Compressed Air Energy Storage Calculations: Difference between revisions
Jump to navigation
Jump to search
| Line 3: | Line 3: | ||
=Calculations= | =Calculations= | ||
*Work to compress, thus energy stored in isothermal conditions - is W = P1V1 * ln(P2/P1) [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=what+is+the+basic+formula+for+calculating+energy+stored+in+caes+system&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | *Work to compress, thus energy stored in isothermal conditions - is W = P1V1 * ln(P2/P1) [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=what+is+the+basic+formula+for+calculating+energy+stored+in+caes+system&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | ||
*Adiabatic compression - [W = P1V1 - P2V2 / (1 - γ)] [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=formula+for+calculating+energy+stored+in+compressed+air+energy+storage&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
*Let's take industrial gas cylinders with K, T, 3K, 6K standards - 300 cu ft for T [https://www.tollgas.com/gas-cylinders/]. 2200-2600 psi is the standard, but also 3000 PSI and 6000 PSI. | *Let's take industrial gas cylinders with K, T, 3K, 6K standards - 300 cu ft for T [https://www.tollgas.com/gas-cylinders/]. 2200-2600 psi is the standard, but also 3000 PSI and 6000 PSI. | ||
*T type - 300 cf | *T type - 300 cf | ||
Revision as of 18:54, 19 May 2025
Compressed air energy storage or gravity water storage costs 10x less than any other based on 100 year vs 10 year lifetime of the system.
Calculations
- Work to compress, thus energy stored in isothermal conditions - is W = P1V1 * ln(P2/P1) [1]
- Adiabatic compression - [W = P1V1 - P2V2 / (1 - γ)] [2]
- Let's take industrial gas cylinders with K, T, 3K, 6K standards - 300 cu ft for T [3]. 2200-2600 psi is the standard, but also 3000 PSI and 6000 PSI.
- T type - 300 cf
Other
- 150 PSI, 660 gal receiver tank - $3500 [4]