Standard is 200 bar [3]
- For DIY - take schedule 80 steel pipe.
- 510 cubic meters reduced by 200x is 2.5 cubic meters or 90 cu ft