I use a pair of 6V flooded golf cart batteries for my travel trailer. I wanted to get away from flooded wet cell batteries for the boat mostly due to the fact that I'm relocating my batteries to the starboard bench seat lazarette in the cockpit, where the opening is just large enough to drop the batteries in one by one, but would be difficult to check and refill battery water on the ones farther from the opening. The lazarette does have some ventilation, but not as much as the origninal location. I'm also installing a new ProNautic 1215P smart charger that has charging leads for 3 banks, so each battery gets its own wires & can proportion the charge to each. Ditto the 20 watt solar panel for float charging when in storage, which will have a new smart charge controller with leads to each individual battery. I have a switch in the + side lead coming from the solar panel, so I can switch it out of the circuit when not needed. Alternator is the standard Yanmar 55 Amp, for which I'm also installing an AGM compatible external voltage regulator.If you need the capacity of a pair of Group 27 AGM's, may I suggest you look at a pair of AGM golf cart 6 volt batteries in series. You'll have a few more amp hours and no need to run paralleled batteries. The 6 volts in series should last at least 2X (or maybe even 3X) as long as a pair of paralleled 27's. I have a pair of flooded golf cart batteries in the engine room as my starting battery and a pair of AGM's (because they are located in the lazzarette which is technically part of the sleeping quarters on an A27.) which run the fridge and most other heavy loads. An ACR connects them all together when charging either from the 110 amp engine alternator, the 40 amp Shore power charger or the 320 watts of solar panels
Also upgrading the AC side with new Blue Sea Systems Main + 6 breaker panel to hard wire the charger to a dedicated circuit plus 2nd circuit for outlets (I only have three outlets and no other AC accessories, and no fridge, just a 5 day cooler). Also will be changing out the 1st outlet for a GFCI, and adding a galvanic isolator to the AC ground circuit. On the DC side the only electronics so far are the VHF radio, a fish finder, and my Garmin GPSmap76cx with cable to run off 12V. As far as the AGM house batteries getting unblanced between the two, that's just a chance I'll have to take. All three batteries are brand new, purchased from the same store at the same time. Besides which, I already bought the batteries, and a pair of 6V AGMs would be at least $136 more than what the pair of 27s cost me not counting shipping or sales tax, depending on whether bought local or online. I suppose I could hook up my old 3 way switch to allow manually isolating the + side of those two house bank batteries and take them out of parallel when on the AC charger?
This boat lives mostly on the trailer away from any AC sources, and only occasionally gets plugged into shore power at transient slips for a night or two at a time. Otherwise we anchor out as often as possible when cruising.
If there are any stray currents or galvanic action in the water at a marina, it won't be coming from me.
I'm sizing my battery cables for ampacity according to the formula CM= I x L x 10.75/E where CM is wire diameter in circular mills, I is current, L is length (both + & - combined), 10.75 = resistivity of copper, and E is allowable voltage drop @ 0.36. Figuring 300 amps and 15 ft cable length puts it at about 2/0 gauge wire size.
I just finished drawing up this schematic of the planned system today. I did not include temperature sensing leads in this drawing.
