24 versus 48 volt and panel array size

If we ignore your two 12v batteries, I count 16 6v batteries. At Costco's price that would be $1344 or $1584 with core. At $50 savings per month, that would be 27 months to break even just on the cost of the batteries, if core is not considered. So, if you have gotten 3+ years out of them so far at 100% DOD you have done pretty well. Have you done any calculations as to your total cost in terms of cents / kWh for your solar system?

I paid lets say $100ea for 18 batteries $1800 + $3600 for solar panels + wire was cheap or free so $100 + inverter(s) $500 + $1000 + $500 + charge controller $100 = $7600 self installed. Note to self: "yes you are stupid enough some mornings to plug in grid power before turning off the circuit breaker" - hence the 3 inverters. All of you guys math is crazy because it does rain here and some days the solar just doesn't put out. My practical experience would say that I have saved an average $40/mo for 5 years over using grid power to do the same thing. $7600-$2400=$5200 The good news is the batteries are paid for. The bad is the solar system hasn't paid for itself and I will need new batteries soon.

I paid lets say $100ea for 18 batteries $1800 + $3600 for solar panels + wire was cheap or free so $100 + inverter(s) $500 + $1000 + $500 + charge controller $100 = $7600 self installed. Note to self: "yes you are stupid enough some mornings to plug in grid power before turning off the circuit breaker" - hence the 3 inverters. All of you guys math is crazy because it does rain here and some days the solar just doesn't put out. My practical experience would say that I have saved an average $40/mo for 5 years over using grid power to do the same thing. $7600-$2400=$5200 The good news is the batteries are paid for. The bad is the solar system hasn't paid for itself and I will need new batteries soon.

I recently did a comparison of batteries on this forum compared to Costco and at $83.99 for a 6v 207AH battery that is said by Interstate to get 1220 cycles at 50% DOD, I came to the conclusion that they are the lowest cost in cents / kWh. That being said, their 1220 cycles may be a bit optimistic.

OK lets see if I can straighten you out.

It does not matter if the 24 batteries are configured as 24 or 48 volt. Either way each battery will have the exact same amount of charge current. As you stated if configured as 48 volts requires you to make 3 parallel string with 8 batteries in each string. This means the current from the charge controller is divided evenly by 3. If configured as 24 volts you will have 6 parallel strings with 4 batteries in each string which means the current from the controller is divided by 6. Are you with me so far?

OK it is very simple 5th grade math from here. You have a panel wattage of 1410 watts right? (6 panels x 235 watts) If the charge controller is set up for 48 volts, the output current is 1410 watts / 48 bolts = 29.375 amps. OK you have 3 strings with a 48 volt battery setup, so that 29.375 amps is divided by 3 so each string has 29.375 amps / 3 strings = 9.79 amps/sting. That means every battery configured at 48 volts has 9.79 amps charge current. Understand?

OK if configured at 24 volts the current out from the charge controller is 1410 watts / 24 volts = 58.75 amps. With 6 strings of batteries means the current is divided by 6 right. So we have 58.75 amps / 6 strings = 9.79 amps /string.

Now you tell me which number is greater than the other: 9.79 amps/string in the 48 volt configuration, or or 9.79 amps/string in the 24 volt configuration?

Here is the real scary part. Your installer is a moron and only knows enough to be very dangerous. He is correct that too low of a charge current can cause sulfation in flooded lead acid batteries. The minimum charge current to prevent sulfation is C/12 where C = the battery amp hour capacity. Your batteries are 225 AH batteries correct? So C/12 for your batteries is 225 AH / 12 hours = 18.75 amps minimum charge current required. Guess what, no matter if you configure them for 24 or 48 volts you only have 9.79 amps of a C/23 charge current. What this means is you will destroy your batteries and neither your installer or you have a clue why. There is two ways to fix that problem. Either double your panel wattage and configure it for 48 volts, or only use 12 batteries and configured for 24 volts. Which one do you choose.

Last warning. You need to understand fully what I just told you, or else you are going to make a huge mistake. BTW, fire your contractor, he is a moron. Anyone who told you what he did and to use either 3 or 6 parallel battery strings is an idiot. If it were using 1410 watts of panels you would be using a single sting of 12 Trojan L16RE2V batteries @ 24 volts, which is the same capacity you are looking at now, just less expensive and will last longer than your T-105 batteries. But hey it is only money right, your money. Use the batteries your contractor wants will last a year or two at best. My way 5 or 6 years.

Quit pretending ...

Quit pretending your are an educated individual with adding fake credentials like MSEE and PE. A true educator would never insult someone by calling them a maroon or an idiot as you have. You may know what you are talking about when it come to solar, but then again it doesn't take a rocket scientist to figure this out, only someone with a least a 5th grade education, which I assume you must have as you seem to know how to add and divide. But I have got to tell you that your language is offensive and insulting to me and I have to believe most others in this blog. I'm guessing you do have at least a 5th grade education as you recognize the fact to figure out the difference between 12, 24 or 48 volt systems you only need a 5th grade education.