If you have shore power the charging your batteries that seem quite easy - fit a decent electronic charger (bulk, top off and with float charge settings) you can pretty much forget about them.
but if off grid, (I am) on a swing mooring, or if cruising then running the engine to charge the batteries is pretty much guess work..
You cant tell for sure:-
- How long to run the engine? or when the batteries are recharged or IF full?
- If you don't look after and recharge the batteries properly, are we shortening the life of the batteries or are we not getting the best usable energy out of them before each recharge?
Battery monitors help - but can give a false indication what's happening with the batteries - just after charging when the surface charge is still high +13v for example.
You will need to run a electrical load after charging so that the battery monitor can properly calculate the actual power is the battery - I turn on my deck light for about 1min and with the load it show better what is in the batteries.
I also find, that when charging my batteries the monitor never shows more than 80- 85% with the engine still running but the current going to the batteries has dropped to <5amps (showing nearly full), but after the charging stops the capacity keeps raising up to 100%.
A good rule of thumb -
What I do find is when the current drawn by the charging batteries is about 3-5% of the total Amp/hr installed you are as full as its going to get.
After turning on a load my monitor shows the battery voltage drops to around 12.7v and capacity drops to about 95%..
An Example, of how miss leading they can be..
last weekend I charged the house battery on the Saturday and the monitor said the battery had received 30Amp/hr and that the battery was at 95% 12.7v - I ran the Eberspacher for a total of about 4hrs @ 3Amps/hr total used 12Amp/hr and had the radio / TV on for a short while say a total of about 20Amp/hrs used - (my battery is 140Amp/hr) at the end of the night the battery was showing 12.1v or 40% ie that I had used 84Amp/hr. This is because the condition of the battery plays an important part of how well it accepts a charge and also how well it can deliver sustained power..
These types of battery monitors use an equation to calculate the State of Charge% - which is how good the battery can keep up the voltage for a given current drawn by a load - (my deck light is 10w halogen).
Personnel, I am going down the route of having a good sized house battery bank +450A/hr, a good sized alternator (115A) to bulk charge as quick as possible (25% of the installed Amp/hr to bulk charge), I will use my batteries down to around 50% SOC or to 12.2v and then recharge up to around 90%. The battery monitor has a Amp/hr 'counter' so I can keep a check of what Amp/hrs 'go in' and 'what is used' as another guide to how long to run the engine for.
This based on new batteries, over time an sure I will have to adjust my guide
Anything to do with batteries and charging (off grid) isn't black and white - As i am finding it seems to be a compromise for sure and the best way forward is not always clear.
The main idea is not to have to run our engines any longer than needed to recharge the house batteries to a good state. - but am not sure that with a modern alternator and decent batteries whether a smart charger or A-B charge will make things any easier or add any benefit - off grid.
I think it needs a mixed approach - So now I am planning the next step to install a solar panel to take care of the trickle / float charge - and hopefully with some sun (returning to my boat on a Friday I should find the batteries somewhere near fully charged) and only to have the engine running a short while each day.
