Battery Bank not charging properly

Are they the same size, age and type of batteries?

Have they been wired so that they have equal resistance across each string   Since  they are connected together they are 1 battery bank made up of 2 strings. This is usually achieved by being sure that each  connecting wire is the same gauge and length and connecting the bank to the  system with wires from the positive terminal  of one string and  the negative terminal of the other.

There is more information  here;
http://www.smartgauge.co.uk/batt_con.html

petertearai said:

Hi . What size is your pv .. maybe not enough amps for your battery bank .

In the signature bottom of posts. 6 × 260W + 2 × 255W

Definitely install both if not networked,  the controller without a RTS  will raise the voltage above the target of the other with the RTS essentially shutting it down. They need to both act as a team with the same goal plan, the compensated voltage being target, the RTS should be programmed to reduce the voltage by 0.005V (5mV) per cell per °C or by 60mV for every °C on a 24V nominal system.

The reverse occurs as temperature drops below 25°C, increasing the voltage inversely proportional to the > than 25°C value.

As an example let's say the bulk/absorb setpoint is 29.6V, at 35°C (95°F) the target voltage would be reduced to 29.0V, this is important because it's a dynamic function, the battery temperature is not constant, self heating whilst under charging conditions due to the inherent inefficiencies of lead acid batteries. Conversely the battery temperature will drop overnight meaning the target voltage value may well differ throughout the day, it really takes a lot of guesswork out of the equation when using a RTS.

The difficulty with monoblock batteries is if there is a weak cell (low SG ), is the other cells reach a higher voltage not allowing the low cell to increase sufficiently to gas so the SG remains low at the expense of the other cells. This phenomenon is even more difficult whth long strings, 12 cells in your case, more cells to form the aggregate voltage, this is where equalization is used to provide enough voltage to overcome the deficit seen during normal charging. Cycling of the battery will only make the process take longer, two steps forward, one step back.

Before equalization the battery should be fully charged, if the cells in question begin to gas, that means the voltage is high enough, check  the SG every 30 minutes, when it matches the other cells or fails to increase after 3 hours  there is little point in continuing as it would be more harmful to the ballance of cells. Use the temperature sensor, the battery temperature will increase, the compensated voltage is sufficient.

FWIW, when I switched to lithium my lead acid bank had low SG cells, nothing outrageous just something like yours, they remained essentially unused but on charge for weeks, only load was an on demand 100W water pump. After this time had passed all cell SG's were perfectly matched without any EQ, time it seems is all it took. 

Apica said:

Just an update.
...... My only concern is that 1 string (i.e the one that previously had no issues achieving high SG readings) uses up much more water.  

I suspect that the current in your 2 strings, is not equal.  Get a clamp-on DC meter, and check that both strings are charging equally. There may be a bad connection at one of the jumpers somewhere.   Or get the system charging hard, and use an IR thermometer to read the temps of each connection, the warm one is the bad one.