http://electrodacus.com
Kickstarter backlink to Photo voltaic BMS and DMPPT https://www.kickstarter.com/assignments/electrodacus/electronic-mppt-and-photo voltaic-bms-for-a-net-zero-power-h
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Here is a comparison of Lithium vs Lead Acid Battery for power storage.
I utilized only one particular instance of battery from each individual technological know-how.
For LiFePO4 A123-AMP20-M1HD-A from A123 Programs was utilized (I obtained this battery for 19$ back in 2012 so two a long time ago).
For Lead Acid I utilized the well known Trojan L16RE-A considering the fact that is one particular of the best value for dollars when it comes to Lead Acid but as you will see in this movie it has no opportunity when it comes to LiFePO4.
I was incredibly generous with the Lead Acid battery in this movie when I calculated the value / power stored for the duration of daily life time and even so the Lead Acid was 2x more pricey when compared to LiFePO4 but if I have manufactured a more precise calculation the rate variance will have been significantly increased involving 3x and 5x at least.
This are not just my results they are confirmed by independent laboratory assessments and those people concerned in power storage answers in particular for renewable power.
At the instant Lithium is the selection one particular applicant for reduced value power storage answers.
For more particulars I incorporated links to this two battery technical specs but also links to independent laboratory exam with distinct LiFePO4 and Lead Acid.
A123 Technique Datasheet
http://electrodacus.com/battery/A123-AMP20-M1HD-A-1-Details-Sheet.pdf
Trojan L16RE-A Datasheet
http://electrodacus.com/battery/L16REA_TrojanRE_Details_Sheets.pdf
Li-ion battery overview
http://electrodacus.com/battery/Overview_on_existing_status_of_lithium-Ion_batteries.pdf
Impartial laboratory daily life cycle screening
http://electrodacus.com/battery/03_Ferreira_PeerReview_Print.pdf
Post time: Jan-29-2017