http://www.battcon.com/PapersFinal2002/ ... er2002.pdf
I KNEW it had to exist somewhere.
For automotive - Strings = Battery (a battery is a string of cells)
Paul
Notice: We request that you don't just set up a new account at this time if you are a previous user.
If you used to be one of our moderators, please feel free to reach out to Chris via the facebook Outerlimits4x4 group and he will get you set back up with access should he need you.
If you used to be one of our moderators, please feel free to reach out to Chris via the facebook Outerlimits4x4 group and he will get you set back up with access should he need you.
Recovery:If you cannot access your old email address and don't remember your password, please click here to log a change of email address so you can do a password reset.
Eureka - I found it - Paralle Battery Behaviour
Moderator: -Scott-
Eureka - I found it - Paralle Battery Behaviour
Lexus LX470 - hrrm Winter Tyres
Gone - Cruiser HZJ105 Turbo'd Locked & Lifted
Gone - 3L Surf
Gone - Cruiser HZJ105 Turbo'd Locked & Lifted
Gone - 3L Surf
Nice article.
However, I think the author "lost it" in his last few paragraphs, and I'd like to see more information. How good is your research technique?
Perhaps it's a simplification, but I don't see how one (healthy) lead-acid cell can recharge another (healthy) lead-acid cell. (The scenario with two strings and one shorted cell is different - I agree with that.)
It's a chemical process. During discharge, one reaction is happening and electrical energy is released.
During recharge, electrical energy is used to reverse the chemical reaction (electrical energy is "stored" chemically in the cell.)
If the normal discharge reaction is reversed (the cell is "recharged") by applying a higher voltage than the discharge reaction generates, how can the discharge reaction in one cell produce a large enough voltage to reverse the SAME reaction in another cell?
It's like releasing a ball to roll down a small hill under gravity, and expecting it to roll to the top of a taller hill. It just doesn't work.
Am I missing something?
Scott
However, I think the author "lost it" in his last few paragraphs, and I'd like to see more information. How good is your research technique?
Perhaps it's a simplification, but I don't see how one (healthy) lead-acid cell can recharge another (healthy) lead-acid cell. (The scenario with two strings and one shorted cell is different - I agree with that.)
It's a chemical process. During discharge, one reaction is happening and electrical energy is released.
During recharge, electrical energy is used to reverse the chemical reaction (electrical energy is "stored" chemically in the cell.)
If the normal discharge reaction is reversed (the cell is "recharged") by applying a higher voltage than the discharge reaction generates, how can the discharge reaction in one cell produce a large enough voltage to reverse the SAME reaction in another cell?
It's like releasing a ball to roll down a small hill under gravity, and expecting it to roll to the top of a taller hill. It just doesn't work.
Am I missing something?
Scott
Who is online
Users browsing this forum: No registered users and 1 guest