installing 12v marine batteries for 24 v solar panels
wulfdan
Registered Users Posts: 5 ✭✭
What is the best configuration for installing 8 -12v marine batteries in series/parallel using 24v 3-265 watt solar panels
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Welcome to the forum Wulfdan,
I sort of hate giving you an answer to a question with few details.
For example, what Amp*Hour/Voltage is your planned battery bank? Marine batteries are not great for deep cycle application--You might want to look at 6 volt @ ~200 AH "golf cart" batteries.
They tend to be less expensive/better wiring for battery bank, and last longer than deep cycled marine batteries. Very good for "training" batteries (many folks "murder" their first battery bank or so).
Details on the solar panels... Usually need Vmp/Imp (voltage and current ratings for Max Power)--"24 Volt" is not usually accurate enough to design a system (is it Imp=24/30/36 volts, etc.).
Do you have charge controller already selected or purchased? Different charge controllers have different configuration requirements.
And location matters too... Your record cold and averge hot weather conditions. We can also estimate your solar harvest too with location.
But, most critical, is what your loads/usage? A system that is too small--Won't power your loads. A system that is too large is a waste of money/costs more to maintain.
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Initial reaction is too much battery for that solar array. Plus what BB said about using real deep cycle batteries.First Bank:16 180 watt Grape Solar with FM80 controller and 3648 Inverter....Fullriver 8D AGM solar batteries. Second Bank/MacGyver Special: 10 165(?) watt BP Solar with Renogy MPPT 40A controller/ and Xantrex C-35 PWM controller/ and Morningstar PWM controller...Cotek 24V PSW inverter....forklift and diesel locomotive batteries
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The 12 v marine batteries I have ..already ..
Reserve Capacity [Ah@20hr rate]: 90
The solar array 3-265 (24v)panels..a HTTP 50..& a 2000 watt pure sine inverter I will be getting from a friend..
Until I purchase better batteries I would like to use the marine batteries..
How many batteries (series/parallel) should I use for the 3 panel array..
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Using our rules of thumbs for an off grid system...
Generally, suggest 2 days of storage, and 50% discharge is a pretty nice mid price/performance point.
And you can run the math from several directions... 1) is design the system to support your load. 2) Have solar panels, what battery bank/loads can be supported. Or 3) have the batteries, what size solar array needed and loads that can be supported. Obviously, I am a big fan of #1 (you do vary the design based on how much $$$ you want to spend and adjust your loads--Conservation is generally cheaper than generating power).
I assume that batteries are the big expense--So you design and run the system to "keep the batteries happy".
You have 3x 265 Watt array = 795 Watt array.
Generally, design the solar array to provided 5%/10%/13% of charging current for your battery bank. 5% can work for a weekend/summer/backup system. 10%+ suggested as a good starting point for full time off grid (9+ months off grid use a year). At this point, solar panels are "relatively cheap" and batteries are "relatively expensive". So, "over paneling" saves batteries (and reduces generator+fuel usage--If needed).- 795 Watt array * 0.77 panel+controller derating * 1/29.0 volt charging = 21.1 Amps typical max current
- 21.1 Amps * 1/0.13 rate of charge = 162 AH "suggested minimum AH" battery bank @ 24 volts
- 21.1 Amps * 1/0.10 rate of charge = 211 AH @ 24 volts nominal battery bank
- 21.1 Amps * 1/0.05 rate of charge = 422 AH @ 24 volt maximum battery bank (solar only/primary solar)
Assuming a 10% rate of charge (nominal) as an example:- 211 AH suggested / 90 AH batteries = 2.34 strings ~ 2x 12 volts in series times 2 parallel strings (90 AH each) for a 24 volt @ 180 AH battery bank
- 180 AH * 24 volts * 0.25 (one day discharge) * 0.85 AC inverter eff = 918 Watt*Hours per day of 120 VAC power
http://www.solarelectricityhandbook.com/solar-irradiance.htmlKalamazoo
Measured in kWh/m2/day onto a solar panel set at a 48° angle:
Average Solar Insolation figures
(For best year-round performance)
Toss the bottom three months (assume genset usage/cabin shutdown for winter). Use February @ 3.64 Hours of sun per day (long term average) as the "break even" month (you may or may not need a genset depending on how "dark" it is "this month"):Jan Feb Mar Apr May Jun 3.06
3.64
4.19
4.62
4.88
5.36
Jul Aug Sep Oct Nov Dec 5.38
5.05
4.80
3.80
2.58
2.48
- 918 Watt*Hours * 1/0.52 off grid system eff * 1/3.64 hours (Feb) = 485 Watt array minimum suggested
- 795 Watt array * 0.52 off grid sys eff * 3.64 hours (Feb) = 1,476 WH "average available" power (Feb)
Always suggest that your "base loads" (loads you need to run every day--such as lighting, computer for work, etc.) is no more than 50-65% of your loads... Optional loads, such as pumping to cistern, washing clothes, vacuuming, etc., you run when you have a sunny day.
Then there is wiring your present solar array... If you use a "less expensive" PWM charge controller, you need the Vmp of the panels in the range of Vmp=35-40 volts. You would wire them in parallel and run a (795 Watts / 35 volts Vmp = 23 amps) ~25-30 Amp PWM solar charge controller.
If your panels are Vmp~30 volts (typical for 60 Cell Grid Tied solar panels), then you need the array to be Vmp-array over 40-50 volts minimum. That would be 2 panels in series (Vmp-array=60 volts), and one panel "left over", or 3x panels in series for Vmp-array=90 volts.
MPPT solar charge controllers that can run > 90 Volts Vmp-array, they are out there and plentiful, but tend to be larger/more expensive units. Great if you plan on adding to your system later (typically in the 60-90 Amp rated output range).
And for your 180 AH @ 24 volt battery bank--I would be suggesting a maximum AC inverter capacity of 230-460 Watts (assuming 500 Watts per 100 AH @ 24 volt battery capacity). The most continuous power from a FLA battery bank would be:- 180 AH * 24 volts * 1/5 hour discharge rate * 0.85 AC inverter eff = 734 Watts continuous
The "average usage" of power--Say 5 hours per night from your battery bank would be:- 180 AH * 24 volts * 0.25 over night usage * 1/5 hours per night = 216 Watt average AC load
I will stop here... Lots of guesses made. And relatively conservative calculations which are just a starting point for discussion.
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Thank you Bill ..
I appreciate you taking time to post the comprehensive detailed information in answering my question..
I have a better understanding ..now..how the whole system is to work and clears up what to do..
wulfdan..
👍
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wulfdan said:
The solar array 3-265 (24v)panels..a HTTP 50..& a 2000 watt pure sine inverter I will be getting from a friend..
How many batteries (series/parallel) should I use for the 3 panel array..
In the mean time, also assuming they are used batteries, you should take them to an auto parts store and ask them to 'load test' the batteries. If someone has replaced them, you may find they don't have much capacity left. Capacity CAN NOT be tested by voltage alone! A load must be applied.
Home system 4000 watt (Evergreen) array standing, with 2 Midnite Classic Lites, Midnite E-panel, Magnum MS4024, Prosine 1800(now backup) and Exeltech 1100(former backup...lol), 660 ah 24v Forklift battery(now 10 years old). Off grid for 20 years (if I include 8 months on a bicycle).
- Assorted other systems, pieces and to many panels in the closet to not do more projects. -
What would the best way to setup the batteries?
A..2 batteries in series then parallel them..
orB..2 batteries in parallel then in series..
Is setup A..better than..B..in charging and discharging the batteries keeping them in balance voltage..? -
Wulfdan,
For me, I prefer to wire up the batteries in series, then connect in parallel (this is for Lead Acid batteries).
The reason is that if you have a bad battery, you can just do a quick check on each battery and see if the voltages all match (i.e., 6.4 volts per battery resting/charged * 2 = 12.8 volts).
There are other reasons too... If you have a a bad battery in parallel with a good battery, then you can only see the "combined" voltage (i.e., one good at 6.4 volts and the other one is at zero volts because it is "open" internally).
If the batteries are all in good shape, then functionally, there is not much difference. If there is a problem/failure, Series first, then parallel the strings--Much easier to find the "problem cells".
Balancing--With flooded cell lead acid batteries, you do a controlled over charge (equalization). The "good cells" simply gas a bit (from overcharging). And the "weak cells" are "charged to 100%" State of Charge by the leakage current.
Note that "over EQ'ing" a lead acid battery bank, while needed once a month or so--Too much EQ is hard on the batteries (causes them to run hot, use more water, damage plates, and cause corrosion of the positive grid/plates.
AGM batteries are (generally) not EQ'ed.
And Li Ion batteries, are never EQ'ed because they do not have "leakage current" to charge the weak series cells. Many banks have a BMS (battery monitor system) that checks (and some can adjust/balance voltage between cells). And it is common that many Li Ion banks are paralleled cells first, then put in series (reduces the wiring for BMS, and easier to "balance" if manual balancing).
To wire parallel strings of batteries, this is a good description:
http://www.smartgauge.co.uk/batt_con.html
In general, batteries fail from under charging/over discharging, and poor maintenance (letting batteries "go dry" and expose plates, not using distilled/other "pure" water, etc.).
-BillNear San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
BillThanks again for the helpful quick reply...
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