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I'm using a Chevy Volt battery as storage for off grid solar energy and am having a few design issues.
Its a 2014 battery that came from a vehicle with 24k on it. I've broken the battery down and reconfigured it into 8 individual 12 series modules. I think its called a 3p12s configuration because each plate has 3 lithium pouches in parallel. Each module is within 4mV of the others.
I'm going to be hooking up a couple of SMA Sunny Island 6048 inverters which is probably more than I need in the way of power. My well pump is 240 volts so whatever I went with needed to be able to power the water pump.
It is unfortunate that I can not break down the Chevy battery into something like an 18p14s configuration as I'm sure that would be the best way of doing this. Such is life I guess. So my plan is to charge the battery to 4.1 and discharge to 3.5. I'm guessing that will let me use about 10kw out of a 16.5kw pack yes? On the up side, the battery should last forever.
Anyhow, I'm suck on the BMS. Technically, I think I'm supposed to have 8 BMS's.. one for each series string right? But can you imagine how expensive that would be? I was in another forum where a member had paralleled his BMS wires between strings. I've seen this twice now, one guy did it with 2 strings, another did it with all eight.. In other words, the cell numbers in each string go from 1 to 12. All the BMS wires from Cell 1 together, all the BMS wires from Cell 2 together, and so on.
Was this some crazy idea that's going to go boom? Or could this work safely if the BMS lines were fused?
One more question: Lets assume the whole parallel BMS wires is a bad idea. I'm using my battery bank in a solar backup application where charge and discharge rates can be held to less than 1C or even 0.5C. the reality is it would probably be more like 0.2C. I'm looking at purchasing a Rec BMS because it has the proper CAN communication protocols to work with the SMA Sunny Island. The Rec BMS will have both a pre-charge unit and main battery contactor. Each 12s string will also have circuit breakers installed as well as a main breaker on the line going to the inverter. Would it be reasonable to use a single 12s BMS on one string at a time and just swap it from string to string? The individual modules have quick-disconnect orange plugs on them that would make it pretty easy to swap the BMS lines.
Thank you,
Its a 2014 battery that came from a vehicle with 24k on it. I've broken the battery down and reconfigured it into 8 individual 12 series modules. I think its called a 3p12s configuration because each plate has 3 lithium pouches in parallel. Each module is within 4mV of the others.
I'm going to be hooking up a couple of SMA Sunny Island 6048 inverters which is probably more than I need in the way of power. My well pump is 240 volts so whatever I went with needed to be able to power the water pump.
It is unfortunate that I can not break down the Chevy battery into something like an 18p14s configuration as I'm sure that would be the best way of doing this. Such is life I guess. So my plan is to charge the battery to 4.1 and discharge to 3.5. I'm guessing that will let me use about 10kw out of a 16.5kw pack yes? On the up side, the battery should last forever.
Anyhow, I'm suck on the BMS. Technically, I think I'm supposed to have 8 BMS's.. one for each series string right? But can you imagine how expensive that would be? I was in another forum where a member had paralleled his BMS wires between strings. I've seen this twice now, one guy did it with 2 strings, another did it with all eight.. In other words, the cell numbers in each string go from 1 to 12. All the BMS wires from Cell 1 together, all the BMS wires from Cell 2 together, and so on.
Was this some crazy idea that's going to go boom? Or could this work safely if the BMS lines were fused?
One more question: Lets assume the whole parallel BMS wires is a bad idea. I'm using my battery bank in a solar backup application where charge and discharge rates can be held to less than 1C or even 0.5C. the reality is it would probably be more like 0.2C. I'm looking at purchasing a Rec BMS because it has the proper CAN communication protocols to work with the SMA Sunny Island. The Rec BMS will have both a pre-charge unit and main battery contactor. Each 12s string will also have circuit breakers installed as well as a main breaker on the line going to the inverter. Would it be reasonable to use a single 12s BMS on one string at a time and just swap it from string to string? The individual modules have quick-disconnect orange plugs on them that would make it pretty easy to swap the BMS lines.
Thank you,
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