Size of amp load as a percentage of battery amps?

BB. wrote: »

For a typical flooded cell battery bank (we use the 20 Hour Rate for battery capacity--It seems to best represent the "average" Off-Grid system's average current draw for successful design/operations):

• C/20 (or 5%) of the battery 20 Hour Rate is a good efficient average. Also the minimum charge rate rule of thumb we use for charging a battery bank too.
• C/10 (or 10%) is probably about the most you want to consume on average. Batteries are less efficient at the higher rates and don't deliver as much power (and battery can get warm).
• C/8 (12.5%) Call it the maximum "safe rate" for continuous discharge current. Over that rate, batteries may need forced air cooling (for discharging or charging currents). 13% is also the typical maximum recommended charging current for a typical flooded cell battery bank.
• C/4 About the maximum current that you can efficiently design for with a standard battery bank.
• C/2.5 (40%) Maximum Surge Current Operation--At this point, you can start to damage/warp the plates, heat up the battery, draw down below operating voltage (even if fully charged)... Drawing this much current or more and you can have flaky inverter operation and such.

Now, the above is just from what I have read trolling around here and the web... And is a good starting point for a a rule of thumb for design.

Obviously, there are batteries designed for all kinds of applications--Car batteries are designed for high surge currents (but not deep discharge).

AGM's have very low internal resistance and at least one vendor (Concorde AGM) claims C*4 (400% current rating) for charging/discharging. Obviously, that amount of current requires a lot of copper bus bars and is very difficult to design for.

-Bill "my two cents" B.